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THE 6th IC–STAR 2020 Committee
Advisory Board
• Prof. Dr. Karomani, M.Si. – Rector of University of Lampung
• Prof. Hadi Nur – Universiti Teknologi Malaysia, Malaysia
• Prof. Toshiro Ohashi – Hokkaido University, Japan
• Prof. Naoya Kasai – Yokohama National University
Steering Committee
• Prof. Dr. Heryandi – Vice Rector, University of Lampung, Indonesia
• Dr. Asep Sukohar – Vice Rector, University of Lampung, Indonesia
• Prof. Dr. Yulianto – Vice Rector, University of Lampung, Indonesia
• Prof. Suharso – Vice Rector, University of Lampung, Indonesia
• Prof. Dr. Suharno – Dean of Faculty of Engineering, University of Lampung, Indonesia
• Dr. Lusmeilia Afriani – Director of Research Institute and Community Service of University of Lampung
• Dr. Irza Sukmana – University of Lampung, Indonesia
• Dr. Ahmad Zaenuddin – University of Lampung, Indonesia
Organizing Committee
• Khairudin – General Chair
• Ika Kustiani – co-chair
• Bagus Sapto Mulyanto – Secretary, Public Relation, and Sponsorship
• A. Yudi Eka Risano – Treasurer
• Karyanto – Technical and Scientific Administration
• Dikpride Despa – Logistics and Appurtenance, Social and Excursion Program
• Gigih Forda Nama – Information and Conference Management System
• Tarkono – Information and Conference Management System
• Hery Dian Septama – Publication and Circulation
• Zulmiftahul Huda– Secretary Public Relation, and Sponsorship Team
• M. Ridho Ulya – Publication and Circulation
• I Gede Boy Darmawan – Technical and Scientific Administration Team
• Trisya Septiana – Logistics and Appurtenance, Social and Excursion Program Team
• Rahmat Catur Wibowo – Information and Conference Management System Team
• Yuli Darni – Treasurer Team
• Afri Yudamson – Information and Conference Management System Team
Scientific Committee
• Lukmanul Hakim – University of Lampung, Indonesia – chair
• Uceu Fuad Hasan – Helmholtz-Zentrum Geestatch, Germany – co-chair
• M. Karami – University of Lampung, Indonesia– co-chair
• Shirley Shavetlana – University of Lampung, Indonesia – co-chair
• Helmi Fitriawan – University of Lampung, Indonesia – co-chair
• Misfa Susanto – University of Lampung, Indonesia
• Lilis Hermida – University of Lampung, Indonesia
TPC Member
• Naseem Ahmed – Indian Institute of Technology Roorkee, India
• Herman Halomoan Sinaga – University of Lampung, Indonesia
• Nining Purwasih – University of Lampung, Indonesia
• R.Y. Ferry Burhan – 10 November Institute of Technology, Indonesia
• Homero Toral-Cruz – University of Quintana Roo, Quintana Roo, Mexico
• Joy Rizky Pangestu Djuansjah – Universiti Teknologi Malaysia, Malaysia
• Taha Abd. El-Rahman – University of Sherbrooke, QC, Canada
• Edno Gentilho – Instituto Federal de Educação Ciência e Tecnologia do Paraná, Brasil
• Ainul Ghurri – Udayana University, Indonesia
• Cipta Ginting – University of Lampung, Indonesia
• Agus Haryanto – University of Lampung, Indonesia
• Udin Hasanudin – University of Lampung, Indonesia
• Basem Abu Izneid – Effate University, Saudi Arabia
• Mamoru Kikumoto – Yokohama National University
• Irdika Mansur – Bogor Institute of Agriculture, Indonesia
• Agung Mataram – Sriwijaya University, Indonesia
• Lee Meyer – University of Kentucky, USA
• Noor Danish Mundari – LPU, India
• Kaneko Nabuhiro -Yokohama National University, Japan
• RR. Poppy Puspitasari – Universitas Negeri Malang, Indonesia
• Chithra Reghuvaran – National Institute of Technology, Rourkela, Odisha, India
• Ahmad Saudi Samosir – University of Lampung, Indonesia
• Marialisa Scata – Universitas di Catania, Italy
• Diding Suhandy – University of Lampung, Indonesia
• Gatot Eko Susilo – University of Lampung, Indonesia
• Takahasi Susume – Kyoei University, Japan
• Gunasekar Thangarasu – University Teknologi Petronas, Malaysia
• Josaphat Tetuko – Chiba University, Japan
• Mokhamad Fakhrul Ulum – Bogor Institute of Agriculture, Indonesia
• Mustafa Usman – University of Lampung, Indonesia
• Dedy H.B. Wicaksono – Swiss-German University, Indonesia
• Fathin Syaifurrahman – Bandung Institute of Technology, Indonesia
• M. Irsyad – University of Lampung, Indonesia
• Ageng Sadnowo – University of Lampung, Indonesia
Supporting Staff
• Muhammad Haviz
• Nugroho Ifadianto
• Ghazali MF
• Abdurrahman Effendi
• Ubaidah
• Siti Khalifah K
• Rahmat Bayu Setiawan
• Yoel Gudmean Gultom
• M. Harbi Rai Pangestu
• Naufal Hasan
• Redho Prayoga
• Ocazy Harun
• Puji Ayuning L
• Salwa Nursalsabila
• Chantika Anzarini
• Alfandi Wicaksono
• Toha Hilpan Hamim
• Danar Ade Prayoga
• M. Iqbal Hasan
• M. Reihan Putra A
IC-STAR
2020
Professor Ahmad Saudi S
Prof. Ahmad Saudi Samosir received his B.Sc. in Electrical Engineering from University of North Sumatera, Medan, Indonesia, in 1996. He
obtained his Master degree in Electric Energy Conversion from Institut Teknologi Bandung, Indonesia, in 1999, and PhD from Universiti
Teknologi Malaysia in 2010. He is currently a professor at Electrical Engineering Department, University of Lampung, Indonesia. Prof. Samosir is the author and co-author of more than 30 publications in
international journals and proceedings. His research interests include power electronic converter and controller, renewable energy systems
such as fuel cell, solar PV, wind energy and ultracapacitor.
IC-STAR
2020
Professor Rizalman Mamat
Prof. Dr. Rizalman Mamat presently is Dean of Faculty Mechanical Engineering, Universiti Malaysia Pahang, Malaysia. He got Doctoral degree
from University of Birmingham, United Kingdom in fuel and energy. Previously, he obtained his BSc and MSc from University Teknologi
Malaysia (UTM). His field research interest is Heat transfer, Combustion, Internal Combustion Engine, Alternative Energy, Computational Fluid Dynamics, Propulsion System. Prof. Dr. Rizalman Mamat was visiting Professor at Karlsruhe University of Applied Science Germany (2017),
Faculty of Engineering Universitas Abulyatama Aceh, Indonesia (2017), Faculty of Engineering Universitas Gajah Putih Aceh, Indonesia (2017),
Department of Mechanical Manufacture & Automation Ningxia University, Yinchuan, China (2016), Department of Mechanical Manufacture
& Automation Ningxia University, Yinchuan, China (2015).
IC-STAR
2020
Professor Sunny J Kalayathankal
Prof. Sunny J is a professor and Dean (Research) in Jyothi Engineering College, Cheruthuruthy, Thrissur, Kerala, India approved by AICTE & Affilated to APJ
Abdul Kalam Technological University. He is the former Head of the Department and Associate Professor in the Department of Mathematics, K.E.College, Mannanam, Kottayam, Kerala, India. He has completed 33 years of Teaching service included
16 years of research experiences. He graduated from University College, Thiruvananthapuram, Kerala University in 1986. He took his B.Ed. degree from Calicut University in 1989, MPhil degree from Kerala University in 1993, the area of study was: Non- Negative Matrices. He took his MCA from Indira Gandhi National Open University in 2002, completed his Ph.D. in Mathematics from Kerala University in 2010, the thesis
was titled "Mathematical modelling of change in space of surface water in a tropical river system - rain to repository". He also completed M.Tech IT. He has completed
has second Ph.D. from Bharathiar University, Coimbatore in 2018, the thesis was titled "Fuzzy Logic & Decision Making".
He is a Research guide in Bharathiar, Karpagam and M.G.Universities. There are eight research scholars under his guidance. His research interests are in the area of Graph theory, Fuzzy Modeling and Decision Making, Fuzzy Data Mining, Fuzzy Graph,
Neural Networks and History of Mathematics.
IC-STAR
2020
Professor Naoya Kasai
Prof. Naoya Kasai presently is Associate Professor of Faculty of Environment and Information Sciences, Division of Artificial Environment and Information, Yokohama National University.
The Best Research Achievement in his career is Published Thesis, Development of Amplifier Circuit by Active-Dummy Method for
Atmospheric Corrosion Monitoring in Steel Based on Strain Measurement 2018. He got Doctoral Degree from Yokohama National University, Division of Engineering, Department of Material Science and Chemical
Engineering. His field research interest is Social Systems Engineering/Safety Systems and he has acquired qualification
Health Supervisor and Hazardous Material Handler.
IC-STAR
2020
Professor Gavin Brown
Prof G Brown is Associate Dean Postgraduate Research and the Director of the Quantitative Data Analysis and Research Unit in the Faculty of Education and Social Work. He also has joined appointments at
Affiliate Professor, in Applied Educational Sciences, at Umea University, Sweden and Honorary PLroremoIpsumfessor, in Curriculum & Instruction, at the
Education University of Hong Kong.
Dr Brown has been in academic positions since 2005 at the University of Auckland and the Hong Kong Institute of Education (2009-2011).
Prior to that he was a standardized test developer for NZCER (1997-2000) and Auckland UniServices. he was the Senior Project Manager for the Assessment
Tools for Teaching and Learning (asTTle) project (2000-2005). After completing teacher training in Montreal Canada (1979-1981), Gavin
worked in NZ for 13 years (1983-1996) as a tutor of ESOL and as a high school teacher of English and ESOL.
He has contributed to Doctoral Dissertasions, master’s theses, and honor’s project ata UoA, Universidad Federale de Minas Gerais, Universidad Federale de Ouro Preto, Ludwig Maximilian University, National Institute of Education Singapore,
and the Education University of Hong Kong.
RUNDOWN THE 6TH INTERNATIONAL
CONFERENCE ON SCIENCE, TECHNOLOGY AND
INTERDISCIPLINARY RESEARCH (IC - STAR) 2020
20TH OCTOBER 2020
TIME PROGRAM PIC
08.00 – 08.30 Registration Program Committee
08.30 – 08.35 Pray Mr. Zulmiftahul Huda
08.35 – 08.40 Opening Ceremony MC
08.40 – 08.50 National Anthem Ms. Trisya
08.50 – 09.10 Remarks and Report Dr. Khairudin
09.10 – 09.20 Welcoming Speech from
The Dean of Eng. Fac. Prof. Dr. Suharno
09.20 – 09.30 Welcoming Speech and
Opening Seminar
Prof. Dr. Karomani
(The Rector of Unila)
09.30 – 10.00 COFFEE BREAK
ON LINE PANEL PRESENTATION – Zoom Virtual Room
Moderator : Dr. Lukmanul Hakim and Dr. Ika Kustiani
10.00 – 10.20 Keynote Speaker 1 Prof. Ahmad Saudi S, Unila - Indonesia
10.20 – 10.40 Keynote Speaker 2 Prof. Rizal Mamat, UMP - Malaysia
10.40 – 11.00 Keynote Speaker 3 Prof. Sunny J.K, JEC - India
11.00 – 11.20 Keynote Speaker 4 Prof. N Kasai, YNU - Japan
11.20 – 11.40 Keynote Speaker 5 Prof. G. Brown, AU - New Zealand
11.40 – 12.00 Discussion Moderator
12.00 – 13.00 LUNCH BREAK
13.00 – 17.18 Parallel Session (Zoom Virtual Room)
17.18 - 17.30 Resume Statement and Closing of IC-STAR 2020
RUNDOWN PARALLEL SESSION (ZOOM VIRTUAL ROOM)
N0.
TIME
ROOM 1
Moderator :
Dr. Misfa
Susanto
ROOM 2
Moderator :
Dr. M. Irsyad
ROOM 3
Moderator :
Dr. Joni Agustian
ROOM 4
Moderator :
Dr. Herman H.
Sinaga
ROOM 5
Moderator :
Dr. Ageng
Sadnowo R.
ROOM 6
Moderator :
Dr. Nandi
Khairudin
PAPER ID
1 13.00 - 13.12 #1 #12 #3 #20 #9 #5
2 13.12 - 13.24 #2 #13 #7 #22 #11 #15
3 13.24 - 13.36 #4 #28 #16 #31 #21 #23
4 13.36 – 13.48 #6 #44 #17 #33 #26 #25
5 13.48 – 14.00 #18 #45 #24 #49 #38 #29
6 14.00 - 14.12 #19 #46 #27 #51 #39 #30
7 14.12 – 14.24 #34 #56 #36 #58 #43 #35
8 14.24 - 14.36 #40 #63 #42 #60 #48 #37
9 14.36 - 14.48 #62 #65 #47 #61 #52 #50
BREAK
10 15.30 - 15.42 #76 #66 #77 #64 #55 #53
11 15.42 - 15.54 #86 #70 #89 #68 #57 #59
12 15.54 - 16.06 #87 #78 #90 #69 #73 #72
13 16.06 - 16.18 #91 #88 #94 #71 #79 #74
14 16.18 - 16.30 #92 #97 #95 #75 #80 #100
15 16.30 - 16.42 #93 - - #83 #81 -
16 16.42 - 16.54 #96 - - #98 #82 -
17 16.54 – 17.06 - - - #99 #84 -
18 17.06 - 17.18 - - - #101 #85 -
PARALLEL SESSION ROOM 1
PAPER
ID# AUTHORS TITLE
1
Nathanael Joshua
Harjono, Alfa Satya
Putra, Andree E. Widjaja,
Kusno Prasetya and Aditya R.
Mitra
Automated Class Attendance Management System using
Face Recognition: An Application of Viola-Jones Method
2
Gede Indrawan, Ketut Udy
Ariawan, Ketut Agustini and I
Ketut Paramarta
Finite-State Machine for Post-Processing Method of
Balinese Script to Latin Transliteration
4 Ayu Sintianingrum, Khairudin
and Lukmanul Hakim
Optimization of Microgrid Battery Capacity using PSO with
Considering Islanding Operation
6
Hery Hery, Calandra A.
Haryani, Aditya R. Mitra and
Andree E. Widjaja
The design of microcontroller based early warning fire
detection system for home monitoring
18
Helmy Fitriawan, M. Arif
Septa Diandika, Syaiful Alam
and Sri Purwiyanti
Healthcare Monitoring using Android Application and
Internet of Things (IoT)
19 Ayubi Wirara and Muhammad
Salman
Analysis Forensics Instant Messaging Application
“WhatsApp” On iOS Smartphone
34
Robertus Zidan Hadi Suyoto,
Muhammad Komarudin, Gigih
Forda Nama and Titin Yulianti
Classification of Civet and Canephora Coffee using Support-
Vector Machines (SVM) Algorithm based on orde-1 Feature
Extraction
40
Ahmad Saudi Samosir and
Akhmad Riszal
Analysis of the Effect of Wind Speed Variation on the
Design of Horizontal Axis Wind Turbine with Qblade
Software
62
Yudi Eka Putra, Sri Ratna
Sulistiyanti and Ahmad Saudi
Samosir
Characteristics of Ultrasonic Velocity of Eggs Using HC-
SR04 Module
76
Lukmanul Hakim, Khairudin,
Umi Murdika, Zulmiftah Huda
and Herri Gusmedi
Performance Analysis of Newton-Raphson Power Flow
Computations Based on Power and Current Mismatches
86
Rizky Putra, Herman Sinaga,
Nining Purwasih, Diah
Permata, Yetti Yuniati and
Henry B.H. Sitorus
Partial Discharge Type Detection and Identification Based
on Its Sources
87
Herman Sinaga, Yetti Yuniati,
Nining Purwasih, Diah Permata
and Henry B.H. Sitorus
Partial Discharge Localization in Power Transformers Using
Fractal Hilbert Sensor
91
Novalio Daratha, Afriyastuti
Herawati, Muhammad Khairul
Amri Rosa, Ika Novia
Anggraini, Agus Nuramal,
Mukhlis Islam, Yudi Setiawan
and Sigit Sudjatmiko
Challenges in Operation and Maintenance of Low-Voltage
Networks Owned by A Medium-Voltage Customer in
Indonesia (Case Study: University of Bengkulu)
92
Tiya Muthia, Haedar Aziz
Mahmud, Fx Arinto Setyawan,
Sri Ratna Sulistiyanti and Sri
Purwiyanti
Realtime Obstacle Detection Based On Raspberry Pi 3 Using
Hough Transform Method
93
Ahmad Saudi Samosir, Fahrur
Riza Priyana and Dekpride
Despa
Design of Dynamic Evolution Control For Maximum Power
Point Tracking Techniques In Solar Photovoltaic Systems.
96
Annisa Bella Triani, Setiyo
Budiyanto, Andi Adriansyah
and Mudrik Alaydrus
Optimization Of X-Ray Parameter Monitor Wireless System
Based On Internet Of Things
PARALLEL SESSION ROOM 2
PAPER
ID# AUTHORS TITLE
12
Sirojuddin Sirojuddin,
Mohamad Husni Fajar, Aam
Amaningsih Jumhur and
Ahmad Kholil
Design of an Efficient Car by Biomimicry of a Pomfret
Fish Body
13
Sirojuddin Sirojuddin, Yuga
Fitri Nur Syamsy, Mohamad
Husni Fajar and Muhammad
Abdurrahman Ihsan
Effects of Roof Box on the Cars Against the Fuel
Consumption
28
Hakun Wirawasista
Aparamarta, Setiyo Gunawan,
Aang Firmansyah Mochtar and
M. Yusril Izhar Noer
Study of Optimization and Kinetic Modelling of Biodiesel
Production from Nyamplung Oil With Microwave Assisted
Extraction (MAE) Method Using Response Surface
Methodology (RSM)
44
Sirojuddin Abbas, Baskoro
Cahhyo Heri Nugroho, Ilham
Ekayana, Haritsa Rachma Aziz
and Sorimuda Harahap
Design Optimization of Guide Vane Geometry of Kaplan
Turbine
45
Sirojuddin Abbas, Haritsa
Rachma Aziz, Baskoro
Cahhyo Heri Nugroho, Ilham
Ekayana, Sorimuda Harahap
and Aam Amaningsih Jumhur
Investigation of The Runner Blades Arrangement with
Gap, without Gap, and Overlap Geometry against The
Power Generated by The Kaplan Turbine
46
Sirojuddin Abbas, Ilham
Ekayana, Baskoro Cahhyo
Heri Nugroho, Haritsa Rachma
Aziz, Sorimuda Harahap and
Ahmad Kholil
Investigation of Conical Draft Tube of Kaplan Turbine
with Spiral Liner and without Spiral Liner using CFD
Simulation
56 Hartomo Soewardi and
Khoirul Anwar Hasibuan
Investigation of muscle contraction on motorcycle
handlebar using electromyography
63
Sirojuddin Sirojuddin, William
Muhamad Rosadi and
Syamsuir Syamsuir
Design optimation of shafts for shredder machine with 25
litres capacity
65
Sirojuddin Sirojuddin,
Muhammad Ridwan Ali
Setiawan and Syamsuir
Syamsuir
Blade design of shredder machine with 25 litres capacity
for plastic waste
66
Sirojuddin Sirojuddin, Ghifary
Adam Fairuzy and Syamsuir
Syamsuir
Casing design of shredder machine with 25 litres capacity
for plastic bottle waste
70
Sirojuddin
Sirojuddin, Muhammad
Haris, Indra Rizky
Ramadhan, Haryo
Suharjo, Aam Amaningsih
Jumhur and Ahmad Kholil
High Performance Scale Model for a Wind Turbine with
Deflector Knockdown System
78
Rinda Oktia Cahyaningsih and
Adithya Sudiarno
Comparison Study Of Cross – Organizational Cultural
Between Public University Institution and State-Owned
Company in Indonesia
88
Siti Nur Kayatun, Hari
Purnomo, Fikrihadi Kurnia
and Masniar
Identification of Musculoskeletal Complaints on Noken
Papua Craftsmen
97 Yeni Sumantri Logistics Service Process and Attribute in Container
Shipping Companies
PARALLEL SESSION ROOM 3
PAPER
ID# AUTHORS TITLE
3 Hendri Hendri and Roswati
Nurhasanah
Characteristics of medium-low rank coal blending on
performance and efficiency steam power plant
7
Setyo Hariyadi Suranto Putro,
Sutardi Sutardi, Wawan Aries
Widodo, Bambang Juni Pitoyo
and Nyaris Pambudiyatno
Comparison of The Winglet Aerodynamic Performance in
Unmanned Aerial Vehicle at Low Reynolds Number
16
Rita Normalia and Dewi
Amalia
Integrated Management Systems : The Integration of
ISO/IEC 17020, ISO/IEC 17021, ISO/IEC 17025 and
ISO/IEC 17065 Based on PAS 99 Specification
17
Ferry Desromi, Yuliantini Eka
Putri, Yuli Ermawati and Joko
Kuswanto
The Evaluation Of The Main Pipes and Capacity For The
Waste Water At Pt Plantation Mitra Ogan
24 Sutardi Sutardi and Rasyid
Ridha
The Effect of Swept Angle on the Flow Structures and
Aerodynamic Performances of Airfoil NACA 0012
27
Agung Sutrisno, Vikas Kumar,
Shinta Virdhian, Dwi
Handayani and Charles
Punuhsingon
Supply Chain Sustainability Risk Management Tools - A
Classification Scheme
36
Mohammad Badaruddin, Budi
Prasetyo, Bma Bakti and
Sugiyanto Sugiyanto
Effect of austempering temperature on impact toughness
properties of AISI 4140 steel
42
Rustan Tarakka, Nasaruddin
Salam, Jalaluddin, Wawan
Rauf and Muhammad Ihsan
Aerodynamic drag reduction on the application of suction
flow control on vehicle model with varied upstream velocity
47
Nasaruddin Salam, Rustan
Tarakka, Jalaluddin,
Muhammad Ihsan and Muh.
Annur Jimran
Flow drag across three minibus car models arranged in
tandem in four configurations
77 Fahrizal Akbar and Ridho
Hantoro
Design and experiment vortex gravitation turbine model
laboratory scale
89
Dedi Suryadi, Andhika
Pratama, Argian Ardi Prasetya,
Novalio Daratha and Indra
Agustian
Analysis of Optimum Tuned Mass Damper to Reduce
Vibration Response by Using Genetic Algorithm
90
Amrizal Amrizal, Yandi
Permana H and Muhammad
Irsyad
Comparative study of single and double pass solar PV/T air
collectors integrated with rectangular plate fin absorber
94 Nyoman Sugiartha The Proof-of-Concept of Green Cooling Production with a
Solar-Assisted Adsorption Cycle Prototype
95 Ramesh Deshmukh and Tushar
Badgujar
Vibration Analysis of Composite Internal Door Panel of a
Car using FFT Analyzer
PARALLEL SESSION ROOM 4
PAPER
ID# AUTHORS TITLE
20
Gema Fitriyano, Nurul Hidayati
Fithriyah, Ratri Ariatmi
Nugrahani, Syamsudin Ab and
Muhammad Kosasih
Optimization, Modelling, and Simulation to Scale-up the
Production of Rice Bran Extract and Defatted Rice Bran
22
Dinan Andiwijayakusuma,
Alim Mardhi, Topan
Setiadipura, Acep Purqon and
Zaki Su'Ud
Vulnerability assessment for physical protection system of a
nuclear facility using multi-path adversary analysis code
31
Nirwan Syarif, Muhammad
Prof. Dr. Muhammad Nurdin.
M.Si and Wulandari Sudarsono
Time-dependent density functional theory with spin-orbit
coupling calculation for predicting photonic character of
ruthenium - carbon nitride complex
33
Shinta Virdhian, Deni
Cahyadi, Muhammad
Fathurrohman, Evi
Oktavia and Arief Rahman
Implementation of Reverse Engineering Method for Disc
Refiner Development
49 Fadil Almer M Jhoni and Yano
Surya Pradana
Conversion of Microalgae Nannochloropsis sp. into Bio-
crude Oil using Low-temperature Hydrothermal
Liquefaction
51 Edo Rantou Wijaya and Titania application of the EPQ method to minimize the total cost of
inventory of refined sugar products at PT. X
58
Irvi Nurul Jannah Siahaan,
Andreas Exa Saputra and Eva
Fathul Karamah
The Effects of Ozonation and Ultrasonic Cavitation on Batik
Wastewater Treatment with Coagulation-Flocculation as
Pretreatment
60
Aziza Nurul Fitri, Devita
Amelia and Eva Fathul
Karamah
The Effect of Ozonation on the Chemical Structure of
Microplastics
61
Andreas Exa Saputra, Irvi
Nurul Jannah Siahaan and Eva
Fathul Karamah
Batik Wastewater Treatment by the Hydrodynamic
Cavitation and Ozonation with Coagulation-Flocculation
Pretreatment
64
Yuliusman and Raisa Aulia
Hanifah
Production and Characterization of NiO Modified-Activated
Carbon from Palm Shell Waste by Chemical Activation with
K2CO3 and Physical Activation
68
Yano Surya Pradana, Brilian
Ryan Sadewo and Laras
Prasakti
Microalgal biodiesel as an alternative fuel: Technological
study of conversion process in Indonesia
69
Yuliusman and Tetra Mutiara
Afifah
Production of Palm shell Based Activated Carbon by Two
Stage Phosphoric Acid Impregnation and Physical
Activation
71
Praswasti Pembangun Dyah
Kencana Wulan, Yogi Yolanda
and Umar Putra Syahrudin
The Effect of Carbon Nanotube Addition and Empty Palm
Oil Fruit Bunch Fiber Form Variation on Mechanical
Properties of Epoxy Composite
75
Rizka Utami, Dwi
Gustiono and Mochammad
Dachyar Effendi
Synthesis and Characterization of Hydroxyapatite
Bioceramics From Serai Snail Shells and Mangrove Crab
Shells in West Tanjung Jabung Beach: Effect of Milling
Process
83
Lutfi Aditya, Sri Juari Santosa
and Bambang Rusdiarso
Comparison Study of PHBA-intercalated Mg/Al-LDH and
PHBA-immobilized Mg/Al-LDH: Characterization and
Application for [AuCl4]̄ Removal from Solution
98 Bauyrzhan Rakhadilov,
Zhuldyz Sagdoldina, Rauan
Obtaining functional gradient coatings based on Al2O3 by
detonation spraying
Kozhanova, Dautbaev and
Meruyert Maulet
99
Titik Sundari and Abdul Wahid
Concentration profile and water level effect to the
evaporation using a diffusion approach in spent nuclear fuel
storage pool
101 Naftalia Ariska M Bangun and
Elida Purba
The effect of the nutritional of TEM (Tauge Extract Media)
and Conwy on increase protein and carbohydrate in
microalgaes Tetraselmis chuii contents
PARALLEL SESSION ROOM 5
PAPER
ID# AUTHORS TITLE
9 Cahya Damayanti Morphological Identification of Bedrock Using Microtremor
Data
11
Rahmat Catur Wibowo, Bagus
Sapto Mulyanto, Ordas
Dewanto and Muh Sarkowi
Structure from Motion (SfM) to Characterize Fluvial
Sedimentology: Case Study Way Semaka River
21
Akhmad Syaiful Arief, Tony
Dwi Susanto and Idaa
Warmadewanthi
Development methodology smart environment assessment
indicators: A Systematic Literature Review
26 Siti Mayuni, Sri Prabandiyani
and Bagus Hario Setiadji
Performance of OGFC using West Kalimantan Aggregates
and Polymer Modified Bitumen
38
Rustadi, Agus Setiawan, I
Gede Boy Darmawan, Nandi
Haerudin and Suharno
Geophysical Approach for Assessment of Seawater
Intrusion in the Coastal Aquifer of Bandar Lampung,
Indonesia
39
Ordas Dewanto, Ditha
Arlinsky Ar. and Rahmat Catur
Wibowo
Reservoir Properties Prediction Using Seismic Inversion and
Geostatistical Integration
43
Sandri Erfani, Frischiella
Mustika Sari Siregar, Ahmad
Zaenudin, Rustadi, Ida Bagus
Suananda Yogi and Rahmat
Catur Wibowo
Coal Velocity and Proximate Analysis Relationship Using
Multiple Linear Regression
48 Bimo Aji Widyantoro and
Purnama Budi Santosa
Geospatial analysis of optimal routing for fire disaster
mitigation in Makassar city
52
Bagus Sapto Mulyanto, Fristi
Shabrina Parameswari, Ordas
Dewanto and Rahmat Catur
Wibowo
Reservoir Properties Modeling Using Multi-Attribute
Seismic Analysis: Case Study South Sumatra Basin
55 Shofwatul Fadilah, Istiarto and
Djoko Legono
Investigation and modelling of flood control system in the
Aerotropolis of Yogyakarta Interational Airport
57
Karyanto, Nandi Haerudin,
Suharno, I Gede Boy
Darmawan, Muhammad Adli
and Posman Manurung
Numerical modelling for steady state condition of
geothermal system in Way Ratai
73 Samsunan and Inseun Yuri
Salena
Influence of groundnut shell ash on compressive and tensile
strengths of concrete
79
Isnaini Rosyida, Sugiyanto
Sugiyanto, Tsn Asih and Sb
Waluya
An Application of Fuzzy Shortest Path for Designing Public
Transportation Route (A Case Study in Yogyakarta,
Indonesia)
80
Isnaini Rosyida, Nurhaida
Nurhaida and Alfa Narendra
A Combination Among Fuzzy Graph, Fuzzy Chromatic
Number, and Fuzzy Inference System for Traffic Light
Assignment
81
Hayuning Anggrahita,
Guswandi, Fedo Syahputra
Lubis, Ravidania Auni and
Maria Hedwig Dewi Susilowati
Evaluation of Space Utilization in Vertical Residential
Complex in Jakarta
82
Gabriel N. Legaspi Legaspi,
Roy Laqui, Michael Julian
Meris and Dante Silva
A Case Study Analysis on the Role of Value Management in
the Construction Industry and the Philippines in Managing
the Design
84
Crissandra Nicole Cruz, Rey
Tumbokon and Jannuz Reyes
Comparative analysis of compressive strength of oyster shell
used as partial substitute for fine aggregate and for cement
in concrete
85 Gusta Gunawan Hydrological modelling of Air Bengkulu watershed,
Indonesia, by HSS and HEC-HMS model
PARALLEL SESSION ROOM 6
PAPER
ID# AUTHORS TITLE
5
Chalida Syari, Hartoyo and
Indra Gumay Febryano
Descriptive study of community empowerment programs
in coastal village business enterprises (BUM Desa) Teluk
Pandan and Padang Cermin Sub-district, Pesawaran
district
15 Mariska Pitoi Low volume extraction of pyrethroid analysis in fresh tea
leaves: method validation
23
Saiful Hikam, Paul Benyamin
Timotiwu, Deny Sudrajat and
Sinta Alvianti
The application of tukey’s mean difference and
dendrogram statistics to identify local genetic sources of
corn in selecting for prospective
parental lines
25
Akhdi Permana, Diana Sofia
Hanafiah and Hasanuddin
Performance, Genetic Variability, Heritability, and
Genetic Advance of Maize Hybrids Resistance to
Northern Corn Leaf Blight and Yield Components in
Karo Highland
29
Raden Putra, Tastaptyani
Kurnia Nufutomo, Yuni
Lisafitri, Novi Kartika Sari and
Alfian Zurfi
South Sumatra Peat Fires Analysis in 2019 using Spatial
Approach
30
Novi Kartika Sari, Tastaptyani
Kurnia Nufutomo, Yuni
Lisafitri, Alfian Zurfi and
Raden Putra
Identifying Association between Fire Hotspot
Distribution and PM10 during 2019 wildlife period in
South Sumatera, Indonesia
35 Sugeng P Harianto, Bainah
Sari Dewi and Afif Bintoro
The Dynamics of the Repong Damar Vegetation in Krui
Pesisir Barat
37
Agung Nugroho, Bowo
Cahyono, Ayu Ismahu and
Pratidina Putri
Pattern of Batik Kawung and Parang Rusak Identification
Based on First Order Statistical Feature Extraction
Method
50
Misto, Kamilah Alawiyah,
Novia Puji Lestari, Lutfi
Rohman, Supriyadi,
Mutmainnah and Endhah
Purwandari
Spectrophotometric Analysis of Caffeine in Local
Product of Arabica: Observed at Different Roasted
Temperatures
53 Radho Al Kausar, Buhani,
Suharso and Andi Setiawan
Synthesis and Characterization Exopolysaccharide from
Spirulina sp. Algae using Sol-Gel Technique as
Absorbent Pb(II) Ion Metal
59
Hayuning Anggrahita,
Guswandi, Ravidania Auni and
Fedo Syahputra Lubis
The Potential of Urban Agriculture for Greening Grey
Infrastructure: The Case of Simple, Low Cost Apartment
Buildings in Jakarta
72
Dewi Ulul Azmi
Water absorption, density, strength strength, and
elasticity module of green composite material based on
waste paper waste and matrix of garut
umbi states (Maranta Arundinaceae L.): effect of forming
temperature waste
74
Dwi Gustiono, Nendar
Herdianto and Mochammad
Dachyar Effendi
Development of Local Bioceramic Scaffolds for Bone
Tissue Applications
100
Novi Kartika Sari, Raden Putra,
Tastaptyani Kurnia Nufutomo,
Yuni Lisafitri and Alfian Zurfi
Identifying Association between Fire Hotspot
Distribution and PM10 during 2019 wildlife period in
The South Sumatera, Indonesia
Automated Class Attendance Management System using Face
Recognition: An Application of Viola-Jones Method
N J Harjono, A S Putra, A E Widjaja*, K Prasetya, and A R Mitra
Department of Information System, Universitas Pelita Harapan, Tangerang
*E-mail: [email protected]
Abstract. Over the past few years, face recognition has been widely used to help human activities
in various sectors, including the education sector. By using facial recognition, the class
attendance system at universities can be significantly improved. For example, students are no
longer asked to sign attendance sheets manually, but attendance can be taken, recorded, and
managed automatically through an integrated class attendance management system using facial
recognition. The recorded data can then be further analysed to produce useful information for
instructors and administrators. In turn, this arrangement will assist them in making decisions
about matters relating to student attendance. The main objective of this research is to develop an
automatic class attendance management system using facial recognition. In particular, the system
we propose is developed using a prototyping software development approach and is modelled
using UML version 2.0 (use cases, classes and activity diagrams). As a choice of methods and
tools, we use the Viola-Jones method as a face detection algorithm, Python and PHP as
programming languages, OpenCV as the computer vision library, and MySQL as the DBMS.
The results obtained from a number of blackbox tests carried out were a fully functional
automatic class attendance system prototype using facial recognition.
Keywords: Face recognition, class attendance management system, Viola-Jones method,
Python, Open CV
Finite-State Machine for Post-Processing Method of Balinese
Script to Latin Transliteration
G Indrawan1,*, K U Ariawan1, K Agustini1, and I K Paramarta2
1 Department of Electrical Engineering and Computer Science, Universitas Pendidikan
Ganesha, Main Campus Jalan Udayana No. 11 Singaraja 81116, Bali, Indonesia
2 Department of Balinese Language Education, Universitas Pendidikan Ganesha,
Lower Campus Jalan Ahmad Yani No. 67 Singaraja 81116, Bali, Indonesia
*Email: [email protected]
Abstract. The decreasing use of Balinese Script, including its Balinese Script to Latin
transliteration knowledge, has caused concern over the threat of the extinction. This research
joined the preservation effort through collaboration between Engineering and Language
discipline. This research focused on the development of modular post-processing method of that
transliteration by using Finite-State-Machine (FSM). This method can be used on mobile
application for ubiquitous learning and handles the transliteration process from Unicode Balinese
Script text to Latin text. It receives the output from preceding conversion process from Balinese
Script image to Unicode Balinese Script text. This method was combined with dictionary data
structure for the advantage on time complexity O(1) and avoiding hard-coded transliteration rule.
This research contributed onthat development since there has been no such development in this
research area. The FSM was represented by a state-transition table showing six possible states,
transitions between them (based upon twenty inputs), and the outputs. The dictionary consists of
9620 key-value pairs that comply with the transliteration rule. Through the experiment, this
method has passed over 99% (251 of 253) testing cases based on intermediate and output results
of selected image data set that consists of various possible kind of post-processing cases.
Keywords: Balinese Script, finite-state machine, Latin, post-processing, transliteration
Characteristics of medium-low rank coal blending on
performance and efficiency steam power plant
Hendri1, R Nurhasanah1 and A F Lubis1
1 Program Study of Mechanical Engineering of Faculty Technology and Energy
Business, PLN Institute of Technology
* Email: [email protected]
Abstract. Blending medium rank coal (MRC) with low rank coal (LRC) is carried out to meet
the caloric content with follows the boiler specifications. Negative effects of blending with LRC
are environmental, Specific fuel consumption (SFC) and efficiency issues. This research
simulates coal blending with MRC percentage in the MRC-LRC from 0, 20%, 40%, 50%, 60%,
80% and 100%. The type coal used are categorized in MRC1, MRC2, LRC1, LRC2, LRC3.
Combination used is MRC1-LRC1, MRC1-LRC2 and MRC2-LRC3. From the analysis obtained,
if the MRC percentage in MRC-LRC blending increase, losses will decrease mass flow will
decrease, SFC will decrease, and boiler efficiency will increase. Blending MRC2-LRC3 has the
lowest losses, low mass flow with average of 298,78 ton/h, low SFC with average of 0,466
kg/kWh, and boiler efficiency between 84.85% to 85,71 %. Blending MRC2-LRC3 is most
recommended for use in combustion plant with minimum MRC2 percentage of 50%.
Keywords: coal blending, Medium rank coal, low rank coal, boiler efficiency
Optimization of Microgrid Battery Capacity using PSO with
Considering Islanding Operation
A Sintianingrum1*, Khairudin1, L Hakim1
1 Department of Electrical Engineering, Universitas Lampung, Jalan Prof. Soemantri
Brojonegoro No.1, Bandar Lampung 35145, Indonesia
* Email: [email protected]
Abstract. Electrical is used for various activities in all sectors. Rapid increase of electricity
demand recently, makes it necessary to have an even more efficient method for generating
electricity. Renewable energy and the microgrid provides an integrated and alternative solution
for electricity generation. In Microgrid sytems, energy storage devices are one of important
aspect. Batteries are one kind of the energy storage technologies widely used in power system
and hence, their suitable capacity must be determined in order to develop an effective system
installation. In this research, sizing optimization of battery capacity is modeled as a minimization
of microgrid battery capacity using the Particle Swarm Optimization / PSO algorithm with
considering islanding operation of the system for effective battery installation. Results show that
optimal battery capacity can be obtained and the developed computational model gives
satisfactory results for the system under study.
Keywords: Battery, microgrid, energy storage system, PSO algorithm
Descriptive study of community development program in
coastal village business enterprises (BUM Desa) Teluk Pandan
and Padang Cermin sub-district, Pesawaran district
C Syari1,*, Hartoyo2, and I G Febryano3
1 Management of Coastal and Marine Areas – Graduate Program, Universitas
Lampung, Jl. Prof. Dr. Sumantri Brojonegoro No.1, Bandar Lampung 35145,
Indonesia
2 Department of Sociology, Universitas Lampung, Jl. Prof. Soemantri Brojonegoro
No.1, Bandar Lampung 35145, Indonesia
2 Department of Forestry, Universitas Lampung, Jl. Prof. Soemantri Brojonegoro
No.1, Bandar Lampung 35145, Indonesia
*Email: [email protected]
Abstract. Coastal communities in rural areas are still in a marginal position. One effort to make
them become independent is the establishment of a strong institution in the village, one of them
is through BUM Desa by using mangroves as one of the village's assets. BUM Desa has a basis
for full participatory and emancipatory formation of village communities. This research aims to
describe the development efforts carried out to the community, analyze what supports and
inhibits community involvement in community development activities, and formulates a model
of community development that is appropriate to the socio-cultural culture of the local
community. This research was conducted in Gebang Village and Durian Village, Pesawaran
Regency with a focus on BUM Mangrove tourism village. This study uses qualitative methods
obtained through documentation studies and indepth interview. Community development efforts
in both villages involved many stakeholders. Factors supporting community development
include the spirit of building on the community. The inhibiting factors are the communication
that exists between the village government and the community is still not optimal and the
development pattern that is still top down does not involve the community fully from each
development process. The effective development model used in Gebang Village is participatory
and Durian Village is combination of bottom up model and community-based.
Keywords: BUM Desa, community development, development model
The design of microcontroller based early warning fire
detection system for home monitoring
Hery*, C A Haryani, A R Mitra, and A E Widjaja
Department of Information System, Universitas Pelita Harapan, Tangerang
*E-mail: [email protected]
Abstract. Fire is a type of disaster that can occur anytime and anywhere as a result of any
accidental or intentional causes. Without exception, houses are also very vulnerable to fire. To
anticipate the catastrophic effects of fire that can destroy houses, advanced technology, such as
the Internet of Things (IoT) can be utilized to detect the smoke and fire. This study aims to design
an early warning fire detection system for home monitoring using smoke detection sensors based
on Arduino microcontroller together with NodeMCU ESP8266. This early warning fire detection
system is expected to function by notifying homeowners when detecting the presence of smoke
in their homes. With the aid of this detection system, the issue of potential damage, death, or
material loss caused by fire can be significantly reduced. The results and testing of the designed
system will be discussed in the paper.
Keywords: Early warning fire detection system, home monitoring, Arduino, NodeMCU
ESP8266
Comparison of the Winglet Aerodynamic Performance in
Unmanned Aerial Vehicle at Low Reynolds Number
S Hariyadi S.P.1*, B J Pitoyo1, N Pambudiyatno1, Sutardi2, and W A Widodo2
1 Department of Aircraft Engineering, Politeknik Penerbangan Surabaya, Jemur
Andayani I/73 Wonocolo, Surabaya, 60236, Indonesia
2 Department of Mechanical Engineering Faculty of Industrial Technology, Institut
Teknologi Sepuluh Nopember Surabaya, Jalan Arief Rahman Hakim, Surabaya
60111 Indonesia
* Email: [email protected]
Abstract. The Aerodynamic performance of an object is very dependent on the flow of fluid
through it and the geometric shape of the object. The use of Unmanned Aerial Vehicle (UAV)
demands high aerodynamic performance because it strongly supports the cruising range and fuel
/ battery used. By reducing drag and increasing the lift optimally, the resulting lift to drag ratio
will get maximum results. This study compares the use of winglets in UAVs at low Reynolds
numbers. This is very important because generally UAVs are used at low Reynolds numbers.
The freestream used is Re = 2.34 x 104 on several low to high angle of attack. The type of airfoil
used is Eppler 562 which is equipped with a winglet. Winglets used are simple winglets, blended
winglets, and wingtip fence. The geometry was analyzed using numerical simulations namely
computational fluid dynamic (CFD). The turbulent model used in this study is K-ω SST on Ansys
19.1. From this study it was found that the use of a wingtip fence produced the best aerodynamic
performance compared to other configurations. In addition, the use of a wingtip fence can delay
stall and separation better than simple and blended winglets.
Keywords: lift to drag ratio, unmanned aerial vehicle, blended winglet, simple winglet, wingtip
fence
Morphological Identification of Bedrock Using Microtremor
Data
C Damayanti 1
1 Center for Deep Sea Research, Indonesian Institute of Sciences. Ambon, Indonesia
Abstract. Has been conducted to identify the morphology of bedrock in the city of Solok. This
research method uses analysis of microtremor data processed by the HVSR andmethods Spacial
Autocorrelation (SPAC). The bedrock morphology in the study area can be determined by
subtracting the surface height at the measurement point with the thickness of the sediment layer.
The value obtained is then interpolated to get a bedrock morphological picture. From the 3D map
of bedrock morphology the research area shows that the western research area precisely in Tanah
Garam village has the highest bedrock morphology, as well as several villages in Tanjung
Harapan sub-districts such as Laing, Nan Balimo and Kampung Jawa. Meanwhile, the central
area of Kota Solok is the area with the lowest bedrock morphology. The city of Solok is in a
basin that is bounded by two boundary planes that extend from the southeast to northwest of the
city of Solok. The two boundary planes are estimated as a fault line between an ascending block
and a descending block.
Keywords: Microtremor, bedrock, HVSR
Structure from Motion (SfM) to Characterize Fluvial
Sedimentology: Case Study Way Semaka River
R C Wibowo1,*, B S Mulyatno1, O Dewanto1 and M Sarkowi1
1 Department of Geophysical Engineering, Universitas Lampung, Jalan Prof.
Soemantri Brojonegoro No.1, Bandar Lampung 35145, Indonesia
*Email: [email protected]
Abstract. Structure from motion (SfM) has seen rapid uptake recently in the fluvial
sedimentology. This uptake is not least due to the widespread availability of cheap unmanned
aerial vehicles/drones, which help mitigate the challenging terrain and deliver efficient and
reproducible and high-accuracy images and topographical data. The current study describes the
application of SfM in order to build a geomorphological model and estimates surface water
velocity of Way Semaka River in BNS region, West Lampung. Way Semaka river is river type
with a large meandering system and stable extension tectonic regime, relatively. River
morphology approximately 96.62 m width and 4 m depth in straight (relatively) area, whereas in
channel area approximately 171.22 m width and 5 m depth. The velocity range between 0.39 –
1.56 m/s based on image analysis and proven by current meter measurements onsite with an RMS
error 0.25. Manual geomorphic unit level 2 analysis revealed that for the zone within the channel,
9% of the coverage consisted of basins, 35% of the coverage consisted of convexity, 9%
consisted of planar features and 37% of the coverage consisted of the transition zone.
Keywords: SfM, sedimentology, fluvial, Way Semaka, BNS
Design of an Efficient Car by Biomimicry of a Pomfret Fish
Body
Sirojuddin1* , M H Fajar1 , A A Jumhur1 and A Kholil1
1 Department of Mechanical Engineering, State University of Jakarta, Jalan
Rawamangun Muka, Jakarta 13220, Indonesia
*Email: [email protected]
Abstract. Pomfret fish naturally has a good aerodynamic body shape for traveling in the water
using less energy. Because of the streamline features of the pomfret fish, it generates less drag to its
movement. So, there are many variations of car designs by implementing the aerodynamic styles on the car
body to improving the efficiency of energy. This research aims to find out the model of a car body
that correlated to a pomfret fish by computational fluid dynamics (CFD) flow simulation
methods. The car body shape geometry will be made in 3D software, while flow simulation using
CFD. Based on CFD simulation results, it was found that the drag coefficient of the car body
with two passengers was 0.2 and with 4 passengers 0.26. From this result, the body of this car
can be adjusted to produce low drag and an efficient car.
Keywords: Biomimicry, CFD, drag coefficient, efficient car, pomfret fish
Effects of Roof Box on the Cars Against the Fuel
Consumption
Sirojuddin1*, Y F N Syamsy1, M H Fajar1 and M A Ihsan1
1 Department of Mechanical Engineering, State University of Jakarta, Jalan
Rawamangun Muka, Jakarta 13220, Indonesia
*Email: [email protected]
Abstract. Roof box is usually used on the top of cars for long journey or go to down town so
that baggages are not placed inside the car. The effect of roof box will increase the value of drag
coefficient and drag force so that the fuel consumption also will increase. The aims of this
research was to give estimated value of the fuel consumption used by cars when without a roof
box and with a roof box condition. The 2D geometry of cars were drawn based on factory
specification, while 3D geometry processed by SolidWorks. Drag coefficient value analyzed by
SolidWork flow simulation software. It was found that the fuel consumption will increase
proportional with drag coefficient and drag force due to a roof box usage.
Keywords: Drag coefficient, drag force, flow simulation, fuel consumption, roof box
Low volume extraction of pyrethroid analysis in fresh tea
leaves: method validation
M M Pitoi*
Research unit for clean technology, Indonesian Institute of Sciences, Jalan Cisitu
21/154 D, Bandung 40135, Indonesia
*Email: [email protected]; [email protected]
Abstract. Fresh leaves of Camelia sinensis, the centre of tea industry, are vulnerable to insects
and pesticides are normally applied in tea plantations to combat this issue. Since pyrethroids are
effective against wide range of insects, they are commonly used in tea plantation. Previously,
pyrethroids were known as “safe” pesticides and were used to replace the relatively toxic
organochlorins. However, recent studies have shown evidence of their toxicity. Despite many
reports on pyrethroids analysis in dried tea or infusion tea, both for black or green tea, report on
fresh leaves is limited. Moreover, analysis of pyrethroid in fresh leaves is mainly utilized big
number of samples and or chemicals. In addition, since fresh leaves are the source of dried tea,
pyrethroids contamination of fresh leaves may lead to dried tea contamination and consequently
may become a channel to human exposure through tea consumption. Therefore, it is important to
monitor the pyrethroids residue in fresh leaves of tea. This study aimed to build a simple method
for pyrethroid analysis in fresh leaves of tea. A simple sample preparation method based on green
analytical chemistry was proposed for simultaneous determination of five pyrethroids (lambda-
cyhalothrin, permethrin, cypermethrin, fen valerate, and deltamethrin) in fresh leaves matrix. The
method implemented low volume solid-liquid extraction using acetonitrile followed by d-SPE
clean-up before GC-ECD quantification. A spike-experiment, where known quantity of
pyrethroids were spiked to fresh tealeaves before the extractions, was conducted for the method
validation. A parallel no spike- experiment was also conducted as a comparison to the spike-
experiment. Each set of experiment was conducted in triplicates. The result showed that the
proposed method was valid for pyrethroid determination in fresh tealeaves in terms of linearity,
recovery, precision, and limit of quantification (LoQ). The linearity of the method was good,
showed by correlation coefficients > 0.999 at up to 0.5 mg/L. The recovery values are acceptable
to European Commissions guideline (70-120%). The precision values, calculated as % RSD
(relative standard deviation), were all below 20%, as suggested by European Commissions for
pesticide residue analysis. The LoQs were calculated based on signal to noise ratio and were all
below the minimum residue limits. Since the method was valid, it can be used to monitor the
pyrethroids in fresh leaves of tea.
Keywords: pyrethroids, fresh tea leaf, low volume solid-liquid extraction, green analytical
chemistry
Integrated Management Systems : The Integration of ISO/IEC
17020, ISO/IEC 17021, ISO/IEC 17025 and ISO/IEC 17065
Based on PAS 99 Specification
R Normalia1, D Amalia2*
1,2 Metal Industry Development Center, Ministry of Industry, Jalan Sangkuriang No.12
Bandung 40135, Indonesia
*Email: [email protected]
I
Abstract. The more management systems implemented, the more benefits the
organization will have. So that it will make more work to manage more than one system
at a time. The integrated management system allows us to streamline the way or method
of organization operates, aligning all the usual standard requirements and cutting audit
and administrative costs compared to when it runs independently. Therefore
implementation can have a major impact on how to manage organizations with many
standards. In accordance with its objectives, this research resulted in the formulation of
integration steps, and a management system design model that applies ISO/IEC 17020,
ISO / IEC 17021, ISO / IEC 17025 and ISO / IEC 17065 with reference to the PAS 99
standard. Implementation The design is implemented in Government Agencies that apply
many standards. Case studies are carried out by designing Integrated Quality Guidelines
and integrating internal audit, external audit and management review activities. The
results of this study are expected to be applied by companies and various industries that
adopt many standards simultaneously, so that implementation is more effective and
efficient.
Keywords: management systems, integrated, standards, effective
The evaluation of the main pipes and capacity for
the waste water at PT Plantation Mitra Ogan
F Desromi1,*, Y E Putri1, Y Ermawati1, and J Kuswanto1
1 Faculty of Engineering and Computers, University of Baturaja Jl. Ki Ratu Penghulu
No. 02301, OKU, Sumatera Selatan, Indonesia
* Email: [email protected]
Abstract. In a sewerage treatment system a piping network is needed in order to channel wastewater
into the sewerage reservoir. With the location and condition of the research site, the placement of the
pipe and the diameter of the pipe must be adjusted so that it has an adequate flow rate and speed of
waste water. The purpose of this study is to determine the flow and discharge velocity in the main
pipe and determine the amount of capacity or volume of waste water reservoirs (IPLC) at PT
Plantation Mitra Ogan. The data collection method in this study uses a quantitative descriptive
analysis method by analyzing data obtained from various data collection or related agencies. The
results of the study were that the capacity of the IPLC sewerage at PT Plantation Mitra Ogan was
77,100 m3 with a drinking capacity of 675 m3 and a maximum of 18,000 m. Main Pipe Flow Speed
with a minimum value of 5.42605 m / sec and a maximum speed of 8.94643 m / sec. As well as the
discharge generated by the IPLC main pipe at PT Plantation Mitra Ogan with a drinking value of
0.01725 m3 / sec and a maximum value of 0.06996 m3 / sec.
Keywords: wastewater, WWTP, piping network, discharge, speed
Healthcare Monitoring using Android Application and Internet of
Things (IoT)
H Fitriawan1,*
, M A Septa1
, S Alam1
, S Purwiyanti1
1 Department of Electrical Engineering, Universitas Lampung, Jalan Prof. Soemantri
Brojonegoro No.1, Bandar Lampung 35145, Indonesia
* Email: [email protected]
Abstract. Health information systems are important application areas where Internet of Things
(IoT) can be used to provide more effective solutions. Currently, remote healthcare monitoring is
available via wireless communication based on IoT technology. This paper presents prototyping of
a wireless embedded healthcare monitoring based on IoT framework. By attaching some sensors to
the jacket worn by the patient, the physical condition of the patient can be monitored. The proposed
prototype system includes global positioning system (GPS) receiver, gyroscope, pulse, galvanic
skin response (GSR), and temperature sensors. In addition to detecting the fall condition and
location, the system is able to monitor the temperature, heart rate, and emotion of the patient. The
data measurement is processed by the Arduino Uno and send them to the android application using
global system for mobile communication (GSM) module. In order to guarantee all sensors perform
properly, sensor calibration is carried out by measuring the accuracy of the gyroscope, pulse, GSR,
and temperature sensors. The evaluation results show the prototype system works well in term of its
functionality.
Keyword : Internet of things, Arduino uno, sensor, healthcare monitoring
Analysis Forensics Instant Messaging Application
“WhatsApp” On iOS Smartphone
A Wirara1,*, and M Salman1,*
1 Department of Electrical Engineering, University of Indonesia, Indonesia
* Email: [email protected], [email protected]
Abstract. Based on APJII data released in 2018, it is known that most active internet users are
used to carry out message communication. The WhatsApp application is currently the primary
medium for exchanging messages and information in Indonesia. This is possible WhatsApp
application will be electronic evidence of a crimes. Data of WhatsApp conversation is very much
an obstacle for a forensic analyst in conducting analysis. In this research about analysis forensic
for WhatsApp application using flow process on NIST 800-101 which is a guide in handling
mobile forensics. The target of this research is smartphone device based on iOS so that resulted
can help an analyst forensics for analysist WhatsApp artifact form iOS platforms.
Keywords: Digital Forensics, WhatsApp, iOS
Optimization, Modelling, and Simulation to Scale-up the
Production of Rice Bran Extract and Defatted Rice Bran
G Fitriyano1,*, N H Fithriyah2, R A Nugrahani2, Syamsudin AB1, and M
Kosasih2
1Department of Chemical Engineering, Faculty of Engineering, Universitas
Muhammadiyah Jakarta, Indonesia
2Master in Chemical Engineering Programs, Faculty of Engineering, Universitas
Muhammadiyah Jakarta, Indonesia
*Email: [email protected]
Abstract. Rice bran is the source of rice bran oil, but much of it is used as livestock feed without
being extracted for oil. Some food industries utilize the stabilized rice bran as a source of fiber,
protein, and cooking oil. It contains lipase that catalyzes triglyceride hydrolyzation into glycerol
and fatty acids, which leads to rancidity. A stabilization process must therefore be introduced to
increase oxidation resistance in rice bran and oil hydrolysis. Defatted rice bran still contains
protein, fiber, vitamins, and minerals. There has not been much research on integrated production
process of crude rice bran oil and defatted rice bran. This research aimed to study integrated
procedures to optimize, model, and simulate, generate Process Engineering Flow Diagram
(PEFD). The phases in this study included laboratory-scale extraction with rice bran feed
capacities of 10g, 25g, 100g, dan 500g; optimization using mathematical computations,
simulations of mass-balance scale up and generation of PEFD from the pilot plant of 5kg rice
bran capacity. The results showed that to increase production scale from an amount of raw
materials of 57.69g to 5kg in a single batch required 5kg rice bran and 23.121kg n-hexane and
produced 0.671kg oil and 4.121kg defatted rice bran, 13.212kg of reusable n- hexane.
Keywords: Flow Diagram, Optimization, Modelling, Rice bran, Simulation
Development Methodology Smart Environment Assessment
Indicators: A Systematic Literature Review
A S Arief1,a, T D Susanto1,b, and I Warmadewanthi2,c
1 Department of Information System, Sepuluh Nopember Institute of Technology,
Surabaya, Indonesia
2 Department of Environmental Engineering, Sepuluh Nopember Institute of
Technology, Surabaya, Indonesia
Abstract. The trend of urbanization causes various impacts faced by a city, especially problems
that affect the environment such as increased emissions and air pollution, energy consumption,
waste, and other environmental damage. Urban areas contribute 70% of global CO2 emissions
today, therefore smart initiatives are needed to reduce the impact on the environment. The
concept of smart environment in smart cities is a step to reduce and solve environmental problems
in a city in an intelligent way. Smart city trends in Indonesia continue to increase, the Ministry
of Communication and Information (Ministry of Communication and Information) issued a smart
city model that is used on a national scale. This paper aims to answer how the Indonesian scale
model of smart environmental assessment indicators refers to the smart city model of the Ministry
of Communication and Information by conducting a systematic literature review. This research
provides information on the latest scientific research that focuses on indicators of intelligent
environmental assessment and provides valuable insights for future research.
Keywords: Smart City, Smart Environment, Assessment, Indicator.
The vulnerability assessment for physical protection system of
a nuclear facility using multi-path adversary analysis code
D Andiwijayakusuma1,3,* , A Mardhi1, T Setiadipura1, A Purqon2
and Z Su’ud3
1 Center for Nuclear Reactor Technology and Safety, Badan Tenaga Nuklir Nasional,
Gedung 80 Kawasan PUSPIPTEK Serpong, South Tangerang, Banten 15310,
Indonesia
2 Earth Physics and Complex System Research Division, Department of Physics,
Institut Teknologi Bandung Gedung Fisika, Jalan Ganesha 10, Bandung 40132,
Indonesia
2 Nuclear Physics and Bio Physics Research Division, Department of Physics, Institut
Teknologi Bandung Gedung Fisika, Jalan Ganesha 10, Bandung 40132, Indonesia
*Email: [email protected] , [email protected]
Abstract. The Physical Protection System (PPS) plays an important role for each nuclear facility
to ensure the security of its nuclear material and facility from theft, sabotage, and other illegal
actions. The design of the PPS should limit the ability and strategy of the adversary to breach
nuclear facilities, therefore PPS vulnerability assessment is needed. The proposed vulnerable
assessment tool was implemented to a python computer code: Multi-path Analysis of
Vulnerability Assessment for PPS (MAVA). This code can perform the calculation of the
probability of interruption values simultaneously and multi-path analysis through an adversary
sequence diagram (ASD). We examined for feasibility by applying MAVA to a hypothetical
facility (National Nuclear Research Facility - NNRF) and predicts the vulnerable paths on various
adversary's strategies. The assessment results provide the vulnerability pathway information to
the analysts to improve the effectiveness of PPS.
Keywords: physical protection system, path analysis, nuclear security
The application of Tukey’s mean difference and
dendrogram statistics to identify local genetic sources of
corn in selecting for prospective parental lines
S Hikam, P B Timotiwu, D Sudrajat, S Alvianti
Abstract. Corn hybrid seeds of imported commercial became rather expensive for local farmers
due to exotic parental lines used in developing them. Extensive used of modern corn hybrids since
1980 left numerous obsolete hybrid varieties scattered all over Indonesia. They were once superior
hybrids which became obsolete by the introduction of the new ones. Over time the obsolete hybrids
expressed superior traits toward detrimental hindrances in situ better than the new hybrids such us
resistance to pest and disease and drought, required significantly less fertilizers while yielded at par
with the new hybrids. The traits were identified, the obsolete hybrids were worthy to select for
being local genetic sources (LGS) in a corn breeding program. The research was done to identify
the LGS collected from Padang, Palembang, Jogjakarta, West Kalimantan and Lampung. In 2018
the LGS were planted in two rows and let open-pollinated among themselves and the seeds were
harvested separately to make superior-female lines. A synthetic line was made as a mixture of 100
seeds of each female line. In 2019 the six lines: five female and one synthetic lines, and Pioneer36
(P36) F1-hybrid as control were planted in a randomized complete block design with 3 replicates.
The data were collected for traits: plant height, leaf number plant-1, time to tasseling, time to silking,
ear length, ear diameter, 100 seed weight and seed yield m-2. The data were variance- analysed and
Tukey’s mean difference was applied to separate the means so the lines could be grouped. A
dendrogram was constructed based on the distances among lines suitable to recombine. The result
indicated that the Padang, Palembang, Lampung and Synthetic lines could be used as the male
parents to recombine with the Jogjakarta and West Kalimantan lines.
Keywords: corn breeding, corn superior-female line, corn synthetic line, dendrogram, local
genetic source, Tukey’s mean difference
The Effect of Swept Angle on the Flow Structures and
Aerodynamic Performances of Airfoil NACA 0012
Sutardi1* and R Ridha1
1 Department of Mechanical Engineering Faculty of Industrial Technology and
System Engineering, Institut Teknologi Sepuluh Nopember Surabaya, Jalan Arief
Rahman Hakim, Surabaya 60111 Indonesia
*Email: [email protected]
Abstract. Airfoil plays a significant role in aircraft aerodynamics. This airfoil provides the aircraft lift capability to overcome the aircraft weight and its total load. Many parameters affect the airfoil performances such as its sectional profile, swept angle, its arrangement, either low-
or high-arrangement, and angle of attack (). Other parameter such as the availability of winglet
also has significant effect on the airfoil performances. In this study, however, we are focusing on the evaluation of the effects of swept angle on the airfoil aerodynamic performances. The study was performed numerically using a commercial software Ansys Fluent along with Gambit. The specimen being studied is a symmetrical airfoil NACA 0012 serie. The airfoil chord length
and its aspect ratio is 100 mm and 5.0, respectively. Two values of angle of attack () are used in
this study, that are 8° and 15°, while the swept angles () have three variations of 0° (no swept), 15°, and 30°. The simulation is run in the steady mode and the Reynolds number (Re) is set to be
100,000, based on the airfoil chord length and the airflow freestream velocity. The k- SST
turbulent model was employed in this simulation study. Main parameters to be studied include flow structures around the airfoil and the airfoil aerodynamic performances, such as lift, drag, and
lift to drag ratio. The results of the study show that the swept angle () has significant influence on the vortex structures, both tip vortex and vortex at the wall-body junction. The streamline structures at the upper surface of the airfoil are also affected by the airfoil swept angle. The lift
to drag ratio (CL/CD) at = 8° is best suited with the 15° swept angle, while at = 15°, the
airfoil is best suited with the 30° swept angle.
Keywords: Swept Angle, Airfoil NACA 0012, Wall-Body Junction, Tip Vortex
Performance, Genetic Variability, Heritability, and Genetic
Advance of Maize Hybrids Resistance to Northern Corn Leaf Blight
and Yield Components in Karo Highland
Akhdi Permana1, Diana S. Hanafiah2, Hasanuddin3
Email: [email protected], [email protected], [email protected]
Abstract. Around two-thirds of corn area in North Sumatera are in high altitude places, where
northern corn leaf blight limits yield. Evaluation was performed to 125 new hybrids for their
resistance to northern corn leaf blight and yield components in Garingging, District of Karo, North
Sumatera, from October 2019 to March 2020. Experiments were arranged in Augmented RCBD
with 4 checks, Artificial inoculation was applied to ensure high and uniform disease pressure. Eight
new hybrids exceeded at least 3 checks regarding to disease resistance and ear weight, namely
N399, G163, N396, N374, D651, N020, D635, and N031. Hybrid N399 has ear weight above 4
checks and G163 has better AUDPC than the 4 checks, suggesting promising hybrids for
developing varieties in areas with NCLB pressure. Significant association with AUDPC was seen in
incubation period, ear diameter, ear length, and ear weight, suggesting improvement in NCLB
resistance leading to better yield. High to medium genotypic variability, heritability and genetic
advance was observed in incubation period, AUDPC, and ear weight, indicating the possibility of
further development by selection of the traits.
Keyword : AUDPC, genetic variance, genetic advance, heritability, NCLB
Performance of OGFC using West Kalimantan Aggregates and
Polymer Modified Bitumen
Siti Mayuni1, Sri Prabandiyani2, Bagus Hario Setiadji3
Email: [email protected], [email protected],
Abstract. Open Graded Friction Course (OGFC) as a permeable pavement has been applied in
various developed and developing countries. As a safer road due to its decent roughness, OGFC
also functions as a drainage layer that could control hydroplaning conditions. In Indonesia, one type
of OGFC researched to date is porous asphalt. This mix has advantage in terms of its drainage
function, but it lacks of the ability to withstand against traffic load. The purpose of this study was to
evaluate the effect of binder content on the performance of porous asphalt mix in order to develop
porous asphalt pavements that meet structural and functional performance. Local aggregates from
the West Kalimantan region and PG-76 polymer modified bitumen were used with several binder
contents from 4% to 6%. Marshall test was performed to obtain the value of structural performance,
and permeability test with Falling Head Permeameter was performed to evaluate the functional
performance. The results of the study were the trend showing the effect of increasing binder content
to the stability and permeability values.
Keyword : porous asphalt, binder content, stability, permeability
Supply Chain Sustainability Risk Management Tools- A
Classification Scheme
A Sutrisno1*, V Kumar2, S Virdhian3, D Handayani4 and C Punuhsingon5
1 Department of Mechanical Engineering, Faculty of Engineering, Sam Ratulangi
University, Kampus Bahu, Manado 95115, Indonesia
2 Faculty of Business and Law, The University of The West of England, Frenchay
Campus, Bristol BS 161QY, United Kingdom.
3 Balai Besar Logam dan Mesin, Departemen Perindustrian, Republik Indonesia, Jl.
Sangkuriang No.12, Bandung 40135, Indonesia
4 Department of Industrial Engineering, Faculty of Engineering, Universitas Islam
Indonesia, Sleman 55584, Yogjakarta , Indonesia
5 Department of Mechanical Engineering, Faculty of Engineering, Sam Ratulangi
University, Kampus Bahu, Manado 95115, Indonesia
*Email: [email protected]
Abstract. In order to properly managing sustainability risk within supply chain context, the
existence of classification scheme of engineering tools dealing with sustainability risk
management is undeniably important. However, references which focused on effort to classify
engineering tools to improve manageability of sustainability risks in supply chain context is
rarely available in literature. Driven by this research gap, in this paper a classification scheme of
engineering tools to manage sustainability risk is presented. A conceptual model for mapping
typical of supply chain sustainability risks with their engineering tools is proposed. New research
directions from this initial study are presented
Keywords: Supply Chain, Sustainability, Risk, Engineering Tools, FMEA.
Study of Optimization and Kinetic Modelling of Biodiesel
Production from Nyamplung Oil with Microwave Assisted
Extraction (MAE) Method Using Response Surface
Methodology (RSM)
H W Aparamarta1, S Gunawan2, A F Mochtar3, and M Y I Noer4
Email: [email protected], [email protected],
[email protected], [email protected]
Abstract. Nyamplung oil (Calophyllum Inophyllum) has great potential as a raw material in the
process of making biodiesel with high oil content and one of the promising sources of non- edible oil
so it does not affect food security. Previous studies have compared biodiesel production using the
Batchwise Solvent Extraction method with the Microwave Assisted Extraction method. This research
was conducted to find the optimal conditions of making biodiesel from nyamplung oil using RSM
(Response Surface Methodology) and also determine the kinetics model of esterification reaction in
the purification of free fatty acids (FFA) in the Microwave Assisted Extraction method. The method
used for optimal operating conditions is to use RSM (Response Surface Methodology) with Central
Composite Design (CCD) while for kinetic modeling is done using a single-order reaction model.
Optimization results obtained using the RSM method (Response Surface Methodology) with TAG
Purify results of 90.45% and FFA Purify of 6.6% with operational conditions respectively on power
423 and 427 W as well as extraction time 41 and 38 minutes. It has obtained far faster times than
conventional methods that take up to 6 hours. The value of reaction rate constants significantly rises
on the power of 150, 300, and 450 w with the following results: 0.0057 mol-1, 0.0059 mol-1, and
0.0061 mol-1. But down at power 600 w to 0.0032 mol-1. From the reaction kinetics model, it was
found that the activation energy value using the Microwave-Assisted Extraction method was 117.44
J / mol, the value was much smaller than the activation energy value using the conventional method
of 4831.26 J / mol. This shows that the making of biodiesel from nyamplung oil by the Microwave
Assisted Extraction method can replace the conventional method because it requires lower energy
and fast time so that the production process is more efficient.
Keyword : Biodiesel, Nyamplung Oil, Microwave-Assisted Extraction Method, Response
Surface Methodology
South Sumatra Peat Fires Analysis in 2019 using Spatial
Approach
R Putra1,*, T K Nufutomo1, Y Lisafitri1, N K Sari1, and A Zurfi1
1 Environmental Engineering Study Program, Institut Teknologi Sumatera, Lampung
Selatan, Indonesia
*Email: [email protected]
Abstract. South Sumatra's peatland is the largest on the Sumatra island after Riau province. In
the 2019 dry season, fires re-ignited in most of the South Sumatra peatlands which generated a
haze disaster in the South Sumatra region and beyond. This study aims to analyze the spatial
distribution of South Sumatra's peat fires in 2019 and relate them to the history of peat fires in
the region. In addition, the analysis of peat fires is also directed at the type of land cover in the
study area. In this research, the analysis of peat fires uses the hotspot data approach. Meanwhile,
the land cover class is analyzed using remote sensing data which is processed using geographic
information systems. The results showed that most (81%) of the 2019 peat fires in the study area
took place in areas that had burned in the 1995-2016 period. On the other hand, the most
extensive South Sumatra peat fires in 2019 developed on the type of unmanaged land cover
(shrubs and secondary forests). Based on these results, unmanaged and burnt peatlands have a
high risk of burning in the next dry season. Therefore, the works to prevent and manage peat
fires need to pay attention to the historical factors of fire in the region.
Keywords: Peat fires, hotspot, land cover, dry season
,
Identifying Association between Fire Hotspot Distribution and
PM10 during 2019 wildlife period in South Sumatera,
Indonesia
N K Sari1*, T K Nufutomo1, Y Lisafitri1 A Zurfi1 and R Putra1
1 Environmental Engineering Study Program, Institut Teknologi Sumatera, Lampung
Selatan 35365, Indonesia
*Email: [email protected]
Abstract. Exposure to air pollution from wildfires has high risk to human health and welfare.
Peat fires occurred frequently and emitted particulates in some areas in Indonesia, such as South
Sumatera Province. Fires were commonly found in several areas that affected to an increase of particulate concentration, notably during dry season (June-November). Objective this study aims
to elaborate association between fire hotspot and PM10 as well as its implication based on air
quality index during dry season in 2019. National air quality index of PM10 and remote sensing
data of wind direction and hotspot data were applied to determine their relationship. Spatial analysis was conducted in order to address hotspot distribution from South Sumatra peat fires by
geographic information system. Our study shows that PM10 index during the dry season found
the unhealthy status to human health. The correlation between fires, wind direction, and PM10
index were statistically significant to each other. The PM10 concentration due to peat fires was
considerably coming from southern fires since the wind direction influenced by monsoon season.
The result needs further research related to specific long-term health impact from peat fires in South Sumatra.
Keywords: Peat Fire, PM10 index, Hotspot, South Sumatra Province.
Time-dependent density functional theory with spin-orbit
coupling calculation for predicting photonic character of
ruthenium - carbon nitride complex
N Syarif, W Sudarsono, and M Nurdin
Abstract. This paper reports study of photonic character of the complex of ruthenium - carbon
nitride based on the calculations using time-dependent density functional theory with the scalar zero-
order regular approximation (ZORA) and the fully relativistic ZORA of spin−orbit coupling. The
triplet states were being calculated to portrayed phosphorescent event. The approximation virtually
produced orbital degeneracy, as found in zero-field splitting (ZFS). The procedure also involved the
generation of absorption and emission spectra. The results revealed that the deactivation of photonic
event in dd-state of the triplet was inadequate due to a transient structure for the non-radiative de-
excitation of the triplet metal-to-ligand charge transfer state. The absorption and emission has a very
good agreement with the available experimental data. The energy difference between SOC state 3
and 1 of zero-field splitting (ZFS), is about 145cm−1, in quite good agreement with the experimental
value of 85−170cm−1. The lifetime phosphorescence for the complex is about 3.1μs, also close to
the 2.2−2.8μs from measurements. The energy difference from the S1 - S1 to the ground state is
2300cm−1. The expected emission color would be blue and the T1 energy alone resulted green color,
but not yellow enough. Using the SOC state 1, the color at about 540nm matches the yellow-green
emission color.
Implementation of Reverse Engineering Method for Disc
Refiner Development
S Virdhian*1, D Cahyadi1, M Fathurrohman1, E Oktavia2, and A Rahman2
1Balai Besar Logam dan Mesin (Metal Industries Development Center), Ministry of
Industry, Jl. Sangkuriang 12, Dago, Bandung, Jawa Barat, 40135, Indonesia
2Center of Pulp and Paper, Ministry of Industry
Jl. Raya Dayeuhkolot No.132, Dayeuhkolot, Kec. Dayeuhkolot, Bandung, Jawa Barat
40258
*Email: [email protected]
Abstract. Refining is the process of treating the fiber mechanically so that the fibrillation effect
arises between fibers. This treatment will change the characteristics of the fiber, especially the
physical properties of the paper. The refining process can result in several things such as cutting,
splitting, and crushing (bruising). A disk refiner is an important part in the refining system that
consists of two vertical disks with contoured surfaces. One disk rotates clockwise, while the
other remains stationary or rotates counter-clockwise. The space between the disks can be
arranged, depend on the extent of refining appropriate to the end-use of the paper to be produced.
The disc refiner is still imported and there is a need to manufacture the product locally. The
reverse engineering method is proposed to develop the product. The purposes of this study are
to identify the the geometry of disc refiner using 3D scanning, remodelling the 3D geometry
using CAD software, and characterize the disc refiner material such as the chemical composition,
microstructure and hardness. These results will be used to design the manufacturing process of
the disc refiner.
Keywords: Disc Refiner, 3D Scanning, Refining, Reverse Engineering, 3D Modelling
Classification of Civet and Canephora Coffee using Support-Vector
Machines (SVM) Algorithm based on orde-1 Feature Extraction
R Z H Suyoto1, M Komarudin1,*, G F Nama1, and T Yulianti1
1 Informatics Engineering Study Program, Department of Electrical Engineering,
Faculty of Engineering, University of Lampung, Lampung, Jl. Prof. Sumantri
Brojonegoro No.1 Bandar Lampung 35145, Indonesia
Email: [email protected]
Abstract - Identification of types of coffee beans is a process carried out in determining the
types of civet and robusta coffee. The selection of civet coffee manually by the community in
determining the type of coffee beans. This makes the process slow and there is no certainty
whether the selected coffee stated original civet coffee or a mixture with Robusta coffee, for
that it needs to be built a system in identifying the types of coffee beans. In this study the
classification technology used for the selection process of Civet and Robusta coffee beans. This
research uses first-order feature extraction with SVM algorithm which aims to recognize
patterns of civet and robusta coffee beans using texture analysis on grayscale images and
feature extraction. In the study, the authors used the Rapid Application Development research
methodology to build the system. The results of feature extraction will be an SVM illogical
input for classifying the types of civet and robusta coffee beans. The data used in this study
were 120 images, consisting of 110 training data images and 10 test data. The results of the
accuracy of this method reached an accuracy rate of 87.27% success in identifying the types
of coffee beans.
Keywords: civet coffee, robusta coffee, classification, SVM
The Dynamics of the Repong Damar Vegetation in Krui
Pesisir Barat
S P Harianto1, B S Dewi1, and A Bintoro1, *
1Department of Forestry, Faculty of Agriculture, University of Lampung, Jl. Prof.
Sumantri Brojonegoro No. 1 Bandar Lampung 35145, Indonesia
* Email: [email protected]
Abstract Repong Damar is a plantation management system that is cultivated and managed by
the Krui community, Lampung. The time of this research was conducted in July 2020. The
research locations were carried out in Pahmungan and Pekon Gunung Kemala Pekon. The
method used in this research is 25 plots in Pahmungan Pekon and 25 Mount Kemala Pekon Plots,
Krui, Pesisir Barat Regency, Lampung Province, Indonesia. This study aims to determine the
dynamics of Repong Damar vegetation. In Pahmungan Pekon found 19 species of tree phases
with a total of 131 trees. 13 species of pole phase trees, 6 types of sapling phase trees, and 26
species of undergrowth and seedling phase trees. In Pekon Gunung Kemala, there were 7 types
of tree phases, 7 types of tree pole stages, 4 types of tree piles, and 17 species of plants under the
seedling phase. The most dominant tree species in Pahmungan Pekon and Gunung Kemala Pekon
are Damar, so that the Dappiness Value Index (INP) of Damar trees in Pahmungan Pekon is
119.44 and INP in Pekon Gunung Kemala is 178.711. Communities in Pahmungan Pekon and
Gunung Kemala Pekon still depend on the economy of the community by searching for gum
resin (Shorea javanica), Repong Damar is the success of agroforestry managed by local
communities which are still traditional. the Pahmungan Pekon and the Mount Kemala Pekon.
The need for government education in protecting the cat eye (Shorea javanica) ecosystem in
Krui,
Keywords: Repong Damar, Resin cat's eye, Pekon Pahmungan, Pekon Mount Kemala, SAP,
resin.
Effect of austempering temperature on impact toughness prop-
erties of AISI 4140 steel
M Badaruddin*, B Bakti, B Prasetyo, Sugiyanto
Department of Mechanical Engineering, Faculty of Engineering, Universitas
Lampung, Jalan Prof. S. Brojonegoro No. 1 Bandar Lampung 35145,
Indonesia
*Email: [email protected]
Abstract. An AISI 4140 steel was isothermally heat treated by the subsequent
austempering temperature for increasing its impact toughness properties. The
microstructural observations and Charpy-impact tests were conducted. The results
showed that the austempering heat treatment subjected to an AISI 4140 steel resulted
bainite microstructure which the structure of bainite was depending on isothermal
temperature of bainite formation. The microstructure of bainite is considerably
responsible to increase in impact properties of the steel. This change microstruc- tures
in the AISI 4140 steel increased toughness and caused a significant increase in the
impact fracture toughness. In the present study, toughness properties were influenced
by transformation temperature of bainite formation during the subsequent
austempering heat treatments, which resulted he mechanical stability and morphology
of retained austenite but also characteristic of bainite microstructure in the steel must
be taken into account when applying an austempering heat treatment in AISI 4140
steel. The dimples-fracture morphologies of the austempered steel exhibit that the
higher resistance of AISI 4140 against impact energy absorption was strongly resulted
by the finer microstructure of bainite phase.
Keywords: AISI 4140 steel, austempering, bainite, impact energy, dimple fracture
Pattern of Batik Kawung and Parang Rusak Identification
Based on First Order Statistical Feature Extraction Method
A T Nugroho, B E Cahyono, A S Ismahu, and P D Putri*
Department of Physics, Faculty of Mathematics and Natural Science, University of
Jember, Jalan Kalimantan No. 37 Jember 40132, Indonesia
*Email: [email protected]
Abstract. Batik is unique Indonesian traditional drawing art which is expressed on a piece of
fabric. Every region has its own batik pattern related with local historic and wisdom. This
research identify the Kawung and Parang Rusak batik base on the value of first order statistical
feature. There are four steps to identify the pattern of Kawung and Parang Rusak batik: data
preparation, pre-processing images, feature extraction, feature selection, and training images. In
the pre-processing image divided in to two type there are: grayscale image for Batik Kawung and
black-white image for Batik Parang Rusak. The result of this study for batik Batik Kawung has
characteristic mean value is 0.55, standard deviation value is 0.27, and entropy value is 7.22. The
result of this study for batik Batik Parang Rusak has characteristic mean value is 0.44, standard
deviation value is 0.49, and entropy value is 0.99. The conclusion of this study is first order
statistical feature extraction method can be used to identify the characteristics of batik patterns.
Keywords: Batik, statistical feature extraction, characteristics.
Geophysical Approach for Assessment of Seawater Intrusion
in the Coastal Aquifer of Bandar Lampung, Indonesia
Rustadi1,3,*, I G B Darmawan2, N Haerudin2, Suharno2, and A Setiawan3
1 Department of Environtment Science, Universitas Lampung, Jalan Prof. Soemantri
Brojonegoro No.1, Bandar Lampung 35145, Indonesia
2 Department of Geophysical Engineering, Universitas Lampung, Jalan Prof.
Soemantri Brojonegoro No.1, Bandar Lampung 35145, Indonesia
*Email: [email protected]
Abstract. Overexploitation in 1980-2000 caused a lot of loss of groundwater in the aquifer
coastal of Bandar Lampung. Groundwater has been degraded with increasing salinity due to the
intrusion of seawater. In 2013, the intrusion has extended 400 m from the coastline. Subsurface
geological mapping is carried out with the aim of examining the material constituents of alluvial
formations and the ability to transfer seawater to land. Combined research through 3 well
exploration, combined with 3 geoelectric tomography and 51 points of gravity. The gravity
method used to map the existence of structures that can connect coastal aquifers and land
aquifers. Geoelectric tomography to map the presence of aquifers and low resistivity zones by
seawater intrusion. The coastline has relatively shallow aquifers at a depth of 2 - 10 m in a sand
layer with coral inserts, while the lower part is composed of silt and clay. The aquifer has
experienced a decrease in resistivity of fewer than 10 ohms m appears in the three circular
patterns, caused by seawater. In addition to the permeable zone of shallow aquifers, there is a
northwest southeast trending structure, which can be channeling seawater to land aquifers.
Keywords: coastal aquifer, intrusion, geophysics, Bandar Lampung
Reservoir Properties Prediction Using Seismic Inversion and
Geostatistical Integration
O Dewanto1, D Arlinsky1, and R C Wibowo1,*
1 Department of Geophysical Engineering, Faculty of Engineering, Universitas
Lampung, Jalan Prof. Dr. Soemantri Brodjonegoro No. 1 Bandar Lampung 35145,
Indonesia
*Email: [email protected]
Abstract. Seismic inversion involves mapping the physical structure and properties of the
subsurface of the Earth using measurements made on the surface and possibly constrained by
well log measurements. Traditionally, inversion has been applied to post-stack seismic data, with
the aim of extracting acoustic impedance volumes. However, we used inversion results to directly
predict lithology parameters such as porosity. On the other hand, geostatistics provides a toolbox
for the geologist to use in analysing data and transferring such analysis and interpretation to the
task of reservoir forecasting. Another very important benefit of geostatistical methods is the
availability to assess uncertainty associated with kriging and co-kriging using stochastic
methods. The main conclusion of this paper is that the interpretation of acoustic impedance from
seismic data, can significantly reduce inter-well estimation uncertainty and that this method is
suitable for reservoir characterization and similar studies in petroleum engineering. Also, by
combining seismic inversion with geostatistics leads to significant results. The Kriging model is
smooth and we have observed that for the studied area Kriging with External Drift (KED) is more
accurate than co-kriging when estimating the depth of thehorizon when there is insufficient data.
Keywords: seismic inversion, geostatistical inversion, KED, porosity, reservoir
Analysis effect of wind speed variation on the design horizontal
axis wind turbine with Qblade software
A S Samosir 1,*, A Riszal 2
1 Department of Electrical Engineering, Universitas Lampung, Bandar Lampung,
Lampung, Indonesia. 2 Department of Mechanical Engineering, Universitas Lampung, Bandar Lampung,
Lampung, Indonesia.
Email: [email protected]
Abstract. Wind energy is renewable energy as environmentally friendly energy. One of the
utilizations of wind energy conversion is wind turbine. Wind turbine is energy conversion
device to convert wind energy into mechanical energy and convert it into electricity through
generator. The size of the power produced by wind turbines, one of which depends on the
wind speed and type of turbine used. In this riset, researchers will design wind turbine with
wind speed variations. The purpose of the design and analysis of variations wind speed is to
design a low speed wind turbine and use model with a number of blades 5 wind turbine. The
object of this study was the design of wind turbines with variations in wind speed of 2 m/s,
3 m/s,4 m/s, 5 m/s and 6 m/s with a number of blades 5 wind turbine horizontal axis, rotor
diameter of 1.4 m and this rotor used NACA 4412 airfoil type. The method use Blade
Element Momentum (BEM) and design simulation used Q-Blade software. The results of
the design of wind turbines with wind speed variations show that there is an increase in
power as the wind speed increases.
Keywords: Wind Turbine, Qblade Software, Blade Element Momentum (BEM).
Analysis of Maktec MT 923 Finishing Sander Machine
Maintenance using Reliability Centered Maintenance (RCM)
Method at PT. Bothwell Indonesia
D Tauhida1, A D Prabaswari2, B W utomo3, and A G Wiguna4
1 Department of Industrial Engineering, Faculty of Engineering, Universitas Muria
Kudus, Jalan Lingkar Utara UMK, Gondangmanis, Kudus 59327, Indonesia
2,4 Department of Industrial Engineering, Faculty of Industrial Technology,
Universitas Islam Indonesia, Jalan Kaliurang km. 14,5 Sleman, Yogyakarta 55584,
Indonesia
3 Department of Industrial Engineering, Sekolah Tinggi Teknologi Adisutjipto, Jl.
Janti Blok. R, Lanud Adisutjipto, Yogyakarta, 55198, Indonesia
*Email: [email protected]
Abstract. PT. Bothwell Indonesia is a furniture company that produce tables, chairs, cabinets
and other products. As a manufacturing company, the production process at PT. Bothwell
Indonesia used machinery and equipment to facilitate operators. The reliability of the machine is
the main point to guarantee a smooth production process and good product. According to the
observations, machinery and equipment at PT. Bothwell Indonesia often fails so it can disrupt
the production process. Aim of this research is analyse the failure of the machinery and machine
maintenance activities to get an effective and efficient machine maintenance system. Based on
the analysis results, there are 2 types of machines: hand machines and fixed machines. The hand
machines have a high failure rate, it can be seen at the purchase data from the maintenance
department, so hand machines need to be taken seriously. Machine maintenance system at PT.
Bothwell Indonesia still uses the old system. The problems such as engine failure have become
commonplace because there is no record of maintenance activities and SOPs on each machine,
so machine maintenance activities cannot be done routinely. This study uses the Reliability
Centered Maintenance (RCM) method with several tools including FBD, FMEA, LTA, and TS.
Keywords: furniture, machine maintenance, RCM
Aerodynamic drag reduction on the application of suction
flow control on vehicle model with varied upstream velocity
R Tarakka1*, N Salam1, Jalaluddin1, W Rauf1,2 and M Ihsan3
1 Department of Mechanical Engineering, Faculty of Engineering, Hasanuddin
University, Jalan Poros Malino, KM.6, Gowa, 92172, Indonesia 2 Department of Mechanical Engineering, Faculty of Engineering, Gorontalo
University, Jalan Jenderal Sudirman, Gorontalo 96211, Indonesia 3 Sekolah Tinggi Teknik Baramuli, Pinrang, 91215, Indonesia
*Email: [email protected]
Abstract. The innovation in the automotive industry must prioritize the issue of energy security
and the environment. One aspect of the innovations is regarding the development of more
aerodynamic vehicle design. The study of vehicle aerodynamics has been considered as very
important, due to its direct relation to the safety and efficiency factors of energy utilization. The
application of suction active control on the onset region of flow separation is one example of the
efforts. This study aims to analyse the effect of the application of active control by suction to the
aerodynamic drag of the vehicle model through qualitatively observations of flow dynamics and
quantitatively pressure fields. The test model is a modified Ahmed body with 35° slant angles
and varied flow orientations. This study has been conducted in both numerical computation and
experimental testing at a suction velocity of 1.0 m/s and upstream velocity of 11.1 m/s, 13.9 m/s,
and 16.7 m/s, respectively. The results have found out that the application of active control has
been able to delay the process of flow separation, to increase the pressure coefficients on the back
wall, and to reduce aerodynamic drag by 10.8487% for computational methods and 10.9748%
for experimental methods.
Keywords: flow control, pressure coefficient, aerodynamic drag
Coal Velocity and Proximate Analysis Relationship Using
Multiple Linear Regression
S Erfani1, F M Siregar1, A Zaenudin1, Rustadi1, I B S Yogi1 and R C Wibowo1*
1 Department of Geophysical Engineering, Faculty of Engineering, Universitas
Lampung, Jalan Prof. Dr. Soemantri Brodjonegoro No. 1 Bandar Lampung 35145,
Indonesia
*Email: [email protected]
Abstract. Coal properties such a velocity (Vp) is important to build a lateral distribution of coal
seam using seismic data. The experimental determination of velocity analysis is sophisticated,
long time consumed, and expensive, on the contrary, statistical approach such as linear regression
can be run rapidly. The two main objectives of the study were to develop models for coal velocity
using well log data variables (density and natural Gamma-Ray) and found the relationship
between velocity with proximate analysis results. Multiple linear regression (MLR) methods
were applied to estimate relationship between Vp estimated and proximate analysis. By
conducting cross-validation, the prediction analysis of the models has been tested by using R2.
The result showed that between Vp estimated versus Vp log have R2
0.80 and Vp estimated versus proximate analysis that reflected have R2 of 0.52. The main merit
of the correlations is the ability to estimate the relationship between Vp and proximate analysis,
then applied that correlation to distributed in seismic volume to obtained coal seam characteristic.
Keywords: velocity, coal, multiple linear regression, proximate, prediction
Design Optimization of Guide Vane Geometry of Kaplan
Turbine
Sirojuddin1,*, B C H Nugroho1, I Ekayana1, H R Aziz1 and S Harahap1
1 Department of Mechanical Engineering, Faculty of Engineering, Universitas Negeri
Jakarta, Jalan Rawamangun Muka, Jakarta 13220, Indonesia
*Email: [email protected]
Abstract. Guide vane is component to control the inflow of water to the runner of blade in Kaplan
turbine to get maximum power, to regulate flow of water, and to stop flow of water. This research
aims to optimize the guide vane geometry to obtain a good streamlined flow trajectory, and
optimum thickness. The 2D geometry design was drawn with AutoCAD while 3D models using
Inventor and the flow simulation processed by Solidworks flow simulation software. The water
discharge was 0.1 m3/s, head 5 m with a 4.9 kW theoretical power of turbine. The geometry of the
guide vane using NACA 6412 airfoil with 90 mm chord, 75% thickness, and the 6 variations of
the radius. From the optimization processed and simulation results, it was found that the variant
GV-6 was the best guide vane.
Keywords: Design optimization, guide vane, kaplan turbine, NACA 6412
Investigation of The Runner Blades Arrangement with Gap,
without Gap, and Overlap Geometry against The Power
Generated by The Kaplan Turbine.
Sirojuddin1,* , H R Aziz1 , B C H Nugroho1 , I Ekayana1 , A A Jumhur1 and S
Harahap1
1 Department of Mechanical Engineering, Faculty of Engineering, State University of
Jakarta, Jalan Rawamangun Muka Raya, Jakarta 13220, Indonesia
*Email: [email protected]
Abstract. One of the most important components in the Kaplan turbine to get maximum power
and efficiency is the runner blade, especially the arrangement of the geometry. This research
aims to investigate the runner blade arrangement without a gap, with gap and overlap geometry
against the power generated by the turbine. An investigation based on the safety factor value the
power generated and efficiency achieved. The design parameters based on 5 m head, 0.1 m3/s
water discharge, and a theoretical turbine output of 4.9 kW with 3 blade variants. The 2D blade
geometry design used the airfoil profile NACA 2412 and is drawn with Autocad, while the 3D
design and strength analysis proceeds by Inventor and flow simulation using SolidWorks
software. From simulation results shown that the RB–3 variant was the best runner blades with
optimum safety factor and maximum power.
Keywords: Blade arrangement, investigation, kaplan turbine, maximum power, safety factor
Investigation of Conical Draft Tube of Kaplan Turbine with
Spiral Liner and without Spiral Liner using CFD Simulation
Sirojuddin1,*, I Ekayana1, B C H Nugroho1, H R Aziz1, A Kholil1 and S Harahap1
1 Department of Mechanical Engineering, Faculty of Engineering, State University of
Jakarta, Jalan Rawamangun Muka, Jakarta 13220, Indonesia
*Email: [email protected]
Abstract. The draft tube is a component in the Kaplan turbine to create positive suction pressure
using kinetic energy that is not used when leaving the turbine runner and increasing turbine
power efficiency. This research aimed to find out the highest efficiency of variant geometries of
a conical draft tube with spiral liner and without the spiral liner. The design geometry was
processed using 2D software and 3D using Inventor and simulated in Solidworks software. The
inlet water discharge was 0.1 m³/s with head 5 m and theoretical turbine power 4.9 kW. Based
on the simulation results showed that the spiral liner draft tube variant was the best power and
efficiency.
Keywords: Draft Tube, efficiency, kaplan turbine, kinetic energy, spiral liner
Flow drag across three minibus car models arranged in
tandem in four configurations
N Salam1, R Tarakka1*, Jalaluddin1, M Ihsan2, and M A Jimran1
1 Department of Mechanical Engineering, Hasanuddin University, Makassar, Indonesia 2 Sekolah Tinggi Teknik Baramuli, Pinrang,
Indonesia [email protected]
Abstract. The purpose of this study was to determine the drag coefficient of fluid flow across
three minibus cars arranged in tandem in four configurations and to determine the optimum drag
coefficient across the three cars. Flow drag measurements have been conducted on a wind tunnel
by force balance measurement. The minibus car models with a 1:40 ratio to the originals were
constructed from iron material with a thickness of 1 mm. The three minibus cars are arranged in
four configuration models where car 1 with 2 are arranged in series while car 3 position
changeable according to the configuration. Each configuration model was treated with 6 changes
in the distance of the car to 3, while the distance between car 1 and 2 was constant, with similar
7 levels of treatment of velocities ranging from 8 m/s to 20 m/s. The results show a similar drag
coefficient (Cd) pattern in all configuration models, where smaller Cd related to greater velocities
and smaller distances of the three cars. Furthermore, at a similar Re=49,608, the smallest Cd
was obtained in model III (Cd=0,78), and followed by model II (Cd=0,80), model IV (Cd=0,81)
and model I (Cd=0.84).
Keywords : flow drag coefficient, three tandem minibus cars, four configuration models
Geospatial analysis of optimal routing for fire disaster
mitigation in Makassar city
B A Widyantoro, P B Santosa
Department of Geodetic Engineering, Faculty of Engineering, Universitas Gadjah
Mada, Jalan Grafika No.2, Bulaksumur, Yogyakarta, Indonesia
Email: [email protected], [email protected]
Abstract. Makassar city experiences many residential fire disasters during the last years. One of
the possible causes why fires are difficult to overcome is due to the late response of the
firefighters. Due to a unique traffic condition in Makassar City, which is one of the densest traffic
cities in Indonesia, firefighters cannot come to the fire plots on time due to traffic conditions. To
overcome this problem, the development of a geospatial route analysis can help firefighters find
the best route to a fire point quickly. Geospatial route analysis is currently a key role in
emergency responses for urban fire disaster. A routing system can provide network analysis that
allows users to navigate between source and destination point. In this case, the system can help
firefighters to arrive as quickly as possible. On complicated road networks, there are some
impedance factors that would slow down drivers on a particular road. In this regard, this study is
aimed at providing alternative routes for firefighters from the base stations to disaster locations of
residential fires. The method used in the studies is Dijkstra's algorithms to calculate weights of
the impedance factors to optimal routing based on length road, speed drive, and traffic conditions.
Implementation of routing analysis using open source geospatial software, PostgreSQL as
database management system with PostGIS, and pgrouting as extensions. The modeling results
show that the optimal route selection with speed parameters based on road classification has a
low weight value. It can be used as a reference for selecting firefighters routing.
Keywords: fires, disaster, pgrouting, optimal routing, geospatial analysis, PostgreSQL
Conversion of Microalgae Nannochloropsis sp. into Bio-crude
Oil using Low-temperature Hydrothermal Liquefaction
F A M Jhoni, and Y S Pradana*
Chemical Engineering Department, Faculty of Engineering, Universitas Gadjah Mada,
Jalan Grafika No. 2, Yogyakarta 55281, Indonesia
*Email: [email protected]
Abstract. Nowadays, fuel production from microalgae is an alternative way to overcome the
depletion feedstock of fossil fuels. One of the proposed processes for microalgae to fuel
conversion is hydrothermal liquefaction (HTL). This research investigated low-lipid microalgae
Nannochloropsis sp. conversion into products (bio-crude oil, water phase, solid residue, and gas)
in a batch pressurized reactor. The yields of each product were evaluated by varying temperatures
(200 and 225oC) and residence times (10, 20, 30 minutes). The highest yield of bio-crude oil was
0.59%, resulted at temperature of 225 oC, residence time of 10 minutes, and biomass-water ratio
of 1:10. In this condition, the yield of solid residue and the water-soluble liquid product were at
the lowest level. However, the higher temperature and the longer residence time caused higher
gaseous component.
Keywords: Low-temperature hydrothermal liquefaction, microalgae, Nannochloropsis sp., bio-
crude oil
Spectrophotometric Analysis of Caffeine in Local Product of
Arabica : Observed at Different Roasted Temperatures
Misto, K Alawiyah, N P Lestari, L Rohman, Supriyadi, Mutmainnah and E
Purwandari*
Department of Physics, Faculty of Mathematics and Natural Sciences, University of
Jember, Jalan Kalimantan No. 37 Jember 68121, Indonesia
*Email: [email protected]
Abstract. Indonesia's geographical location supports the existence of various coffee
commodities. As a plantation commodity, coffee has a fairly high economic value. Coffee has a
lot of substance that is beneficial to the body, one of is caffeine that serve to increase the stamina.
Caffeine is naturally present in many types of plants as secondary metabolism. This research was
done to know the content of caffeine in a local Arabica pure coffee with their variation of roasted
temperatures as well as knowing the characteristics of Arabica coffee from organoleptic test. This
study was conducted using UV-Vis spectrophotometer at 273 nm wavelength. The test results
showed that the highest caffeine content was on samples of pure Arabica coffee with a roasted
temperature of 195°C and 215°C. Caffeine content in sequential 3.217% and 2.597%. The results
of organoleptic testing of Arabica coffee is dominated by fragrant aroma and taste good.
Keywords: Arabica coffee, Caffeine, UV-Vis spectrophotometer
Application of EPQ Model to Minimize the Total Cost of
Inventory of Refined Sugar Product at X Company
E R Wijaya1*, Titania1
1 Logistics Management of Agro Industry, Polytechnic ATI Padang, Jalan Bungo
Pasang, Tabing, Padang, Indonesia
*Email: [email protected]
Abstract. Overload is a condition where the goods stored in the warehouse exceed the existing
capacity. With the accumulation, it will increase the storage cost for the products/goods stored.
The purpose of this research is to help companies determine the optimal amount of production,
optimal production time intervals and maximum product inventory so that there is no excess
stock of products in the warehouse, and to obtain a minimum total inventory cost by using the
Economic Production Quantity (EPQ) model. To collect the data needed in this study, secondary
data is used which consists of production data and product delivery of company X. From the
research results, the optimal production rate (Q*) is 13,646 MT/production cycle with an optimal
production time interval of 1.16 months. or equal to 35 days, the maximum amount of inventory
(Imax) is 429 MT. The total minimum inventory cost in one production cycle/month is
Rp.167,925,698.28, -. The difference in total inventory costs generated using the EPQ method
and calculations based on company conditions is 9% or equivalent to Rp.16,538,501, -. Based on
the results of the sensitivity analysis it is known that all parameters are sensitive to Q*, Imax, and
total inventory costs. However, a significant change is the parameter of saving costs, where the
increase and decrease in saving costs will decrease and increase Q*, Imax, and the total cost of
inventory.
Keywords: EPQ, optimal production rate, maximum amount of inventory, sensitivity analysis
Reservoir Properties Modeling Using Multi-Attribute Seismic
Analysis: Case Study South Sumatra Basin
B S Mulyatno1, F S Parameswari1, N Hikmah2, O Dewanto1 and R C Wibowo1,*
1 Department of Geophysical Engineering, Faculty of Engineering, Universitas
Lampung, Jalan Prof. Dr. Soemantri Brodjonegoro No. 1 Bandar Lampung 35145,
Indonesia
2 PT Pertamina EP Asset 2 Prabumulih, South Sumatera
*Email: [email protected]
Abstract. Seismic inversion and multi-attribute analysis method are used in this research to
characterizes the reservoir properties. Where both of these methods will be resulted an
acoustic impedance volume and log property volumes. The property log volumes were created
from density, porosity, Gamma-Ray (GR) and Water Saturation (Sw) log. There are 4 wells
that is used in this research, they are EM-31, EM-32, EM-33 and EM-34 and a 3D seismic
data post- stack time migration. Based on a map of acoustic impedance distribution, the
reservoir target has an acoustic impedance value of 6.000 ((m/s)*(g/cc)) to 8.000
((m/s)*(g/cc)). Furthermore, based on the map of the distribution of the log property, reservoir
has a density value with a range of 2.3 g/cc up to 2.4 g/cc, porosity value > 10%, GR value of
less than 100 API and Sw 50% to 55%. Thus, it can be concluded that reservoir has a lithology
of sandstones, has a fairly good porosity and contains oil fluids.
Keywords: multi-attribute seismic, reservoir, south sumatra basin, modeling
Synthesis and Characterization Exopolysaccharide from
Algae Spirulina sp. using Technique Sol-Gel as Absorbent Ion
Metal Pb(II)
R A Kausar1*, Buhani1*, Suharso1, and A Setiawan1
1Departement of Chemistry, Faculty of Mathematics and Natural Sciences, University of
Lampung, Jalan Prof. Soemantri Brojonegoro No.1, Bandar Lampung, 35145, Indonesia.
*E-mail: [email protected]; [email protected].
Abstract. In this study, a modification of exopolysaccharide (EPS) from Spirulina sp. algae biomass
with silica (HES) and exopolysaccharide from Spirulina sp. algae biomass with silica coated by
magnetite particles (HESM) has been done successfully. A series of experiments with the Batch
method were conducted to test the ability of HESM adsorption of Pb(II) ions in solution. Identification
of functional groups of HESM adsorbents was studied using infrared spectrophotometer (IR) while
surface morphological analysis and composition of the constituent elements of HESM were performed
using scanning electron microscope-energy (SEM). Concentration of Pb(II) ion in the adsorption
process were analysed by inductively coupled plasma- atomic emission spectrometry (ICP-AES
Adsorption of Pb(II) ions with HES and HESM is optimum at pH 7 and consentration at 25 ppm with
the adsorption capacity on HES at 3.85 mg g-1 while on HESM at 272.63 mg g-1, contact time of 15
min and it tends to follow second orde pseudo kinetic model and Langmuir adsorption isotherm model.
Keywords: Sol-Gel, exopolysaccharide,adsorption,silica coated magnetite.
Investigation and modelling of the flood control system in the
Aerotropolis of Yogyakarta International Airport
S Fadilah1*, Istiarto1, and D Legono1
1 Department of Civil and Environtmental Engineering, Faculty of Engineering,
Universitas Gadjah Mada, Jalan Grafika No. 2 Kampus UGM, Yogyakarta 55281,
Indonesia
*Email: [email protected]
Abstract. The New Yogyakarta International Airport has become one of Indonesia’s National
strategic projects and potentially support the development of the Aerotropolis area around the
airport. Located at the southern coast of Yogyakarta with the existence of rivers at the upstream
of the airport, flooding can be a threat to the Aerotropolis area and the Yogyakarta International
Airport. This research aims at investigating and modelling the flood review the existing design
of the flood control system of the Aerotropolis area and find out the possible option of better
flood control in the area. The one-dimensional HEC-RAS was used to simulate the flood and its
control in the Aerotropolis area. Simulation of flood control options includes river normalization,
optimization of flood gates, use of retarding basin and flood pumps. The present study proposed
adjustment of performing. Alternative flood control at each flood-prone area was adjusted to the
level of flooding risk in the area. In conclusion, the use of retarding basin and flood pumps highly
recommended to prevent the flooding at the Aerotropolis area of Yogyakarta International
Airport.
Keywords: Friction welding, orthopaedic implant, pin, spiral defect
Investigation of muscle contraction on motorcycle handlebar
using electromyography
H Soewardi1, K A Hasibuan1
1,2Industrial Engineering Department, Universitas Islam Indonesia, Yogyakarta,
Indonesia E-mail: [email protected], [email protected]
Abstract. A motorcycle is commonly used by people in Indonesia as a transportation device. It
because this device is flexible and affordable as well as easy to maneuver. However, the risk of
driving a motorcycle is an emergence of the Carpal Tunnel Syndrome (CTS) on the wrist aside
from the accident. This syndrome occurs when tissues surrounding the flexor tendons swell,
providing pressure on the median nerve. It is caused by the vibration on the motorcycle handlebar
that results from the engine and it will impair the muscle work. The objective of this study is to
investigate the correlation between the Flexor Carpi Ulnaris muscle contraction and vibration
occurred in the motorcycle handlebar and how much the muscle contraction comes about. An
experimental study was conducted in an ergonomic laboratory in which six respondents have
participated. Electromyography was used to identify Maximum Voluntary Contraction (MVC) on
Flexor Carpi Ulnaris muscle which is functioned as controlling the throttle, clutch and brake
levers. Manual and automatic motorcycle with 110 and 125 machine capacity, and 1000 and 5000
speed level for a case study. Statistical analysis was conducted to test the hypothesis. The result of
this study shows that the percentage of maximum voluntary contraction on flexor carpi ulnaris is
higher on a manual motorcycle than the automatic motorcycle in 5000rpm for 110 and 125 machine
capacity respectively in which it will be higher as long as vibration increase on a motorcycle
handlebar.
Keyword: Vibration, Muscle Contraction, Electromyography, Flexor carpi ulnaris, Motorcycle
Numerical modelling for steady state condition of geothermal
system in Way Ratai
Karyanto1, 2, *, N Haerudin2, Suharno2, I G B Darmawan2, M Adli2, and P
Manurung3
1 Doctoral Program of Mathematics and Natural Science, University of Lampung,
Jalan Prof. Soemantri Brojonegoro No.1, Bandar Lampung 35145, Indonesia
2 Department of Geophysical Engineering, University of Lampung, Jalan Prof.
Soemantri Brojonegoro No.1, Bandar Lampung 35145, Indonesia
3 Department of Physics, University of Lampung, Jalan Prof. Soemantri Brojonegoro
No.1, Bandar Lampung 35145, Indonesia
*Email: [email protected]
Abstract. Numerical modelling of Way Ratai Lampung geothermal system aims to model the
geothermal system in steady state condition. Numerical simulation showed quantitative model of
reserve geothermal energy resources calculation and modelling hydrothermal fluid flow and heat
energy transfer in geothermal system. The simulation is using program HYDROTHERM
INTERACTIVE by applying Newton-Raphson algorithm for non-linear differential system,
Slice Successive Over Relaxation (SSOR) algorithm, and Generalized Mini Residual (GMRES)
for linear system. The trajectory profile of the study area is 18 km (NW-SE) and 5 km vertical
using a 100 m, 200 m and 500m grid respectively. The simulation running until the 100.000 year
with 1000 years’ time interval. The result shows the geothermal reservoir potential has a length
range of approximately 8 km with a thickness between 0.5-1.5 km with temperature range is
between 250-350 ° C. The reservoir depth ranges from 600-1200 meters below with a fairly thick
cap rock. These results significantly at period of 25,000-50,000 years identified as the steady
state condition for the Way Ratai geothermal system. Furthermore, with a large enough area and
thickness and a fairly high reservoir temperature, the Way Ratai geothermal potential can be
categorized as a high enthalpy system.
Keywords: Steady state, numerical model, heat transfer, geothermal, Way Ratai
The Effects of Ozonation and Ultrasonic Cavitation on Batik
Wastewater Treatment with Coagulation-Flocculation as
Pretreatment
I N J Siahaan1, A E Saputra1, dan E F Karamah1*
1Department of Chemical Engineering, Faculty of Engineering, Universitas Indonesia,
Kampus UI Depok 16424, Indonesia
*Email: [email protected]
Abstract. The batik industry produces large volumes of wastewater with high organic content.
Dyes in batik wastewater are difficult to degrade by biological processes. Therefore, further
processing is needed to reduce pollutants before being released into the environment. This study
aims to observe the performance of the ultrasonic cavitation, ozonation, and combination of
ozonation/ultrasonic cavitation to treat batik wastewater, which is first given a coagulation-
flocculation pretreatment with Polyaluminium Chloride (PAC) coagulants. The variations
applied are ultrasonic intensity (20%, 30%, and 60%) and pH of wastewater (4, 7, and 10). In
this study, it was found that the combination of the ozonation/ultrasonic cavitation method with
a pH of 4 and ultrasonic intensity of 20% produced the best performance, namely COD, TSS,
and color (Pt-Co) removal of 77.02%, 95.15%, and 94.88%. The ultrasonic intensity and initial
pH of wastewater play an important role in the performance of the treatment process. In the
ultrasonic cavitation method with an ultrasonic intensity of 20%, the highest percentage of COD,
TSS, and color (Pt-Co) removal was 65.59%, 91.51%, and 93.41%. The ozonation method in
acidic conditions (pH 4) produced better performance with COD, TSS, and color (Pt-Co) removal
of 70.51%, 94.35%, and 96.10% for 60 minutes.
Keywords: Batik wastewater, coagulation, flocculation, ozonation, ultrasonic cavitation
The Potential of Urban Agriculture for Greening Grey
Infrastructure: The Case of Simple, Low Cost Apartment
Buildings in Jakarta
H Anggrahita, Guswandi, R Auni, and F S Lubis
Email: [email protected], [email protected],
[email protected], [email protected]
Abstract. Jakarta has experienced urbanization and rapid development leading to great physical
changes. 90% of its areas are built-up. Moreover, they reduce green spaces. Greening grey
infrastructures can be a solution. Previous studies found that rooftop of buildings as part of grey
infrastructures can create multi-functions including food production, strengthening food security.
However, there is lack of research on rooftop agriculture in Asian mega cities including Jakarta. This
research analyses the potential of urban agriculture for greening the rooftops of simple, low- cost
apartment buildings (Rusunawa) in Jakarta. They are classified into two types: ‘flat’ ones (atap
‘datar’) that are suitable for urban agriculture; and ‘non-flat’ ones (atap ‘tidak datar’) that are not
suitable for it because of safety reason. To do so, we collect data of Google Earth, free high- resolution
images for the identification of urban land cover/use by classifying physical objects e.g. the rooftops.
We choose 11 of 22 Rusunawa. The findings are surface of flat rooftops is 60.304 m2; and that of
non- flat ones is 5.730 m2. Thus, 91% of them are potential for agriculture.
Keyword : Roof-top agriculture, simple and low-cost apartment, grey infrastructure,
greening, Jakarta
The Effect of Ozonation on the Chemical Structure of
Microplastics
A N Fitri1, D Amelia1, and E F Karamah1*
1Department of Chemical Engineering, Faculty of Engineering, Universitas Indonesia,
Jalan Fuad Hasan, Depok, 16424, Indonesia
*Email: [email protected]
Abstract. Microplastics accumulated in wastewater are not easily susceptible to microbial
degradation, thus persist in the environment. Moreover, microplastics pose a danger to aquatic
biota and human. Effective technological solutions to degrade microplastics in wastewater
treatment plants are desirable. Biodegradation is one of the most applied techniques but takes a
long time. This study evaluates the ozonation as pre-treatment to transform the chemical structure
of polyethylene microplastics into more susceptible to biodegradation. The process is done by
using a corona-discharge ozonator and batch reactor which is varied by pH value (6, 7, 8, 10,
12), ozone flowrate (1, 3, 5 L/min), and contact duration (1, 2, 3 hours). The study began by the
quantification of OH radicals and dissolved ozone, ozonation of microplastics, and evaluation of
ozonation by gravimetric weight loss also the change of microplastics chemical structure through
FT-IR (Fourier Transform Infrared). The results revealed chemical structure changes of
polyethylene after ozonation, confirmed by the appearance of carbonyl bonds and the loss of
weight. The optimum operating condition appeared at pH 12 with 5 L/min ozone flowrate which
resulted in 0,0482% weight loss and carbonyl bond intensity reached 104,556% after 3 hours
ozonation.
Keywords: Biodegradation, microplastics, ozone, ozonation, polyethylene
Batik Wastewater Treatment by the Hydrodynamic
Cavitation and Ozonation with Coagulation-Flocculation
Pretreatment
A E Saputra1,*, I N J Siahaan1, and E F Karamah1
1 Department of Chemical Engineering, Faculty of Engineering, Universitas Indonesia,
Kampus Baru UI Depok 16424, Jawa Barat, Indonesia
*Email: [email protected]
Abstract. Wastewater discharged by Batik’s industry still contains a high concentration of dyes
and pollutants, thus can contaminate the water’s ecosystem. Because of that, in this study, Batik
wastewater is treated by the hydrodynamic cavitation, ozonation, and combination of those two.
By using PAC, a coagulation-flocculation-based pretreatment technic is conducted first to
increase the effectiveness of the main wastewater treatment process. Then, variations in flow rate
(2 L/min, 4 L/min, and 6 L/min) and initial pH of wastewater (4, 7, and 10) are evaluated to
analyze its effect on the pH changing and the degradation of TSS, COD, color (Pt-Co), and TOC.
The best result obtained from this research is by the application of the combination technic, which
can eliminate 95.19%; 78.85%; 96.42%; and 60.56% of TSS, COD, color (Pt-Co), and TOC,
respectively after 60 minutes treatment.
Keywords: Batik Wastewater, Coagulation, Hydrodynamic Cavitation, Ozonation
Characteristics of Ultrasonic Velocity of Eggs Using HC-SR04
Module
Y E Putra1, S R Sulistiyanti1*, and A S Samosir1,
1 Department of Electrical Engineering, Universitas Lampung, Jl. Prof. Soemantri
Brojonegoro No.1, Bandar Lampung. 35145, Indonesia
*Email: [email protected]
Abstract. This article discusses about characteristics of ultrasonic wave propagation in eggs. The
objects used are three types of eggs; Broiler eggs, domestic eggs and ducks. The method of
determining the egg characteristics used ultrasonic waves. Ultrasonic wave can propagate on
objects, materials and components. The HC-SR04 is used as ultrasonic wave transmitter and
receiver. Ultrasonic waves are transmitted to the surface of the eggs. The distance between the
eggs and the HC-SR04 module is 5 cm and 10 cm. The testing process is carried out on 10 eggs,
of each type. The distance and time propagation parameters are used as information to produce
the ultrasonic velocity of the egg. The testing and calculation process shows that duck eggs have
the highest speed value.
Keywords: Eggs, Ultrasonic Wave, HC-SR04, Ultrasonic Velocity.
Design optimizing of shafts for shredder machine with 25 litres
capacity
Sirojuddin 1,* , William M . Rosadi1 and Syamsuir1
1 Mechanical Engineering, Universitas Negeri Jakarta , Jakarta 13220, Indonesia
* e-mail: [email protected]
Abstract. Plastic is item that can’t detached of human life, both in terms of daily use as well as to
activities industry. The fact in 2019 there were 69 million tons of plastic waste. To proccess plastic waste
need a shredder machine in this research. The form of plastic waste that will be shredded are of plastic
bottles, plastic jars, jerry cans, etc. This research aims to optimize the design of shaft for the shredder
machine with a capacity of 25 litres . It starts by calculating the torque passed from the motor, determine
the multilevel shaft diameter and the connection of the pegs to the blade, the depth and length of the pegs.
2D designs will be drawn using AutoCAD software and then continued to create 3D designs using
Autodesk Inventor software. Shafts will be analyzed yield strength using Solidworks software and
showed a maximum yield strength of the highest in the region meet of the shaft and a blade, then the shaft
will be tested using the gear ratio of 1:5 to see how much power is needed to achieve well shredded
results.
Keywords: Shafts optimizing, torque, yield strength, power.
Production and Characterization of NiO Modified-Activated
Carbon from Palm Shell Waste by Chemical Activation with
K2CO3 and Physical Activation
Yuliusman1 and Raisa Aulia Hanifah2,*
1 Process Intensification Research Group, Chemical Engineering Department,
Universitas Indonesia, Kampus Baru Universitas Indonesia, Depok 16424, Indonesia
2 Chemical Engineering Department, Universitas Indonesia, Kampus Baru Universitas
Indonesia, Depok 16424, Indonesia
*Email: [email protected]
Abstract. Activated carbon made from palm shell waste is processed through the process of
dehydration, reduction, and chemical activation using a potassium carbonate (K2CO3) solution
with a mass ratio of 1:1. Furthermore, the sample was carbonized and continued with second step
chemical activation with a variation in the mass ratio of K2CO3 (1:1 and 3:2). Samples that have
been chemically activated then undergo physical activation flowed with N2 gas. The synthesized
activated carbon has the best surface area at a mass ratio of 3:2 which is 1202 m2/g. Modifications
were made to increase the adsorption capacity of activated carbon synthesized. In this study, the modification was carried out by impregnating metal oxides in the form of nickel oxide (NiO) into
pores of activated carbon with a concentration variation of 0.5%, 1%, 2%. NiO impregnation
reduces the surface area of activated carbon up to 802 m2/g at a 2% concentration variation.
Keywords: Activated carbon, potassium carbonate, palm shell, chemical activation
Blade design of shredder machine with 25 litres capacity for
plastic waste
Sirojuddin1,* , M R Ali S.1 and Syamsuir1
1 Mechanical Engineering, Universitas Negeri Jakarta, Jakarta 13220, Indonesia
* e-mail: [email protected]
Abstract. Indonesia produces 69 million tons of plastic waste in 2019, plastic waste always increase
every year, where as the excess of plastic waste can harm the environment and cause the disease. Plastic
waste treatment process need a shredder machine. Form of plastic waste that will be shredded in this
research such as plastic bottles, plastic jars , jerry cans, etc. This research aims to design blade for a 25
litre capacity shredder machine, it start with determining the diameter of the blade, the number edge of
blades, the angle of the blade and the profile shape of the blade. 2D blade designs were drawn using
AutoCAD software and continued to create 3D designs using Autodesk Inventor software. Blades will
be analyzed running process dynamics using Solidworks software. With a gear ratio of 1:5 blade will
be tested to know how much moment is needed to achieve good shredded results.
Keywords: Shredder machine, blade design, dynamics process, moment
Casing design of shredder machine with 25 litres
capacity for plastic bottle waste
Sirojuddin1,*, G. Adam Fairuzy.1 and Syamsuir1
1 Mechanical Engineering, Universitas Negeri Jakarta, Jakarta 13220, Indonesia
* e-mail: [email protected]
Abstract. Waste as always be a problem every year. Indonesia produces 69 million tons of plastic
waste in 2019, plastic waste increases every year, where excess plastic waste could damage the
environment and cause disease. The waste especially plastic bottle will be shereddered by shredding
machine. Waste that will be shredded in this research is plastic bottles, jerry cans, and plastic jars.
As a support for the safety factor of the shredder machine, casing is needed to protect the operator
from work accident and aim the waste directly to the knife. This research work is aimed designing
casing for shredder machine began with preminary calculation to determine machine dimension.
Before designing the case, it must be known first the capacity of the engine and power to drive the
engine. The 2D design of the case for sheredder machine were drawn using AutoCAD software, and
continued to create 3D design using Autodesk Inventor software. Then continued the process
manufacturer for the case, last assembly the case to the shredder machine.
Keywords: Waste, Shredder Machine, Plastic Bottle, Safety factor
Microalgal Biodiesel as An Alternative Fuel: Technological
Study of Conversion Process in Indonesia
Y S Pradana *, B R Sadewo, and L Prasakti
Chemical Engineering Department, Faculty of Engineering, Universitas Gadjah
Mada, 55281, Yogyakarta, Indonesia
*Email: [email protected]
Abstract. Microalgae-based biodiesel has appeared as a potential alternative to overcome food-
fuel conflicts of existing edible plant-based biodiesel production. Several advantages of
microalgae-based biodiesel namely growth rate, high lipid content, can grow in harsh
environments and the ability to absorb CO2. This paper focuses on analyzing and selecting the
most suitable microalgae to biodiesel conversion technology in Indonesia using Multi Criteria
Decision Analysis method with sub-method of SMARTER, called SMARTER-MCDA. Four
most promising technologies in microalgae oil conversion resulted from the preliminary study
are heterogeneous catalyzed transesterification with microwave irradiation assisted technology
(HCT), enzyme-based catalyzed transesterification (ECT), non-catalytic transesterification using
supercritical methanol (NCT), and in-situ transesterification (ICT). Those technologies are then
assessed using several criteria, i.e. easiness in application, conversion productivity, solvent ratio,
energy requirement, additional material, and environmental impact. The total score of
SMARTER-MCDA results heterogeneous catalyzed transesterification with microwave
irradiation assisted technology as chosen technology for microalgal oil conversion into biodiesel.
Keywords: Biodiesel, microalgae, oil conversion, SMARTER-MCDA
Production of palm shell based activated carbon by two stage
phosphoric acid impregnation and physical activation
Yuliusman1* and T M Afifah1
1 Department of Chemical Engineering, Faculty of Engineering, Universitas Indonesia,
Depok 16424, Indonesia
*E-mail: [email protected]
Abstract. Activated carbon (AC) as a promising gas adsorbent has been widely used in various
applications. One of the raw materials that can be utilized is palm shell waste. Palm shell has
great potential in terms of quantity and composition as raw material for AC. Palm shell waste
production in Indonesia is classified as high and increasing every year. The high amount of
carbon and low ash in the palm shell can produce good porous carbon. In this study, The Palm
shell was processed through preparation, carbonization, and activation. After being dried and
reduced in size, the palm shell was immersed in phosphoric acid (H3PO4) for 24 hours and
continued with carbonization at 350ºC for 30 minutes. Then, it was second chemically activated
by H3PO4 with activator mass variations and physically activated by N2 gas at 600ºC for 1 hour.
AC with the best characteristics was produced by a mass ratio of 2:1 in the second chemical
activation. The iodine number and surface area obtained are 1164 mg/g and 1158 m2/g.
Furthermore, Pores have formed perfectly on the surface of carbon and the carbon content of AC
has reached 76.9%.
Keywords: Activated carbon, palm shell, phosphoric acid
High-Performance Scale Model for a Wind Turbine
with Deflector Knockdown System
Sirojuddin1,*, M. Haris1, I. R. Ramadhan 1, H. Suharjo1, A.A. Jumhur and
A. Kholil1
1 Department of Mechanical Engineering, Faculty of Engineering, State University of
Jakarta, Jalan Rawamangun Muka, Jakarta 13220, Indonesia
*Email: [email protected]
Abstract. Factors affecting the value of the power generated from the Vertical Axis Wind
Turbine (VAWT) Darrieus Wind Turbine (DWT) are the blade size and blade shape. Also,
there is a very significant effect, namely the use of deflectors. The purpose of this research
is to investigate the use of deflectors without radius and with radius compared without
deflectors. The 2D design is made with AutoCAD, 3D with Inventor and SolidWorks,
and with direct testing. The analysis is done through CFD software analytical calculations
and experiments. Based on experimental results, when using a deflector without a radius,
the power increase is above 30%, when using a deflector with a radius of 125 mm, an 80%
increase in power is obtained compared to without a deflector.
Keywords: Deflector, High Performance, Knockdown System, Scale Model, Wind
The Effect of Carbon Nanotube Addition and Empty Palm Oil
Fruit Bunch Fiber Form Variation on Mechanical Properties
of Epoxy Composite
P P D K Wulan1,*, Y Yolanda2, and U P Syahrudin2
1 Department of Chemical Engineering, Faculty of Engineering, Universitas Indonesia,
Jl. Margonda Raya, Pondok Cina, Kecamatan Beji, Kota Depok, Jawa Barat 16424,
Indonesia
2 Sustainable Energy Research Group, Department of Chemical Engineering, Faculty of
Engineering, Universitas Indonesia, Jl. Margonda Raya, Pondok Cina, Kecamatan
Beji, Kota Depok, Jawa Barat 16424, Indonesia
*Email: [email protected]
Abstract. In this study, the addition of carbon nanotubes (CNT) is a reinforcing material in the
composite material for epoxy resin and oil palm empty fruit bunches. The fiber form is variated
to chopped strand, chopped strand mat, and woven rovings. To obtain compatibility, CNT needs
to be given functionalization treatment. Covalent functionalization is carried out by the method
of mild acid oxidation with nitric acid and added hydrogen peroxide. Silane coupling agents are
used to strengthen the bonding of composite components. The results obtained from this study
were an increase in Young’s modulus of the composite material in the addition of CNT 0.5%
(mass%) and modification of woven rovings fibers by 10.98%, 38.90%, 62.29% relative to the
composite without CNT. Composite with 0.5% CNT and 40% woven rovings fiber have the
opportunity to be developed into a 6.80 GPa Young modulus bumper.
Keywords: Carbon Nanotube, Composite, Empty Palm Oil Fruit Bunch Fiber, Epoxy, Silane
Coupling Agent
Water absorption, density, strength, and elasticity module
of green composite material based on newspaper waste
and matrix of Garut umbi states (Maranta Arundinaceae
L.): effect of forming temperature waste
D U Azmi1, a, Sujito1, b, I Rofi'i1, c
1 Department of Physics, Faculty of Mathematics and Natural Sciences, Jember
University Kalimantan Street 37, Jember 68121, Indonesia
Email: a [email protected], b [email protected], c
Abstract. Green composite is a type of composite material whose entire constituent
components come from nature and can be degraded naturally. This material is expected to
reduce the impact of environmental pollution due to materials composed of synthetic
materials. The green composite marerial in this study uses arrowroot tuber starch and
newspaper waste. Arrowroot tuber starch has good mechanical properties and is expected
to improve the characteristics of green composite synthesis results. Meanwhile, newspaper
waste has a high holocellulose content which is expected to improve the mechanical
properties of the synthesized material. Green composite in this study was synthesized using
a hot pressed machine with several variations of pressing temperature. The pressing
temperature is an important process parameter that can improve the characteristics of the
green composite. There are four variations in pressing temperature used, namely 160oC,
170oC, 180oC, and 190oC. The synthesized material is then characterized to determine the
effect of pressing temperature on material characteristics. The synthesized material is then
characterized to determine the effect of pressing temperature on material characteristics.
The results showed the pressing temperature can affect the material characteristics. Material
density increases with increasing pressing temperature from 160oC-180oC, but decreases
at 190oC. The largest material density is (1.14 ± 0.06) g/cm3 at 180oC pressing temperature
and the smallest material density is (1.03 ± 0.03) g/cm3 at 160oC pressing temperature. An
increase in pressing temperature decreases the water absorbency of the material. The
highest material water absorption of (69.5 ± 0.7)% is at 160oC compression temperature,
while the lowest water absorption at (50.9 ± 1.4)% is at 190oC compression temperature. An
increase in pressing temperature of 160oC-170oC increases the tensile strength and modulus
of elasticity of the material, but decreases when the pressing temperature is 180oC-190oC.
The highest tensile strength and modulus of elasticity were obtained at 170oC compression
temperature of (9.04 ± 0.90) MPa and (120 ± 15) MPa, while the smallest tensile strength
and modulus of elasticity at 190oC was (4.0 ± 0.8) MPa and 76 ± 14 MPa. Based on SEM
test, the presence of voids and fiber deformation is influenced by the pressing temperature
during material synthesis.
Keyword: Garut umbi, absorption, tensile strength
Influence of groundnut shell ash on compressive and tensile
strengths of concrete
Samsunan1,*, I Y Salena1, Rosiana2 and Ruslaini2
1 Department of Civil Engineering, Faculty of Engineering, Teuku Umar University,
Alue Peunyareng street, Ujong Tanoh Darat, Meureubo, Aceh Barat, Aceh 23615,
Indonesia
2 Students of Civil Engineering, Faculty of Engineering, Teuku Umar University, Alue
Peunyareng street, Ujong Tanoh Darat, Meureubo, Aceh Barat, Aceh 23615,
Indonesia
*Email: [email protected]
Abstract. Research objectives are to determine the effect of groundnut shell ash used as partial
cement replacement on concrete compressive strength. Groundnut shell ash obtained from the
combustion results and passed sieve No. 200. Design mix is 21.7 MPa, with different variation
percentage of groundnut shell ash in the order of 0%, 5%, 7.5%, 10% and 12.5% as partial
replacement of cement for mixes. Total of 60 concrete specimens with 150 mm diameter and
height 300 mm long were cast and tested for compression and tensile strength in 14 and 28 days.
The result according to variations percentages in compression strength test on average at the age
of 14 were 18,495; 19,250; 20,382; 22,647 and 20,005 MPa. Whereas 28 days were 18,495;
19,250; 20,382; 21,703 and 22,741 MPa. The results in tensile strength at the age of 14
respectively were 2.218; 2,029; 1,746; 1,557 and 1,463 MPa and 28-day age concrete
respectively were 1,934; 2,029; 2,123; 2,029 and 1,840 MPa. The highest compressive and tensile
strength in days 14 were 22,647 and 2.218, and in days 28 were 22,741 and 2,123. It was observed
that the strength has increased and groundnut shell ash seems promising material in concrete
production.
Keywords: Groundnut shell ash, compressive strength, tensile strength and normal concrete
Development of Local Bioceramic Scaffolds for Bone Tissue
Applications
D Gustiono1*, N Herdianto1, M D Effendi1, S Roseno1, I M Ulfa1, W Rianti1,
Lukmana1 and F Mahyudin2
1 Centre for Materials Technology, Agency for Assessment and Application of
Technology, Gedung 224 Puspitek Tangerang Selatan, Banten, Indonesia
2 Orthopedic and Traumatology Department, Medical Faculty of Universitas
Airlangga/Dr. Soetomo Hospital, Surabaya, East Java, Indonesia
*E-mail : [email protected]
Abstract. Hydroxyapatite is the main constituent material of bone and teeth. In this paper,
hydroxyapatite powder material was made from local limestone with a simple chemical method.
The porous hydroxyapatite material is prepared by replica techniques using polymer sponges.
The characterization of this hydroxyapatite material is carried out by chemical, physical and
biological methods. The results of analysis using FTIR and XRD equipment showed that the
hydroxyapatite characteristics are similar to natural ones. The result of measurement with TEM
equipment shows that the invisible particles of this hydroxyapatite powder have a rod-like shape
and are about 30-60 nm in size. The porous hydroxyapatite materials made with replica
techniques revealed a pore size of about 200-500 µm and had good interconnections as
determinate by SEM measurements. Biological test results in rabbit animals show that the
implantation of this hydroxyapatite material can stimulate bone growth faster than if it is allowed
to grow alone (control). Bone ingrowth was significantly increase with time between 3 and 6
weeks.
Keyword: hydroxyapatite, powder material, bone ingrowth
Synthesis and Characterization of Hydroxyapatite
Bioceramics From Serai Snail Shells and Mangrove Crab
Shells in West Tanjung Jabung Beach: Effect of Milling
Process
R Utami1,*, D Gustiono2,*, M D Effendi2, S Roseno2, H D Fahyuan1, and Nasri
M Z3
1 Departement of Physics, Faculty of Science and Technology, University of Jambi, Jalan Jambi-Ma. Bulian KM 15, Mendalo Darat, Jambi 36361
2 Centre for Materials Technology, Agency for Assessment and Application of Technology, Gedung 224 Puspitek Tangerang Selatan 15314, Banten, Indonesia
3 Departement of Geophysics, Faculty of Science and Technology, University of
Jambi, Jalan Jambi-Ma. Bulian KM 15, Mendalo Darat, Jambi 36361
*Email: [email protected], [email protected]
Abstract. Hydroxyapatite (HA) is a calcium phosphate compound that is used as a substitute for
damaged body tissues, such as bone and dental implants. HA has been synthesized from the serai snail shells and the mangrove crab of west tanjung jabung, Jambi province using the dry method.
Calcination of the shell at 1000 °C for 12 hours produces CaO, then contact of CaO with air
produces Ca(OH)2 which is used as a source of calcium in HA synthesis. Milling time variations
for 0 hours, 3 hours, and 6 hours. Sintering at 600 °C for 2 hours produces HA as characterized
by using X-Ray Diffraction (XRD), Fourier Transform Infrared (FTIR), and particle size analysis using Particle Size Analyzer (PSA). HA which has the highest accuracy of lattice parameters is
that which is milling for 3 hours. The diffraction pattern shows the formation of the HA phase
accompanied by several other calcium phosphate phases at an angle of 2θ. The FTIR spectrum
shows the presence of PO43- and OH-groups from HA. PSA analysis shows the longer the milling
makes the smaller particle size.
Keywords: Serai snail shell, crab shell, hydroxyapatite, dry method, synthesis.
Performance Analysis of Newton-Raphson Power Flow
Computations Based on Power and Current Mismatches
L Hakim*, Khairudin, U Murdika, Z Huda and H Gusmedi
Department of Electrical Engineering, Universitas Lampung, Jalan Prof. Soemantri
Brojonegoro No.1, Bandar Lampung 35145, Indonesia
*Email: [email protected]
Abstract. This work studies the performance of single-phase power flow computations
implemented using vector-based Python scripting language. Two approaches are considered,
namely the current mismatch and power mismatch based on Newton-Raphson method. Both
approaches are developed using rectangular coordinates and tested through a variety of IEEE test
systems modelling high voltage transmission networks. The computational burden and accuracy
of both implementations are duly discussed. This work will be later incorporated into our vector-
based Non-linear Primal-Dual Interior Point Method as constraints.
Keywords: power flow, vector form, current mismatch, power mismatch, Newton-Raphson
Design and experiment Vortex Gravitation Turbine Model
Laboratory Scale
F A Herbhakti1, R Hantoro1,2
1Engineering Physics, Sepuluh Nopember Institut of Technology ITS 2Ocean Engineering, Sepuluh Nopember Institut of Technology ITS
Abstract. The vortex gravity system has a main component consisting of a tube which later
produces a whirlpool, and a water tank as the main source of water storage. When flowing water
into the tube, the water flow into the outlet hole in the tube and formed a whirlpool which is
continued back through the pipe to the water tank below. The outlet holes in the tubes have 4
sizes, 12, 9, 6, 3 cm in each tube size. The size of the tube has 3 sizes namely 35, 30, 25 cm. This
research is based on experimental tests to determine the performance of the flow at the diameter
of the tube outlet against the formation of a vortex on the vortex tube. From several studies that
have existed the type of outlet hole in this tube has not been thoroughly examined. From the
results of the expansion can be seen differences in the results of each size of the outlet hole in the
tube. So it can be seen from the test results that changing the size of the tube outlet, the
performance obtained is different. Given this problem, this study was conducted with the aim of
obtaining performance and efficiency in the vortex air outlet tube. The vortex system on a
laboratory scale, looking at previous studies varying the diameter of the vortex tube and the outlet
tube of the tube, this study examines the effect of the difference (ratio) on the diameter of the
vortex tube and the outlet hole of the tube. Experimental results show that the velocity has
increased in the 35 cm diameter tubes and fluctuations in the 30 cm and 25 cm diameter tubes.
The ups and downs in the velocity are caused by the available energy in the flow of water being
extracted after hitting an outlet hole in the vortex tube. The velocity graph in the test shows that
the highest velocity occurs in the 30 cm diameter tube
Keywords: Vortex tube diameter, tube outlet hole, whirlpool.
Comparison Study of Cross – Organizational Cultural Between
Public University Institution and State-Owned Company in
Indonesia
R O Cahyaningsih1 and A Sudiarno2
1,2 Departement of Industrial Engineering, Institut Teknologi Sepuluh Nopember, 60111
Surabaya, Indonesia
Email : [email protected], [email protected]
Abstract. One of the proponents of economics power is the success of business, the achievement of
targets in workplace. The presence of generation millennials in majority and the increasingly rapid
use of technology in Industrial Era 4.0 will have an impact on organizational culture in the workplace.
This study aims to examine the cross organizational cultural in both institutions Public University
and State-Owned Company to analyze the organizational culture modelling its significant influence
on organizational performance. The analysis results of cross organizational culture modelling to
formulate recommendation for the application of organizational culture in Public University consists
of system values, attitudes, norms, and behavior. The conceptual modeling that used in this study
consisted of six latent variables related to organizational culture and generation millennials with two
mediating variables can significantly influence Organizational Performance. This model is then
tested using the Structural Equation Modeling (SEM) method. The results show that on the object of
Public University all variables have a significant effect, except for one insignificant variable:
Transformational leadership on Organizational Citizenship Behavior. Meanwhile, State-Owned
Company all variables have significant influence, except for 3 variables: Transformational leadership
on Organizational Citizenship Behavior, as well as Transformational leadership and Organizational
citizenship behavior on organizational performance.
Keywords: Organizational Performance, Cross-Organizational Cultural Modelling, Organizational
Culture, Structural Equation Modeling (SEM)
An Application of Fuzzy Shortest Path for Designing Public
Transportation Route (A Case Study in Yogyakarta,
Indonesia)
I Rosyida1,*, Sugiyanto2, T S N Asih1, S B Waluya1
1 Department of Mathematics, Faculty of Mathematics and Natural Sciences,
Universitas Negeri Semarang, Kampus Sekaran, Semarang 50229, Indonesia
2 Department of Mathematics, Universitas Islam Negeri Sunan Kalijaga, Yogyakarta,
Indonesia
*Email: [email protected]
Abstract. Bantul Regency is one of the regions that became popular in Yogyakarta Special
Region Province (YSR/DIY). There are many tourism sector in Bantul, therefore it became a
favorite destination for tourists not only from Java but also from other islands in Indonesia. Public
transportations have become a necessity in Bantul because the condition is more crowded,
especially during the holiday season. We propose Trans Bantul buse routes which connects
districts in Bantul. A route between two places contains indeterminate parameters, such as
distance, time, and cost. Therefore, it is suitable to represent the route in a fuzzy network,
especially fuzzy weigthed network. In this research, we design a computation of finding fuzzy
shortest paths for route of “Trans Bantul” bus. Firstly, we present the distances between two
places in triangular fuzzy numbers. Then, the method used for finding the shortest paths is a
combination between Chuang-Kung algorithm and Yadav-Biswas algorithm. Lastly, the crisp
value of shortest distance is obtained using graded mean value. Our results show that we may
apply three routes, i.e: route 1 from “Giwangan” bus station to “Baru beach” with shortest
distance 30.8 Km; route 2 from “Giwangan” bus station to “Parangtritis” bus stop with shortest
distance 26.8 Km; and route 3 from “Giwangan” bus station to Dlingo district with shortest
distance 20.8 Km.
Keywords: Chuang-Kung algorithm, Yadav-Biswas algorithm, fuzzy weighted network,
transportation, fuzzy shortest path.
A Combination Among Fuzzy Graph, Fuzzy Chromatic
Number, and Fuzzy Inference System for Traffic Light
Assignment
I Rosyida1,*, Nurhaida2, A Narendra3 and Widodo4
1 Department of Mathematics, Faculty of Mathematics and Natural Sciences,
Universitas Negeri Semarang, Kampus Sekaran, Semarang 50229, Indonesia
2 Department of Civil Engineering, Faculty of Engineering, Universitas Negeri
Semarang, Kampus Sekaran, Semarang 50229, Indonesia
3 Department of Mathematics, Faculty of Mathematics and Natural Sciences,
Universitas Papua, Jalan Gunung Salju Amban, Manokwari, Papua Barat, Indonesia
4 Department of Mathematics, Faculty of Mathematics and Natural Sciences,
Universitas Gadjah Mada, Jl. Sekip Utara, Yogyakarta, Indonesia
*Email: [email protected]
Abstract. Conventional traffic arrangements with fixed phases and static timing of green lights
may potentially cause a heavy traffic jam particularly in peak time at densely populated regions.
Since there are indeterminate phenomena in conflicting movements, we offer a fuzzy graph
model to describe traffic flows on an intersection. We design an algorithm which the steps are as
follows. Firstly, we represent traffic flows as vertices and conflicting traffic flows as edges of
the fuzzy graph. We assign a degree of membership on each edge that represents a degree of
conflict between two vertices. Two vertices connected by an edge mean that the flows are in
conflict and should be assigned in different phases. Secondly, we determine minimum number
of phases needed on the intersection through fuzzy chromatic number which produce fuzzy phase
scheduling with respective degree of safety. Lastly, we calculate duration of green lights using a
Mamdami-FIS by setting queue length of flows in a phase scheduling as the inputs, creating fuzzy
rules, and duration of green light as the output. We evaluate the algorithm through two case
studies on signalized intersections at Semarang City (Indonesia) and compare the results to the
existing system. The case study shows that the number of phases suits the traffic intensities
(volumes) and the proposed algorithm can reduce cycle time of the traffic light and meets the
standard cycle time compared with the existing system.
Keywords: Fuzzy graph, fuzzy chromatic number (FCN), fuzzy system, phase, traffic light,
Mamdani-FIS
Evaluation of Space Utilization in Vertical Residential Complex in
Jakarta
H Anggrahita, Guswandi, F S Lubis, R Auni, M H Dewi
Email: [email protected], [email protected],
[email protected], [email protected], [email protected]
Abstract. The rapid growth of cities, including Jakarta, encourages the conversion of non-built- up
areas into built-up ones. It can threat their sustainability. To overcome a decreasing trend of green
open space, Government of Jakarta (GoJ) has established a policy stipulating that urban areas must
have at least 30% green open spaces. Therefore, vertical residential complex can be a solution to
reach it especially in Simple and Low-Cost apartment buildings (Rusunawa). Based on previous
issues, this paper analyses their surface, whether it reaches the regulation or not. Moreover, this
paper identifies factors influencing the surface. We study 10 Rusunawas in Jakarta. Then, we
conducted descriptive spatial analysis through the interpretation of high-resolution satellite
imagery to find patterns of open space use in the Rusunawas. The findings are that: in average, the
surface of green open space is 16% of total surface of Rusunawa and the only one is in accordance
with the regulation (34%), indicating difficulties to meet the regulation. Based on the interview
with the management of Rusunawa, the findings are that: land supply is limited; on other side,
demand for housings is high. To solve this problem, innovative solutions are needed to increase
green open spaces both horizontally and vertically
Keyword : Green open space, space utilization, simple and low-cost apartment, Rusunawa, Jakarta
A Case Study Analysis on the Role of Value Management in
the Construction Industry and the Philippines in Managing
the Design
R C D Laqui 1, G N Legaspi 1, M J M Meris 1, and D L Silva 1,*
1School of Civil, Environmental, & Geological Engineering Mapúa
University, Muralla St. Intramuros, Manila 1002, Philippines
*Corresponding E-mail: [email protected]
Abstract. Value management has not gained popularity among construction firms
throughout the world. The study aims to evaluate the role of value management and the
advantages that it gives in the construction industry, particularly the adaptation in the
Philippines. A literature review was applied to the advantages and challenges of value
management. Besides, a multiple case study analysis was conducted on how different
countries have adapted value management. A questionnaire survey was used to, determine
the challenges in the adaptation of value management, determine the measures to improve
job performance obtained from applying value management and determine the benefits of
value management in managing the design which was analyzed using Mean Item Score and
Ranking. The results were used to compare the role of value management method practice
in private company contractors and government contractors using Spearman’s Correlation
Test and Hypothesis Testing. The involvement of the respondents in the use of VM was
46% and 70% of the respondents from the private and public contractors, respectively,
showed that there is a healthy use of the method. Moreover, upon the utilization of
Spearman’s correlation and hypothesis testing, it revealed that private and public
contractors do not see these challenges in adapting value management, the measure to
improve job performance in the adaptation of VM is seen effectively by both private and
public contractor. The benefits of VM are significant to both of the private and public
contractors.
Keywords: Value Management, Methodology, Cost Overrun, Sustainability, Cost
Management
Comparison Study of PHBA-intercalated Mg/Al-LDH and
PHBA-immobilized Mg/Al-LDH: Characterization and
Application for [AuCl4]̄ Removal from Solution
L A Hasnowo1,*, S J Santosa2, and B Rusdiarso2
1 Department of Nuclear Chemical Engineering, Polytechnic Institute of Nuclear
Technology, Yogyakarta, Indonesia
2 Department of Chemistry, Faculty of Mathematic and Natural Science, Universitas
Gadjah Mada, Yogyakarta, Indonesia
*Email: [email protected]
Abstract. Synthesis of p-hydroxybenzoic acid (PHBA)-intercalated Mg/Al-LDH and PHBA-
immobilized Mg/Al-LDH have been conducted. PHBA-intercalated Mg/Al-LDH hybrid was
synthesized by co-assembly process of Mg/Al-LDH nanosheets and PHBA anions. PHBA-
immobilized Mg/Al-LDH was prepared by indirect synthesis, where PHBA anions were attached
on surface of the Mg/Al-LDH material. Characterization by X-ray Diffraction showed that the
PHBA-intercalated Mg/Al-LDH hybrid has the lattice parameter of a=3.02 Å, lattice parameter
of c=46.77 Å and basal spacing d003=15.14 Å, where PHBA has been intercalated in interlayer
of the hybrid. The PHBA-immobilized Mg/Al-LDH has lattice parameter of a=3.06 Å, lattice
parameter of c=23.70 Å and basal spacing d003=7.90 Å. The analytical result confirmed that
PHBA has been attached on surface of the hybrid for PHBA-immobilized Mg/Al-LDH. The
optimum 10 mL of [AuCl4]‾ 100 mg L-1 removal condition of both hybrids were reached at pH
1. The optimum interaction time of [AuCl4]‾ and PHBA-intercalated Mg/Al-LDH hybrid was
250 minutes, respectively, while that for [AuCl4]‾ and PHBA-immobilized Mg/Al-LDH was 150
minutes. Removal of [AuCl4]‾ by PHBA-intercalated Mg/Al-LDH hybrid followed pseudo second order kinetic, whereas by PHBA-immobilized Mg/Al-LDH followed pseudo first order
kinetic. Characterization using stereo photomicroscope confirmed that [AuCl4]‾ could be reduced
to Au metal by both hybrids.
Keywords: Layered double hydroxide, p-hydroxybenzoic acid, hybrid material, [AuCl4]‾
removal
Comparative analysis of compressive strength of oyster
shell used as partial substitute for fine aggregate and for
cement in concrete
C N G Cruz, J A G F Reyes, R N Tumbokon
School of Civil, Environmental, & Geological Engineering Mapúa University,
Muralla St. Intramuros, Manila 1002, Philippines
Abstract. Over-reliance on natural resources are becoming a problem in the Philippine
due to the ongoing construction and development in the country. Thus, recycled materials
from industrial wastes and byproducts were utilized as replacement material to an
environmental-friendly construction material. A hopeful solution to the challenge of oyster
shell waste management is to utilize the oyster shells as a construction material in concrete.
Experimental researches were conducted on the use of oyster shell partial replacement
materials in concrete. The oyster shells have been used as partial replacement of fine
aggregate at the rate of 0%, 5%, 10%, 15%, 20%, 25% and cement in concrete at the rate
of 0%, 5%, 7.5%, 10%, 15% and 20%. This research is a comparative analysis of
compressive strength of oyster shell used as partial substitute for fine aggregate and as
partial substitute for cement in concrete based on the published experimental studies. The
paper includes the physical and mechanical properties of the oyster shell as partial
replacement for fine aggregate and cement on concrete and undergone curing days of 3, 7,
14 and 28 days. Various statistical model was used for the predictive analysis. Linear
regression models were used to show the significant difference of the substitution rate of
the Oyster shell as partial fine aggregate and cement to the compressive strength and
workability of the concrete. ANOVA (analysis of variance) were also used to determine
whether there are any statistically significant differences to the substitution rates of oyster
shell as partial fine aggregate and cement in concrete between the compressive strength
and workability of the concrete. The statistical model shows that the partially replaced
concrete is not far different from a normal concrete. The research concludes that oyster
shell has a potential to become an alternative sustainable construction material in concrete
with maximum fine aggregate replacement of 30% concrete pavement blocks to 374.58
psi which is 41% increase comparing to normal concrete with the compressive strength of
265.83 psi and at a minimum percentage of 7.5% as cement the concrete sample achieved
70.44 with a decrease in compressive strength by 3%.
Keyword: compressive strength, oyster shell, fine aggregate
Hydrological modelling of Air Bengkulu watershed,
Indonesia, by HSS and HEC-HMS model
G Gunawan1 *
1 Department of Civil Engineering, Faculty of Engineering, University of Bengkulu,
Jalan W.R. Supratman No. 1 Bengkulu 38122, Indonesia
*Email: [email protected]
Abstract. The Peak discharge is data that is needed in planning and managing water resources.
The method for calculating the peak discharge is very diverse, so it is necessary to choose the
most appropriate method according to the conditions of the watershed. The purpose of this study
is to test various reliable estimation methods of the Bengkulu River Basin and to compare the
peak discharge values obtained from each method. The peak discharge will be calculated using
the synthetic unit hydrograph (HSS) method ITB 1, Nakayassu, Snyder and HEC-HMS. From
the results of the calculations that have been done, it is known that the peak discharge values in
the Bengkulu watershed using the HSS ITB 1, Nakayassu, Snyder and HEC-HMS methods
produce different values. This difference is caused by the different parameters used in calculating
the reliable discharge even though the input data are both rainfall. The conclusion of this study
is that the selection of a reliable discharge calculation method in a watershed is very important.
Keywords: synthetic unit hydrograph, ITB-1, Nakayasu, Snyder, HEC-HMS
Partial Discharge Type Detection and Identification Based on
Its Sources
R W Putra1, H H Sinaga1*, N Purwasih1, D Permata1, Y Yuniati1 and H B H
Sitorus2
1 Department of Electrical Engineering, Universitas Lampung, Jalan Prof. Soemantri
Brojonegoro No.1, Bandar Lampung 35145, Indonesia
2 Department of Electrical Engineering, Universitas Pembangunan Nasional Veteran
Jakarta, Jalan RS Fatmawati, Cilandak, Kota Jakarta Selatan, DKI Jakarta 12450,
Indonesia
*Email: herman.h.sinaga @eng.unila.ac.id
Abstract. Partial discharge (PD) is a symptom of initial damage to high voltage equipment
insulators which if left for a long period will cause total damage to high voltage equipment. This
study aims to detect and identify the type of PD based on the source of its discharge so that it can
be useful in terms of monitoring and maintenance of high voltage equipment. In this research, the
Hilbert fractal antenna sensor is used in the detection process of surface, cavity, and corona PD
with different input voltage variables that successfully produce a total of 600 PD signaldata on
the oscilloscope. To reduce noise on the PD signal, the denoising process is done by utilizing the
sym4 wavelet feature found in the MATLAB software. The denoising process generates new data
so that the research data becomes 600 original PD signal data and 600 denoising PD signal data.
With a statistical approach, all PD signal data is extracted successfully into the mean, skewness,
kurtosis, and standard deviation parameters which are useful as input for the PD type
identification process. From each of the PD signal statistical data, 450 data are used in the training
data process and 150 data are used in the data testing process. The PD type identification process
is performed using a back propagation neural network with a mean square error (MSE) level of
0.01. The identification results show that back propagation neural networks are able to identify
PD types based on statistical input accurately. In addition, the denoising process also affects the
accuracy of the identification results of the PD type that is 95.33% for the original discharge
signal to 97.33% for the denoising signal.
Keywords: Partial discharge (PD), PD identification, Hilbert fractal antenna, Back Propagation
Partial Discharge Localization in Power Transformers Using
Fractal Hilbert Sensor
H H Sinaga1*, Y Yuniati1, N Purwasih1, D Permata1 and H B H Sitorus2
1 Department of Electrical Engineering, Universitas Lampung, Jalan Prof. Soemantri
Brojonegoro No.1, Bandar Lampung 35145, Indonesia
2 Department of Electrical Engineering, Universitas Pembangunan Nasional Veteran
Jakarta, Jalan RS Fatmawati, Cilandak, Kota Jakarta Selatan, DKI Jakarta 12450,
Indonesia
*Email: herman.h.sinaga @eng.unila.ac.id
Abstract. Partial discharge (PD) is a symptom of insulation defect or degradation in high-voltage
equipment. Thus, the PD detection is an important diagnostic tool to asses the condition of the
insulation equipments. Apart of PD detection, knowing the PD location on power transformer
will help engineer to determine the severity of the PD events. The location of a PD event inside
a power transformer tank can be find out from the time differences of arrival (TDOA) between
waveforms that are captured by an array of the electromagnetic sensors. The PD location thus
can be calculated using geometric triangulation technique which involves solving a set of non-
linear equations. This can be achieved using an efficient software realization of the maximum-
likelihood estimator. The recorded PD waveforms are affected by the type of sensor used to
capture PD signals. In this paper, the accuracy of the PD localization using different sensors is
investigated. Fractal Hilbert sensors are used to capture the electromagnetic signals emitted from
a PD source. The TDOA is calculated using two methods, i.e first peak and cross-correlation.
The localization result shows the PD signals captured by the fractal sensor can be used to
determine the PD location. The first peak method produces higher accuracy result than the cross-
correlation method.
Keywords: Partial discharge location, fractal Hilbert sensor, waveforms first peak, waveforms
cumulative energy
Identification of Musculoskeletal Complaints on Noken Papua
Craftsmen
S N Kayatun1*, H Purnomo1, F Kurnia2,, and Masniar3
1 Department of Industrial Engineering, Faculty of Industrial Technology, Universitas
Islam Indonesia, Jalan Kaliurang Km. 14,5 Yogyakarta 55584, Indonesia
2 Department of Industrial Engineering, Faculty of Engineering, Universitas
Proklamasi 45, Babarsari, Yogyakarta, 55281, Indonesia
3 Departemen of Industrial Engineering, Faculty of Engineering, Universitas
Muhammadiyah Sorong, Jalan Pendidikan no. 27 Sorong 98416, Indonesia
*Email: [email protected]
Abstract. Efficiency and productivity are closely related to occupational health and safety. Thus,
very important to pay attention on it. Work accidents often occur caused by human error. In this
case, an evaluation related to the risks that occur in Papuan noken craftsmen. This risk will have
an impact on musculoskeletal complaints due to the body position are not ergonomic and carried
out monotonously. The work of weaving the noken is done by sitting and bending the body and
neck. This body position that happened for a long time can caused injury back and neck muscles.
The research used the Rapid Upper Limb Assessment (RULA) as the method. The research
samples consisted of 10 noken craftsmen in Sorong City, Papua. The results found that a high
level of risk with an action score level 5, which needs to be investigated and corrected
immediately. Repairs are carried out based on 3 things such as providing work breaks, facility
layout, and designing work chairs that are tailored to the needs.
Keywords: Noken, Musculoskeletal, Disorders, RULA
Analysis of Optimum Tuned Mass Damper to Reduce Vibration
Response by Using Genetic Algorithm
D Suryati, A Pratama, A A Prasetya, N Daratha, and I Agustian
Email: [email protected], [email protected], [email protected],
[email protected], [email protected]
Abstract: The destruction of the structure due to seismic loads is the main focus that supports
researchers to conducted research on the damper system in the structure. At this time, the damper
system developed is a damper system that can be applied to new structures that will be created and
the structures that have been made before. The damper system was called tuned mass damper.
Tuned mass damper is damper system on structure by adding the inertial element, such as mass
and stiffness to the main structure. In this study, modeled of the damper system (tuned mass
damper) was performed on the structure by varied the value of the TMD ratio from the value of
the main structure parameter by using genetic algorithm. Modeling the structural damper system
in this study is to obtain a dynamic response graph of structures without TMD and structures with
TMD. As a result, variations in the value of the TMD ratio with the same percentage values of Md
and Kd obtain a small maximum amplitude with a large percentage reduction value. The value of
Md 20% and Kd 20% shows the smallest maximum amplitude value and the largest reduction
percentage. The value of Md 18% and Kd 12% shows the time to reach the fastest steady state
condition in this study. The aspect of the effective reduction by the system with TMD is by
observing the maximum amplitude value in the main structure which is relatively small.
Keyword : seismic load, damper system (tuned mass damper), maximum amplitude, genetic
algorithm
Comparative study of single and double pass solar PV/T air
collectors integrated with rectangular plate fin absorber
Amrizal1,*, Yandi Permana H2, Muhammad Irsyad3
1 Department of Mechanical Engineering, Faculty of Engineering, Universitas Lampung, Jl.
Prof. Soemantri Brojonegoro No. 1, Bandar Lampung, Indonesia
* Email: [email protected]
Abstract. Solar panel is a device that can convert solar energy into electrical energy. Nevertheless,
not all of the solar energy received on this device can be converted into the electrical energy and the
remainder will be dissipated into thermal energy. If the solar panel is continuously exposed to the
sun, so its temperature will increase and thereby reduce its electrical efficiency. To deal with the
issue, it may combine a PV panel with a thermal collector which is better known as a PV/T
collector. Furthermore, the effects of air flow direction and mass flow rate on the performance of
PV/T air collectors are extensively analyzed. Single and double pass collectors with the rectangular
plate fin absorber were attached back of the PV panel. They were tested using a solar simulator with
various air mass flow rate ranges from 0.01-0.05 kg/s. The results show that the use of double pass
PV/T air collector increase electrical efficiency compared with the single pass one. The highest
values obtained from both thermal and electrical efficiency with the mass flow rate of
0.048 kg/s are found to be 73.23% and 10.16% respectively.
Keyword : Single, double, pass, PV/T, air, collectors
Challenges in Operation and Maintenance of Low-Voltage
Networks Owned by A Medium-Voltage Customer in
Indonesia (Case Study: University of Bengkulu)
N Daratha1, A Herawati1, I N Anggraini1, M K A Rosa1, A Nuramal2, M Islam2, Y
Setiawan2, and S Sudjatmiko2
1 Department of Electrical Engineering, Faculty of Engineering, The University of
Bengkulu, Jl. W.R. Supratman, Kandang Limun, Bengkulu 38371, Indonesia
2 The University of Bengkulu, Jl. W.R. Supratman, Kandang Limun, Bengkulu 38371,
Indonesia
*Email: [email protected]
Abstract. This paper reports challenges in operation of Low-Voltage (LV) networks experienced by a
medium-voltage (MV) Customer. The customer must operate four LV networks and 58 buildings. It
faces many challenges related to operation of LV networks.These challenges are categorized into
three type based on the proximity to asset management, behavior of the networks and their users, and
characteristics of natural and built environment. LV networks are mainly owned and operated by a
utility not an MV customers. Hence, publications from the perspective of a customer are very limited.
This paper lists some of these challenges and possible solutions available in the literature.
Keywords: Low Voltage Distribution Network, Assets Management, Single Line Diagram, Energy
Consumption Forecasting, Phase Balancing
Realtime Obstacle Detection Based on Raspberry Pi 3 Using Hough
Transform Method
T Muthia1, H A Mahmud1, F X A Setyawan1, S R Sulistiyanti1,*, and S Purwiyanti1
1 Department of Electrical Engineering, Faculty of Engineering, Universitas Lampung,
Bandar Lampung, Indonesia
*Email: [email protected]
Abstract—The development of digital image processing technology which is growing rapidly is
expected to facilitate human life in various aspects of life. This study aims to produce and analyze a tool
that is able to detect the presence of a Obstacle in real-time using the Python programming language
version 3.5.3 and the OpenCV library version 3.4.4 with image processing. Image processing techniques
used to detect Obstacles are using LUV, Thresholding, Morphology, Contours, and Hough Transform
methods. Hough transform is used to detect and count the number of lines in an image that is processed.
This study uses boxes and spheres as objects to determine the presence of obstructions from an image
captured through an Avi format camera. In this study data collection was carried out with an intensity
of 0.4 lux, 1.8 lux, 8.8 lux, and 14 lux this was done to determine the appropriate intensity for the system
to work effectively. An object can be detected if in an image there is a broken laser line so that counted
2 or more lines. However, if there is an unbroken line in an image, then the image does not detect a
Obstacle. Good light intensity to detect obstructions is when the light intensity is 0.4 lux with a
percentage of success of 100%. The average time needed for the system to detect a Obstacle is 1.8875
seconds at the start of detection while after detection it requires a delay of 2.33875 seconds. The
percentage accuracy of the distance calculation with the distance when data collection is above 96.56%.
Keywords—Line laser, Image Processing, Obstacle Detection, Real-time
Design of Dynamic Evolution Control for maximum power point
tracking techniques in Solar Photovoltaic Systems
A S Samosir, F R Priyana and D Despa
1 Department of Electrical Engineering, Faculty of Engineering, Universitas
Lampung, Bandar Lampung, Indonesia
* Email: [email protected]
Abstract. This paper presents a design of Dynamic Evolution Control for Maximum Power Point
Tracking Techniques in Solar Photovoltaic Systems. An approach for synthesis of converter
controller based on dynamic evolution control theory presented. In order to embed the MPPT
algorithm to the converter controller, a simple analysis of non-linear equation models of the
converter is used. Synthesis of MPPT controller based on the dynamic evolution control method is
discussed in detail. Performance of the proposed dynamic evolution control is verifying through
MATLAB-SIMULINK simulation system.
Keyword. Dynamic evaluation control, tracking, solar photovoltaic system
The Proof-of-Concept of Green Cooling Production with a Solar-
Assisted Adsorption Cycle Prototype
N Sugiartha1,*
1 Politeknik Negeri Bali, Jimbaran, Kabupaten Badung, Bali, Indonesia
* Email: [email protected]
Abstract. The adsorption cycle is a reversible solid-gas process of adsorbent and refrigerant,
which requires thermal energy as the primary driver to gain a cooling effect. Solar energy is a
promising heat source for the adsorptive cycle as its nature is clean, free and renewable. This paper
presents a developed prototype as a proof-of-concept of the solar-driven adsorption cycle for
cooling production with no demanded electricity. The prototype worked intermittently and the
cooling effect produced during the night-time. The main components of the prototype composed
of an adsorber/collector, a condenser, and an evaporator. The adsorber/collector was a greenhouse
box type. The air-cooled condenser used a natural airflow. The evaporator was located inside the
cold box. The prototype employed an environmentally friendly working pair, i.e., the adsorbent of
activated carbon and the refrigerant of ethanol. The run test of the prototype was conducted outdoor
with the sun exposure. The results show that the cooling process occurs on the evaporator surface
and the surrounding air in the cold box with the lowest temperatures are at 16.2 ⁰C and 18.7 ⁰C,
respectively. Furthermore, the developed prototype can contribute to green energy innovation for
food chain applications, such as post- harvest agricultural products storage.
Keyword : solar energy, adsorption cycle, cooling, intermittent
Vibration Analysis of Composite Internal Door Panel of a
Car using FFT Analyzer
R V Deshmukh1,* and T Y Badgujar1,*
1 Late G. N. Sapkal College of Engineering, Savitribai Phule Pune University,
India
* Email: [email protected], [email protected]
Abstract—Present research investigates the mechanical conduct and vibration examination of
bamboo fiber-based polymer composite bar structures. Bamboo fiber is used for some
applications because of light weight, short development cycle and high accessibility. In this
work, the bamboo fiber composite material is used as internal door panel of a car and the static
structural Finite Element Analysis (FEA) of the same is performed. The objective of the present
study is to develop a suitable model to conduct a static structural analysis and compare the
performance of Bamboo fibre material with existing materials of internal door panel. CATIA
software is used to model the internal car door panel, while FEA is performed using ANSYS
Workbench 19.0. The finding of the present study is experimentally validated using FFT
analyzer.
Keywords— Bamboo fiber, Door panel, Equivalent stress, Finite Element analysis, FFT
analyzer.
Optimization of X-Ray Parameter Monitor Wireless System
Based on Internet of Things
A B Triani 1, S Budiyanto2, A Adriansyah3, and M Alaydrus4
1,2,3,4 Department of Electrical Engineering, Faculty of Engineering, Universitas Mercu
Buana, Jakarta, Indonesia
Email : [email protected]
Abstract. The purpose of this research is to develop a non-invasive x-ray suitability test device
with an internet of things, based monitoring system as an interface connection. The development
in question is the addition of a graphical user interface to the x-ray suitability test prototype
design, in the form of an application using internet of things technology. Testing is done by
measuring the value of the kilovolt and millisecond parameters on the general x-ray. The result
data will be compared with the x-ray calibrator reference value. The average of percentage error
voltage and time value is almost 99.50 %. The average of percentage accuracy voltage and time
value not less than 3%. It is generally concluded that this equipment has good results from the
tested calibrator results.
Keywords: x-ray suitability test, Internet of Things (IoT), development software.
Logistics Service Process and Attribute in Container Shipping
Companies
Y Sumantri1*
1 Department of Industrial Engineering, Faculty of Engineering, Universitas
Brawijaya, Jalan MT. Haryono No. 167 Malang 65145, Indonesia
*Email: [email protected]
Abstract. The success of container shipping companies in operating their business is one of the
driving factors for the economy in maritime countries. Studies on logistics service processes and
attributes in this industrial sector are critical and necessary. However, there are not many studies
that address this topic. This study is directed to investigate the container shipping industry sector.
Specifically, this study aims to investigate the flow of documents in the export and import process,
assess the logistics service attribute of container shipping companies, and investigate the
constraints faced by the industrial sector. This research takes a case study in East Java because this
region has many container shippings companies. This study was conducted through a series of
observations in the field, distributing questionnaires, and in-depth interviews with related
stakeholders. From the results of the study conducted, it is found that there are nine logistics
service attributes that are considered important by container shipping company customers,
including 1) reliability of transportation facilities; 2) customer clearance; 3) tracking and tracing;
4) punctuality; 5) speed of service; 6) condition of goods; 7) responsiveness; 8) coverage of
services; 9) cost of services. From the nine logistics service attributes that are considered
necessary, the attributes that need to be prioritized for improvement are 1) speed of service; 2)
responsiveness; and 3) coverage of services. In carrying out the shipping process, container
shipping companies have several obstacles, including 1) lack of coordination between the
container shipping company and related parties; 2) the occurrence of delays in document
processing; 3) the time of arrival of the ship is less precise than the estimated time of arrival of
the ship; 4) some items do not match the documents. The output of this study is used as an
evaluation material for the container shipping industry sector.
Keywords: Logistics Service Process, Logistics Service Attribute, Container Shipping Company
Obtaining functional gradient coatings based on Al2O3 by
detonation spraying
B K Rakhadilov1,2, Z B Sagdoldina1, R S Kozhanova2 , M K Dautbaev2 and
M Maulet1,*
1 Scientific research center «Surface engineering and tribology», Non-profit limited
company «Sarsen Amanzholov East Kazakhstan University», 30 Gvardeiskoi divisii
No. 34, Ust-Kamenogorsk 070020, Kazakhstan
2 PlasmaScience LLP, Serikbaeva No.37, Ust-Kamenogorsk 070010, Kazakhstan
*Email: [email protected]
Abstract. The article deals with the phase composition and hardness of Al2O3 coatings
obtained by detonation spraying. It was found that a decrease in the delay time between
shots is leading to an increase in the hardness and elastic module of Al2O3 coatings. It
was found based on X-ray diffraction analysis that the main reason for the increase in
hardness with a decreasing in the delay time between shots is associated with increases
in the volume fraction of α- Al2O3 phase. The studies of X-ray diffraction presented that the highest phase content is achieved when the coatings are formed with a delay
time between shots of 0.25 sec. It was found that increase in the volume fraction of the
α-Al2O3 phase is caused by the secondary recrystallization γ → α, which occurs due to the heating of particles during coating formation, i.e. due to increase in temperature above 1100 ºС in single spots of the coating when they are put each other.
Keywords: detonation spraying, aluminum oxide, coating.
Concentration profile and water level effect to the evaporation
using a diffusion approach in spent nuclear fuel storage pool
T Sundari1,2,* and A Wahid1
1 Sustainable Energy Research Group, Chemical Engineering Department, Faculty of
Engineering, Universitas Indonesia, Jl. Margonda Raya, Pondok Cina, Kecamatan
Beji, Kota Depok, Jawa Barat 16424, Indonesia
2 Center for Radioactive Waste Technology, National Nuclear Energy Agency of
Indonesia (BATAN), Gd. 50 Kawasan Puspiptek Serpong, Tangerang Selatan 15310,
Indonesia
*Email: [email protected]
Abstract. This paper demonstrates steady state diffusion of water-air interface in a spent nuclear
storage pool. A numerical method, 4th order Runge-Kutta was used to describe the concentration
profile of water and air over a spent nuclear fuel storage pool column to the top of the pool. A
prediction of water evaporation rate then can be explained as a diffusion model through a
stagnant gas film. Effect of the water level can be explained then. For various distance of the
water to the pool top at constant water temperature and constant air temperature shows that
evaporation rate is decreasing while distance of the water to the pool top is increasing. The closer
of liquid-water surface to the gas-air flow, the greater evaporation rate that occurs. This approach
can be applied in spent nuclear storage pool which has an abundant amount of water, the water
temperature is remaining constant by operation of water-cooling system, the air temperature,
pressure and relative humidity are remaining constant by operation of ventilation and air
conditioning (VAC) system that those conditions are stated as normal operation.
Keywords: Concentration profile, water level effect, evaporation, spent nuclear fuel
Identifying Association between Fire Hotspots Distribution
and PM10 during 2019 peatland fire episode in South Sumatra
Province, Indonesia
N K Sari1*, R Putra1, T K Nufutomo 1, Y Lisafitri 1 and A Zurfi 1
1 Environmental Engineering Study Program, Institut Teknologi Sumatera, Jalan
Terusan Ryacudu, Desa Way Hui, Kecamatan Jatiagung, South Lampung 35365,
Indonesia
*Email: [email protected]
Abstract. Exposure to air pollution from peatlands fires affects to serious problems. Peatland
fires occurred frequently and emitted particulates in some areas in Indonesia, such as South Sumatra Province. Fire hotspots were commonly detected in several areas, notably during the
dry season. Objective this study aims to elaborate on the association between fire hotspot and
PM10 spatially and its probability based on PM10 concentration during the peatland fire episode
(June to October 2019). The PM10 concentration, meteorological data (wind direction and wind
speed), and fire hotspots data had been collected. To address fire hotspot distribution from
peatlands fire and large scale of wind direction in South Sumatra, the geospatial analysis was used meanwhile metrological and PM10 concentration data were analyzed using RStudio by
windrose and CBPF method. The provided PM10 concentration data had violated national
ambient air quality standards for 11 days while the fire hotspots area was distributed dominantly
in OKI (Ogan Komering Ilir) Regency. CBPF result and spatial analysis were the most probable
sources likely coming from South East to East direction, which was predicted from OKI Regency with >50% of total hotspots area. The study shows a good probability (0.6) that the prediction of
fire hotspots in OKI Regency contributed spatially and statistically to PM10 concentration for
receptor location in Palembang City.
Keywords: Peatland Fire, PM10, Fire Hotspots, South Sumatra Province.
The effect of the nutritional of TEM (Tauge Extract Media)
and Conwy on increase protein and carbohydrate in
microalgaes Tetraselmis chuii contents
N A Bangun1 and E Purba1,*
1 Chemical Engineering Lampung University, Jl. Prof. Dr. Soemantri Brojonegoro
No. 1, Gedong Meneng, Bandarlampung, Indonesia, 35415
* E-mail: elida.purba@eng. unila.ac.id
Abstract.This research is about increasing protein and carbohydrate in microalgae Tetraselmis
chuii by adding bean sprout (Tauge) Extract Media (TEM) and Conwy. Culturing was carried
out on a photobioreactor with a size of 3 liters of culture and controlling with 2 liter/minute CO2
gas. Light intensity was kept constant at 4000 lux. Microalgae were cultured with the ratio of
seeds and seawater of 1: 4 with variations in the ratio of TEM: Conwy, namely 3:0, 1.5:1.5 and
0:3. Culturing was carried out for 5 days where the cell density was counted every day and then
harvesting on the fifth day. The results showed that the 0:3 ratios produced the highest protein
content of 18.46% while the 1.5: 1.5 ratio resulted in the highest carbohydrate content of 19.51%.
Keywords: Tetraselmis chuii, nutrient ratio, TEM, Conwy, Protein, Carbohydrate.