Mühendisler için Sayısal Yöntemler Yazılım ve …cdn.hitit.edu.tr/fbe/files/72773_1610111445417.pdf · Lecture, Question-Answer, Discussion, Presentation, Problem Solving, Simulation,

Course Code & Title: 0220501 Numerical Methods in Engineering Name of the Programme: Mechanical Engineering MSB

Semester Autumn

Teaching Methods Credits

Theory Recite Lab. Project/Area

Study/Homework Quiz

Mid Term

Final Total National

Credit ECTS

Credits

II 42 - - 60 26 31 81 240 3 8

Language Turkish

Grade of the Lecture College ()

Undergraduate ()

Graduate

M.Sc. (X) Ph.D. ()

Compulsory / Elective Compulsory

Prerequisities -

Course Objectives The purpose of this lecture is to teach numerical methods that are used for the solution of engineering problems, to gain application ability and to be able to use programming languages like Mathematica, Fortran, QBasic, C++, etc. in the applications of numerical solutions to graduate students.

Developed Programme Adequaciess of the Lecture

RA.2, RA.3, RA.5

Learning Outcomes 1- To use the basic principles of numerical methods for solving engineering problems

Learning Methods and Techniques

Lecture, Question-Answer, Discussion, Presentation, Problem Solving, Simulation, Seminar, Homework, Project

Assessment Criteria

(X) mark Percent (%)

Midterm Exams X 20

Quizzes X 5

Homeworks X 5

Projects X 10

Term Paper

Laboratory Work

Final Exam X 60

Week Subjects

1 2 3 4 5 6 7 8 9

10 11 12 13 14

Introduction Solution of non linear equations Solution of linear systems Techniques of interpolation and curve fitting Numerical differential Numerical integration Numerical optimization Midterm Solution of differential equations Numerical integration of differential equations First value problems Boundary value problems Partial differential equations Eigen values and eigen vectors

Course Book & References

1. Mühendisler için Sayısal Yöntemler Yazılım ve Programlama Uygulamalarıyla, Steven C. Chapra, Raymond P. Canale, Literatür Yayıncılık, 2003, (ISBN :975843 1838).

2. Introduction to Matlab & Simulink, O. Beucher and M. Weeks, 3rd Edition, Infinity Science Press, 2006. (ISBN 978-1-934015-04-09).

3. Numerical Recipies in Fortran 77, W. H. Press, S. A. Teukolsky, W. T. Vetterling and B. P. Flannery, Cambridge University Press, 1996, (ISBN 0-521-43064-X).

Course Code & Title: 0220503 Advanced Thermodynamics Name of the Programme: Mechanical Engineering MSB

Semester Autumn



Study/Homework Quiz

Mid Term


Credit ECTS

Credits

I 42 - - 73 - 51 74 240 3 8

Language Turkish


Undergraduate ()

Graduate

M.Sc. (X) Ph.D. ()

Compulsory / Elective Elective

Prerequisities Thermodynamics

Course Objectives To teach information about qdvanced thermodynaimcs and to gain skills to apply these information on energy systems to the students who have an undergraduate level thermodynamcs knowledge.


RA.1, RA.3, RA.4, RA.6, RA.12

Learning Outcomes 1- To increase the skills of the student to a level for the energy and exergy analysis of complex systems 2- To give more advanced knowledge about the analysis of combustion and chemical reactions



Assessment Criteria


Midterm Exams X 25

Quizzes X 5

Homeworks X 10

Projects

Term Paper

Laboratory Work

Final Exam X 60

Week Subjects

1 2 3 4 5 6 7 8 9

10 11 12 13 14

Irreversibility analysis Irreversibility analysis Property relations in thermodynamics Property relations in thermodynamics Gas mixtures Gas mixtures Gas vapour mixtures Midterm Gas vapour mixtures Chemical reactions Chemical reactions Chemical equilibrium Chemical equilibrium Phase equilibrium


1. A. Bejan, Advanced Engineering Thermodynamics, John Wiley and Sons, 1997. 2. Y. Çengel, M. A. Boles, Termodinamik: Mühendislik Yaklaşımıyla, 5. Baskıdan Çeviri, Güven Bilimsel,

2008. 3. G. J. Van Wylen, R. E. Sonntag ve C. Borgnakke, Fundamentals of Classical Thermodynamics, 4th

Edition, Wiley, 1992.

Course Code & Title: 0220507 Advanced Heat & Mass Transfer Name of the Programme: Mechanical Engineering MSB

Semester Autumn



Study/Homework Quiz

Mid Term


Credit ECTS

Credits

I 42 - - 46 40 38 74 240 3 8

Language Turkish


Undergraduate ()

Graduate

M.Sc. (X) Ph.D. ()


Prerequisities Heat Transfer

Course Objectives Teaching theoretical basics and importance of heat transfer


RA.1, RA.2, RA.3, RA.4, RA.12

Learning Outcomes 1- To use the basic principles of heat and mass transfer for solving engineering problems



Assessment Criteria


Midterm Exams X 20

Quizzes X 10

Homeworks

Projects X 10

Term Paper

Laboratory Work

Final Exam X 60

Week Subjects

1 2 3 4 5 6 7 8 9

10 11 12 13 14

Introduction General laws, principle of mass conservsation, II. motion law of Newton I. law of thermodynamics, II. law of thermodynamics Fourier heat conduction equation, cooling law of Newton, Stephen Boltzmann law Equations of convection heat transfer, continuity equation Momentum equation, energy equation Similarities between fluid flow and heat transfer Midterm Boundary layer approaches for laminer flow, momentum equation in boundary layer Boundary layer energy equation, friction and heat transfer of the fluid Pressure distributed flows, integral method, momentum integral equation Energy integral equation Laminer forced flow in a flat sheet Problems


1. Kemal Altınışık, Uygulamalarla Isı Transferi Nobel Yayın. 2. Muhsin Kılıç, Abdulvahap Yiğit Isı Transferi Yayınevi: Aktüel (4/2004) İstanbul, ISBN: 9789758770342,

467 sayfa. 3. Hafit Yüncü - Sadık Kakaç, ‘Temel Isı Transferi’, Bilim Yayıncılık, İstanbul, 1999.

Course Code & Title: 0220509 Advanced System Dynamics & Optimum Control

Name of the Programme: Mechanical Engineering MSB

Semester Autumn



Study/Homework Quiz

Mid Term


Credit ECTS

Credits

I 42 - - 60 26 38 74 240 3 8

Language Turkish


Undergraduate ()

Graduate

M.Sc. (X) Ph.D. ()


Prerequisities -

Course Objectives To teach elements of one door mechanical, electrical, fluid and thermal systems and methods used for the solution of the problems of these systems.


RA.3, RA.5, RA.6

Learning Outcomes 1- To use basic principles of system dynamics and control for solving engineering problems



Assessment Criteria


Midterm Exams X 20

Quizzes X 5

Homeworks X 5

Projects X 10

Term Paper

Laboratory Work

Final Exam X 60

Week Subjects

1 2 3 4 5 6 7 8 9

10 11 12 13 14

Conditionally determined systems Condition models of energy systems Elements of one door mechanical, electrical, fluid and thermal systems Two door energy transformation elements Obtaining condition equations Lineer graphics Controlling and observation Midterm Stability of lineer and non lineer systems; Liapunov stability method Variation method Optimum control and Pontrayagin function Condition functions in the synthesis of lineer systems Condition functions in the synthesis of lineer systems Models and performance criteria


1. Ogata, K., "Modern Control Engineering", 4th Edition, Prentice Hall, 1997, (ISBN: 0-13-227307-1). 2. Charles L. P., RoyceD. H. " Feedback Control Systems", 2nd Edition, Prentice-Hall International

Editions, 1991, (ISBN: 0-13-307927-9). 3. Kuo, B. C. "Automatic Control Systems", 8th Edition, Prentice-Hall of India Private Limited, 1991,

(ISBN: 0-87692-688-10) 4. Y. Ercan, "Mühendislik Sistemlerinin Modellenmesi ve Dinamiği", 2003, (ISBN: 9750401077).

Course Code & Title: 0220511 Solid Mechanics Name of the Programme: Mechanical Engineering MSB

Semester Autumn



Study/Homework Quiz

Mid Term


Credit ECTS

Credits

I 42 - - 60 14 43 81 240 3 8

Language Turkish


Undergraduate ()

Graduate

M.Sc. (X) Ph.D. ()


Prerequisities -

Course Objectives To teach the basics of solid mechanics and basic concepts of this subject, to develop the skill to apply these to engineering problems, to teach the basic principles of mechanics.


RA.3, RA.4, RA.5, RA.6, RA.7,RA.11

Learning Outcomes

1-To be able to determine the stress and strain conditions on any point of a linear elastic solid that is loaded with tension/compression or torsion 2-To be able to determine the shear forces, bending moments, stress distribution and resultant buckling in an elastic beam that is under the effects of bending 3-To be able to determine the principal stresses and strains and maximum shear stresses in any point of a solid object that is loaded 4-To be able to design simple structures that can stand to external loads and to be able to predict the buckling and failure loads of these structures



Assessment Criteria


Midterm Exams X 25

Quizzes X 5

Homeworks X 5

Projects X 5

Term Paper

Laboratory Work

Final Exam X 60

Week Subjects

1 2 3 4 5 6 7 8 9

10 11 12 13 14

Introduction to the linear continuous environment Stress-strain tensors Conservation laws Constitutive equations Elastic behavior of materials Viscoelastic behavior of materials Viscoplastic behavior of materials Midterm Introduction to variational calculation Energy methods Energy methods Plasticity Plasticity Finite deformations


1. Fung, Y.C., Foundations of Solid Mechanics, Prentice-Hall, (1965). 2. Karasudhi, P., Foundations of Solid Mechanics, Kluwer, (1991). 3. Richards, R., Principles of Solid Mechanics, CRC Press, (2000). 4. Shames, I.H., Cozzarelli, F.A., Elastic and Inelastic Analysis, Taylor and Francis, (1997). 5. Langhaar, H.L., Energy Methods in Applied Mechanics, Wiley, (1962).

Course Code & Title: 0220513 Finite Element Method Name of the Programme: Mechanical Engineering MSB

Semester Autumn



Study/Homework Quiz

Mid Term


Credit ECTS

Credits

I 42 - - 75 - 42 81 240 3 8

Language Turkish


Undergraduate ()

Graduate

M.Sc. (X) Ph.D. ()


Prerequisities -

Course Objectives To teach the basic theoretical information about finite element methods, to gain skills to apply advanced analysis techniques by using software.


RA.1, RA.3, RA.5, RA.6, RA.7,RA.11

Learning Outcomes

1- To understand the basic theory of finite element method 2- To form a finite element model from a real problem 3- To learn the computer aided methods used for the solution of the equations of finite element

method 4- To understand the solution procedures of the finite element based computer programs like ANSYS,

ABAQUS, IDEAS, etc.



Assessment Criteria


Midterm Exams X 20

Quizzes X

Homeworks X 5

Projects X 15

Term Paper

Laboratory Work

Final Exam X 60

Week Subjects

1 2 3 4 5 6 7 8 9

10 11 12 13 14

Galerkin method Linear elasticity applications Linear elasticity applications Potential flow Heat transfer Heat transfer Structural mechanic applications Midterm Structural mechanic applications Navier-Stokes applications Symmetrical problems Beam elements Plate elements Shell elements


1. Zienkiewicz, O. C., and Taylor, R. L., The Finite Element Method, McGraw-Hill, (1991). 2. Cook, R. D., Finite Element Modelling for Stress Analysis, Wiley, (1995). 3. Mohr, G. A., Finite Elements for Solids, Fluids and Optimization, Oxford University, (1992). 4. Hughes, T. J. R., The Finite Element Method, Dover Publishers, New York, (2000). 5. Chandrupatla, T. R. and Belegundu, A. D., Introduction to Finite Elements in Engineering., Prentice

Hall, Englewood Cliffs, New Jersey, (1991).

Course Code & Title: 0220515 Theory of Elastisity Name of the Programme: Mechanical Engineering MSB

Semester Autumn



Study/Homework Quiz

Mid Term


Credit ECTS

Credits

I 42 - - 75 - 42 81 240 3 8

Language Turkish


Undergraduate ()

Graduate

M.Sc. (X) Ph.D. ()


Prerequisities -

Course Objectives Teaching solution of planar elastisity problems in cartesian and polar coordinates using basic equations and boundary conditions of elastisity.


RA.1, RA.3, RA.5, RA.6, RA.7,RA.11

Learning Outcomes 1- Gaining ability of mathematical modelling and practical problem solving 2- Developing methods for design of exact solutions for engineering problems 3- Gaining ability to present knowledges in written dorm in an effective way



Assessment Criteria


Midterm Exams X 20

Quizzes X

Homeworks X 10

Projects X 10

Term Paper

Laboratory Work

Final Exam X 60

Week Subjects

1 2 3 4 5 6 7 8 9

10 11 12 13 14

Derivation of basic equations of elastisity Introduction to concepts of stress, strain and coordinate transformations Derivaiton of equilibrium equations Derivation of compatibility equations Introduction to constitutive relations Special case: hooke’s law Introduction to stress function concept Midterm Biharmonic equation Boundary conditions Polar coordinates Approximate methods: arranging, area Approximate methods: smallest squares, Galerkin method Step by step integration

Course Book & References 1. Timoshenko, S. P., "Theory of Elasticity", McGraw Hill Book Co. Inc. 2. Wang, C., "Applied Elasticity", McGraw Hill Book Co. Inc. 3. Sokolnikoff, I. S., "Mathematical Theory of Elasticity", McGraw Hill Book Co. Inc.

Course Code & Title: 0220517 Design of Thermal Reactors Name of the Programme: Mechanical Engineering MSB

Semester Autumn



Study/Homework Quiz

Mid Term


Credit ECTS

Credits

I 42 - - 53 14 50 81 240 3 8

Language Turkish


Undergraduate ()

Graduate

M.Sc. (X) Ph.D. ()


Prerequisities Thermodynamics II, Heat Transfer

Course Objectives To teach the combustion and cauterization systems


RA.1, RA.2, RA.3, RA.4, RA.5, RA.6, RA.7, RA.9

Learning Outcomes 1- To use the basic principles of thermodynamics and heat transfer for design, calculation and analysis

of thermal systems



Assessment Criteria


Midterm Exams X 30

Quizzes X

Homeworks X 5

Projects X 5

Term Paper

Laboratory Work

Final Exam X 60

Week Subjects

1 2 3 4 5 6 7 8 9

10 11 12 13 14

Application of I. Law of Thermodynamics to basic energy transformation components Application of II. Law of Thermodynamics to design of power centrals Review of some necessary thermodynamical equations Efficiency, mass conservation equation and applications Energy equation and applications Basics of heat transfer: conduction, convection, vapour cycle heat power centrals Thermodynamical design of power central systems Midterm Basics of heat transfer: gas and vapour-gas cycle heat power centrals Cycle analysis of heat power central design Cycle optimization Heat Exchangers Fossile fuels and combustion Fossile fuels and combustion


1. Todreas, N. E., Kazimi, M. S., Nuclear Systems: Thermal Hydraulic Fundamentals, Hemisphere Pub, ASIN: 0891169350, February 1990.

2. Todreas N. E., Kazimi, M. S., Nuclear Systems II: Elements of Thermal Hydraulic Design, Hemisphere Pub, ISBN: 1560320796, September 1990.

3. Winteton R. H., Thermal Design of Nuclear Reactors, Pergamon Press, ASIN: 0080242146, June 1981. 4. Tomlinson C. E., Nuclear Power Plant Thermodynamics and Heat Transfer: A Primer, Iowa State

University Press, ASIN: 0813814545, August 1989. 5. Hassan Y. A., Morgan, C. D. (Editor), Thermal Hydraulics of Advanced Nuclear Reactors, (H t D, Vol

150), Amer Society of Mechanical Engineers, ISBN: 0791805611. 6. William, W. B., Fundamentals of Gas Turbines, 2nd Ed., John Wiley & Sons Inc., New York.

Course Code & Title: 0220519 Heat Pumps Name of the Programme: Mechanical Engineering MSB

Semester Autumn



Study/Homework Quiz

Mid Term


Credit ECTS

Credits

I 42 - - 70 46 82 240 3 8

Language Turkish


Undergraduate ()

Graduate

M.Sc. (X) Ph.D. ()


Prerequisities Thermodynamics, Heat Transfer

Course Objectives To teach basic elements, working principles and design Fundamentals of heat pumps and to provide them to make projects of heat pumps for house and industry to the students who have knowledge on thermodynamics and heat transfer.


RA.1, RA.3, RA.4, RA.6, RA.6, RA.12

Learning Outcomes 1- To make thermodynamical analysis of heat pumps that are used in the design of heat systems



Assessment Criteria


Midterm Exams X 20

Quizzes

Homeworks X 10

Projects X 10

Term Paper

Laboratory Work

Final Exam X 60

Week Subjects

1 2 3 4 5 6 7 8 9

10 11 12 13 14

Basic elements of heat pumps Working principles of heat pumps Thermodynamical analysis of heat pumps Types of heat pumps Basic elements of heat pump establishments Types of cooling liquids Properties of cooling liquids Midterm Design of heat pumps Design of heat pumps House applications of heat pumps House applications of heat pumps Industrial applications of heat pumps Industrial applications of heat pumps


1. B. C. Langley, Heat Pump Technology: Systems Design, Installation and Troubleshooting, Prentice Hall, 1989.

2. K. Ochsner, Geothermal Heat Pumps A Guide to Planning and Installing, Earthscan, 2007. 3. K. E. Herold, R. Radermacher, S. A. Klein, CRC Pres, 1996.

Course Code & Title: 0220521 Tribology Name of the Programme: Mechanical Engineering MSB

Semester Autumn



Study/Homework Quiz

Mid Term


Credit ECTS

Credits

I 42 - - 70 46 82 240 3 8

Language Turkish


Undergraduate ()

Graduate

M.Sc. (X) Ph.D. ()


Prerequisities -

Course Objectives To give the theoretical knowledge about friction, wear and lubrication. To form a substructure for the selection, calculation and design of tribo systems and elements.


RA.1, RA.3, RA.4, RA.7

Learning Outcomes 1- To learn friction and wear problems of engineering applications and to be able to make lubrication

applications



Assessment Criteria


Midterm Exams X 30

Quizzes

Homeworks

Projects X 10

Term Paper

Laboratory Work

Final Exam X 60

Week Subjects

1 2 3 4 5 6 7 8 9

10 11 12 13 14

Quality of mid surfaces Friction in dry surfaces Factors which effect friction and friction theories Mid surface temperature and oxide layer formation in lubricationless slip Wear mechanisms; adhesive, cohesive, corrosive, fatigue and fretage wear Measurement of wear Factors which effect wear Midterm Wear theories Lubricants and properties Solid layer lubrication methods Boundary layer lubrication methods Hydrostatic and hydrodynamic bearings Industrial applications of tribology

Course Book & References 1. Stachowiak, G. W., Batchelor, A.W., “Engineering Tribology”, 2000. 2. Halling, J., “Principles of Tribology”, 1983. 3. Stolarski, T. A., “Tribology in Machine Design”, 2000.

Course Code & Title: 0220523 Theory of Plates & Shells Name of the Programme: Mechanical Engineering MSB

Semester Autumn



Study/Homework Quiz

Mid Term


Credit ECTS

Credits

I 42 - - 63 - 53 82 240 3 8

Language Turkish


Undergraduate ()

Graduate

M.Sc. (X) Ph.D. ()


Prerequisities -

Course Objectives To gain experience on the theoretical information and solution methods of shell and plate structures in solid mechanics.


RA.3, RA.5, RA.6, RA.7,RA.11

Learning Outcomes

1- To teach the modeling and design processes of plates and shells 2- To teach the energy methods that are used in the structural analysis of plates and shells 3- To teach to make stess analysis of plates and shells of various geometry 4- To the to realize the dynamic analysis of plate and shell structures



Assessment Criteria


Midterm Exams X 25

Quizzes X

Homeworks X 5

Projects X 10

Term Paper

Laboratory Work

Final Exam X 50

Week Subjects

1 2 3 4 5 6 7 8 9

10 11 12 13 14

Plate theories Energy principles Analytical analysis of plates Numerical analysis of plates Axial symmetrical plates Orthotrophical plates Laminated plates Midterm Buckling of plates and free vibration Introduction to shell structures Membrane theory in shells Axial symmetrical bending in shells Energy methods Buckling of shells

Course Book & References 1. Ugural, A. G., Stresses in Plates and Shells, McGraw-Hill, I. E., Singapore, (1999). 2. J. N. Reddy, Mechanics of Laminated Composite Plates Theory and Analysis, CRC Press, (1994). 3. S. P. Timeshenko, S. W. Kriger, Theory of Plates and Shells, McGraw-Hill, (1959).

Course Code & Title: 0220525 Boundary Layer Theory Name of the Programme: Mechanical Engineering MSB

Semester Autumn



Study/Homework Quiz

Mid Term


Credit ECTS

Credits

I 42 - - 46 40 31 81 240 3 8

Language Turkish


Undergraduate ()

Graduate

M.Sc. (X) Ph.D. ()

,Compulsory / Elective Elective

Prerequisities -

Course Objectives To introduce the basic concepts of boundary layer flow. To develop the basic physical and mathematical approaches.


RA.1, RA.2, RA.3, RA.12

Learning Outcomes 1- To use the principles of boundary layer for solving engineering problems



Assessment Criteria


Midterm Exams X 20

Quizzes X 10

Homeworks

Projects X 10

Term Paper

Laboratory Work

Final Exam X 60

Week Subjects

1 2 3 4 5 6 7 8 9

10 11 12 13 14

Basic laws Navier-Stokes equations Basic solutions of laminar boundary layer equations Basic solutions of continious boundary layer equations Basic solutions of two dimensional boundary layer equations Approximate solution approaches in laminar flows Approximate solution approaches in laminar flows Midterm Approximate solution approaches in two dimensional flows Approximate solution approaches in two dimensional flows Turbulent flows Boundary layer flow for turbulent regime Motion equations in turbulent boundary layers Energy equations in turbulent noundary layers

Course Book & References 1. SCHLICHTING, H. & GERSTEN, K., Boundary Layer Theory, Springer, Berlin, 2000. 2. WHITE, F. M., Viscous Fluid Flow, McGraw-Hill, 1991. 3. SHAMES I. H., Mechanics of Fluids, McGraw-Hill, 1989.

Course Code & Title: 0220527 Experimental Methods in Fluid Mechanics & Heat Transfer


Semester Autumn



Study/Homework Quiz

Mid Term


Credit ECTS

Credits

I 42 - - 60 26 38 74 240 3 8

Language Turkish


Undergraduate ()

Graduate

M.Sc. (X) Ph.D. ()


Prerequisities Heat Transfer, Fluid Mechanics

Course Objectives Ability to make conceptual and physical preparation in experimental methods. To gain ability of data acquisition, processing, analysis and transfer.


RA.1, RA.2, RA.5, RA.6

Learning Outcomes 1- To be able to solve flow and heat transfer problems using experimental methods



Assessment Criteria


Midterm Exams X 20

Quizzes X 5

Homeworks X 5

Projects X 10

Term Paper

Laboratory Work

Final Exam X 60

Week Subjects

1 2 3 4 5 6 7 8 9

10 11 12 13 14

Measurements of temoerature and pressure Measurements of temperature and pressure Measurements of velocity and mass flow rate Measurements of velocity and mass flow rate Measurements of concentration Monitoring flow Measurements of heat flux Midterm Measurements of calorific value Measurements of thermal conductivity and diffusion coeffecient Measurements of thermal conductivity and diffusion coeffecient Error analysis Error analysis Performance characteristics of measuring equipments


1. HOLMAN J. P., Experimental Methods for Engineers, McGraw-Hill, 1994. 2. DOEBELİN E. O., Measurement Systems, McGraw-Hill, 1981. 3. ÇENGEL Y. A., CIMBALA J. M., Akışkanlar Mekaniği, (Çeviri: Tahsin Engin), İzmir Güven Kitabevi, 2008. 4. TAYLOR J. R., An Introduction to Error Analysis, Valley, 1982.

Course Code & Title: 0220529 Advanced Measurement Technique & Uncertainity - Error Analysis


Semester Autumn



Study/Homework Quiz

Mid Term


Credit ECTS

Credits

I 42 - - 70 17 38 74 240 3 8

Language Turkish


Undergraduate ()

Graduate

M.Sc. (X) Ph.D. ()


Prerequisities -

Course Objectives To learn error-uncertainity types which can ocur in experimental studies and to apply analysis of error-uncertainity to experimental data.


RA.1, RA.2, RA.3, RA.12

Learning Outcomes 1- To be able to realize advanced measurement and error analysis for engineering calculations and

experiments



Assessment Criteria


Midterm Exams X 15

Quizzes X 5

Homeworks X 5

Projects X 15

Term Paper

Laboratory Work

Final Exam X 60

Week Subjects

1 2 3 4 5 6 7 8 9

10 11 12 13 14

Understanding and applying error concept in experimental methods Understanding and applying uncertainity concept in experimental methods Understanding and applying precision concept in experimental methods Understanding and applying precision concept in experimental methods Calibration Calibration Error analysis Midterm Error analysis Uncertainity analysis Uncertainity analysis Statistical analysis Statistical analysis Corelation coefficient

Course Book & References 1. HOLMAN J. P, Experimental Methods for Engineers, McGraw-Hill, 1994. 2. DOEBELİN E. O., Measurements Sysytems, McGraw-Hill, 1981. 3. TAYLOR J. R., An Introduction to Error Analysis, Valley, 1982.

Course Code & Title: 0220531 High Speed Machining Name of the Programme: Mechanical Engineering MSB

Semester Autumn



Study/Homework Quiz

Mid Term


Credit ECTS

Credits

I 42 - - 70 46 82 240 3 8

Language Turkish


Undergraduate ()

Graduate

M.Sc. (X) Ph.D. ()


Prerequisities -

Course Objectives To teach the basics of machining method. Necessary changes for the parameters of high speed machining. Relation between tool material and other parameters in high speed machining. To give theoretical knowledge about tool life and surface roughness.


RA.3, RA.4, RA.7, RA.11

Learning Outcomes 1- To learn the principles of high speed machining and to use this knowledge in manufacturing

processes



Assessment Criteria


Midterm Exams X 30

Quizzes

Homeworks

Projects X 10

Term Paper

Laboratory Work

Final Exam X 60

Week Subjects

1 2 3 4 5 6 7 8 9

10 11 12 13 14

Basic principles of machining Basic principles of machining Principles of high speed machining Principles of high speed machining Material properties of high speed machining Workbench properties of high speed machining Workbench properties of high speed machining Midterm Analysis of tool life Machined surface properties High speed machining adaptors for conventional workbenches High speed machining adaptors for conventional workbenches Comparative cost analysis Comparative cost analysis

Course Book & References 1. Akun, F., “Takım Tezgahları”, 1960. 2. Doyle, E., “Manufacturing Processes and Materials for Engineers”, 1969. 3. Akkurt, M., “Takım Tezgahları ve Talaş Kaldırma Problemleri”, 1989.

Course Code & Title: 0220533 Economical Analysis of Energy Systems Name of the Programme: Mechanical Engineering MSB

Semester Autumn



Study/Homework Quiz

Mid Term


Credit ECTS

Credits

I 42 20 - 68 27 32 51 240 3 8

Language Turkish


Undergraduate ()

Graduate

M.Sc. (X) Ph.D. ()


Prerequisities -

Course Objectives Handling life of power plant and expenses of energy production systems setup and usage in an economical perspective and researching effects other costs on the system.



Learning Outcomes 1- To be able to realise the economical feasibility studies of energy manufacturing systems



Assessment Criteria


Midterm Exams X 20

Quizzes X 5

Homeworks X 5

Projects X 10

Term Paper

Laboratory Work

Final Exam X 60

Week Subjects

1 2 3 4 5 6 7 8 9

10 11 12 13 14

Efficient usage of energy, worlds energy consumption and production Energy and environment relation, energy sources New and renewable energy sources and technologies Methods of energy economics Methods of energy economics Energy economics in buildings Energy economics in buildings Midterm Energy economics in industry Sample applications Sample applications Energy cost and fuel relation Setup costs of energy systems Amortization time of energy systems


1. Todreas Neil E., Kazimi Mujid S., Nuclear Systems: ThermalHydraulic Fundamentals, Hemisphere Pub, ASIN: 0891169350, February 1990.

2. Todreas Neil E., Kazimi Mujid S., Nuclear Systems II: Elements of Thermal Hydraulic Design, Hemisphere Pub, ISBN: 1560320796, September 1990.

3. Winteton R. H., Thermal Design of Nuclear Reactors, Pergamon Press; ASIN: 0080242146, June 1981. 4. Tomlinson Charles E., Nuclear Power Plant Thermodynamics and Heat Transfer: A Primer , Iowa State

University Press, ASIN: 0813814545, August 1989. 5. Hassan Y.A., Morgan C.D. (Editor), Thermal Hydraulics of Advanced Nuclear Reactors, (H t D, Vol

150), Amer Society ofMechanical Engineers, ISBN: 0791805611, December 1990.

Course Code & Title: 0220535 Biomechanics and Applications Name of the Programme: Mechanical Engineering MSB

Semester Autumn



Study/Homework Quiz

Mid Term


Credit ECTS

Credits

I 42 - - 75 - 41 82 240 3 8

Language Turkish

Grade of the Lecture College () Undergraduate ()

Graduate

M.Sc. (X) Ph.D. ()


Prerequisities -

Course Objectives Investigation of the mechanical properties of bone, muscle, cartilage, tendon, blood and other structures which form human body with engineering approach.


RA.3, RA.5, RA.7, RA.11, RA.12

Learning Outcomes 1- To use basic principles of engineering mechanics for solving medical problems



Assessment Criteria


Midterm Exams X 20

Quizzes X

Homeworks X 10

Projects X 10

Term Paper

Laboratory Work

Final Exam X 60

Week Subjects

1 2 3 4 5 6 7 8 9

10 11 12 13 14

General anatomical knowledge General anatomical knowledge Structure and mechanical properties of biological materials Structure and mechanical properties of biological materials Structure and mechanical properties of bone, cartilage, muscle, tendon, nevre etc. Classification of biological structure elements: arm and foot Classification of biological structure elements: spine and patella Midterm Dynamics of muscle and skeleton system Dynamics of muscle and skeleton system Strength of biological materials Strength of biological materials Analysis of stress and strain Analysis of stress and strain


1. Biomechanics: Mechanical Properties of Living Tissues, 2.Edition, Y.C. Fung, Springer-Verlag, 1993. 2. Biomechanics: Motion, Flow, Stress and Growth, Y.C. Fung, Springer-Verlag, 1990. 3. Anatomi, M. Sarsılmaz, Nobel Yayın Dağıtım, 2000. 4. Introduction to Fluid Mechanics, R. W. Fox & A. T. McDonald, John Wiley & Sons, 4th Edition,1994. 5. Advanced Strength and Applied Elasticity, A. C. Ugural & S. K. Fenster, Prentice Hall, 3rd Edition,

1995. 6. Theory and Problems of Continuum Mechanics, G. E. Mase, McGraw Hill, 1970. 7. Theory of Machines and Mechanisms, J. E Shigley & J. J. Uicker, McGraw Hill, 2nd Edition, 1995.

Course Code & Title: 0220537 Quality Management and Strategic Planning


Semester Autumn-Spring



Study/Homework Quiz

Mid Term


Credit ECTS

Credits

I-II 42 - - 61 - 56 81 240 3 8

Language Turkish


Undergraduate ()

Graduate

M.Sc. (X) Ph.D. ()


Prerequisities -

Course Objectives

The aim ofthe course is a rapidly changing internal and external environmental conditionsand assets in accordance with this change in order to maintain a competitive edge throughinnovation and have to win to make the business work (running), persons who, in order to reach the objectives ofthese businesses to do what they show in a systematic way andproblems encountered in practice to give guidance on how and in what ways can be parsed.


RA.3, RA.5, RA.6, RA.7, RA.9, RA.11

Learning Outcomes At the end of the course students acquire skills on how to total quality practices



Assessment Criteria


Midterm Exams X 25

Quizzes

Homeworks X 5

Projects X 10

Term Paper

Laboratory Work

Final Exam X 60

Week Subjects

1 2 3 4 5 6 7 8 9

10 11 12 13 14

Strategic Planning and Management Basic Philosophy Quality and Total Quality Concept Historical Development of Total Quality Total Quality Management Processes Teamwork quality Circles Strategic Quality Planning leadership Principles of Total Quality Management in Education Total Quality Methods and Techniques Total Quality Management in Education Total Quality Management in Higher Education Applications of Total Quality in Education Term rating, and the result


1. Aksu, M. Bilgin (2002) Strategic Planning and Total Quality Management in Education.New York: Memorial Publishing 2. Sisman, M. And Turan, S. (2002) Total Quality Management in Education, Ankara:Pegema Publications

Course Code & Title: 0220539 Energy Mothods in Vibrations Name of the Programme: Mechanical Engineering MSB

Semester Autumn



Study/Homework Quiz

Mid Term


Credit ECTS

Credits

I 42 - - 73 - 51 74 240 3 8

Language Turkish


Undergraduate ()

Graduate

M.Sc. (X) Ph.D. ()


Prerequisities -

Course Objectives To teach the Energy Methods that is used for the determination of natural frequencies of the mechanical system.


RA.1, RA.3, RA.5, RA.7

Learning Outcomes 3- Learning to calculate the natural frequencies of continuous and lumped parameter systems

analytically.



Assessment Criteria


Midterm Exams X 30

Quizzes - -

Homeworks X 10

Projects - -

Term Paper - -

Laboratory Work - -

Final Exam X 60

Week Subjects

1 2 3 4 5 6 7 8 9

10 11 12 13 14

Introduction to Energy Methods, General considerations , Mechanical concepts Approximate solutions Establishing Equations of motions from total energy of the system Disadvantages of Approximate solutions Writing total energy. Rayleigh principle. Applications Rayleigh method for continuous systems Lagrange theorem. Proof of Rayleigh principle. Disc vibrations. vibrations of blades The Rayleigh-Ritz method. (Boundary condition. Applications) The Ritz-Galerkin method. Basis of Galerkin methods Dynamics problems Application of energy methods for Lumped parameter systems Application of energy methods for continuous systems


1. Vibration Problems in Engineering. S. Timoshenko, D. Van Nostrand Company, 1955 2. Meirovitch, L., Elements of Vibration Analysis, McGraw-Hill, 1986, ISBN-10: 0070413428, ISBN-13: 978-

0070413429. 3. Rao, S. S., Vibration of Continuous Systems, Wiley, 2007, ISBN-10: 0471771716 , ISBN-13: 978-

0471771715

Course Code & Title: 0220541 Manufacturing Systems Name of the Programme: Mechanical Engineering MSB

Semester Autumn



Study/Homework Quiz

Mid Term


Credit ECTS

Credits

I 42 - - 25 19 63 91 240 3 8

Language Turkish


Undergraduate ()

Graduate

M.Sc. (X) Ph.D. ()


Prerequisities Manufacturing Methods

Course Objectives To teach manufacturing systems used in factories and gain choosing, designing and analyzing skill of appropriate system for the applied manufacturing process to the students who have an undergraduate level manufacturing methods knowledge.


RA.2, RA.4, RA.5, RA.6, RA.10

Learning Outcomes

4- To gain students the knowledge to be able to design, size and analyze different kind of manufacturing systems.

5- To gain students the skill of comment to be able to chooseappropriate manufacturing system by considering different manufacturing parameters


Lecture, Question-Answer, Discussion, Problem Solving, Homework

Assessment Criteria


Midterm Exams X 25

Quizzes X 5

Homeworks X 10

Projects

Term Paper

Laboratory Work

Final Exam X 60

Week Subjects

1 2 3 4 5 6 7 8 9

10 11 12 13 14

Definition of manufacturing, basic concepts Manufacturing processes Structure of manufacturing facilities and basic components Material transport and storage systems Classification of manufacturing systems Single station manufacturing cells Group technology and cellular manufacturing Mid Term Group technology and cellular manufacturing Flexible manufacturing systems Flexible manufacturing systems Transfer lines Assembly lines and systems Assembly lines and systems


1. Mikell P. Groover, Automation Production Systems and Computer-Integrated Manufacturing - 3rd Ed., Prentice-Hall, 2007.

2. Mikell P. Groover, Fundamentals of Modern Manufacturing: Materials Processes and Systems - 4th Ed., Prentice-Hall, 2010.

Course Code & Title: 0220543 Automation in Mechanic Production, Measurement and Control


Semester Autumn



Study/Homework Quiz

Mid Term


Credit ECTS

Credits

I 42 - - 73 - 51 74 240 3 8

Language Turkish


Undergraduate ()

Graduate

M.Sc. (X) Ph.D. ()


Prerequisities -

Course Objectives The purpose of this course is to provide economic and safe production process in factories.



Learning Outcomes 1- To provide students how to work economic and safe by controlling the manufacturing process. 2-To provide students how to solve problems rapidly and safely by using teamwork.


Lecture, Question-Answer, Discussion, Presentation, Problem Solving, Seminar, Homework

Assessment Criteria


Midterm Exams X 25

Quizzes

Homeworks X 15

Projects

Term Paper

Laboratory Work

Final Exam X 60

Week Subjects

1 2 3 4 5 6 7 8 9

10 11 12 13 14

Recent status of the automation Planning the production according to automation Designing the product according to automation Components of the automation Automation in integrated processes Automation in machining production Automation in chipless production Automation in pressing Automation in heat treatment and surface finishing Automation in assembling Automation in measurement and control Automation in measurement and control Automation in Turkey Automation in the World


1. Groover, Mikell, P. Automation, production system and Computer Integrated Manufacturing, Prentice-Hall,

International Editions, 1987.

2. Milner, D. A., Vasiliu, V. C., Computer-Aided Engineering for Manufacture, Kogan Page Ltd. London, 1986.

3. Akkurt, M., Nümerik kontrollü Tezgahlar ve Sistemler, ER-DİZ yayınevi, İstanbul, 1986.

4. Degroat, G. H., Metalworking Automation, McGraw-Hill Book Comp. Inc. NewYork, 1962

Course Code & Title: 0220545 Solar Energy Applications Name of the Department / Programme: Mechanical Engineering MSB

Semester Spring



Study/Homework Quiz

Mid Term


Credit ECTS

Credits

II 42 - 73 - 51 74 240 3 8

Language Turkish

Grade of the Lecture Pre Graduate () Under Graduate () Graduate (x) Doctorate ()


Prerequisities Heat Transfer , Thermodynamics II

Course Objectives To teach new and renewable energy souces to the students and to guide them to make research about this subject.


PY.1, PY.2, PY.3, PY.4, PY.5, PY.6, PY.11, PY.12

Learning Outcomes 1- To make the thermodynamical analysis of new and renewable energy sources and to realize the

applications of them



Assessment Criteria


Midterm Exams X 30

Quizzes X 5

Homeworks X 5

Projects X 10

Term Paper

Laboratory Work

…

Final Exam X 50

Week Subjects

1 2 3 4 5 6 7 8 9

10 11 12 13 14

Introduction Energy sources, types and classification Principles of renewable energy, solar energy, geometrical relations between sun and earth Solar radiation, solar collectors, cooling and heating systems using solar energy Photovoltaic energy transformations, geothermal energy and geothermal energy types Vapour and water based geothermal energies and other geothermal energy types Wind energy, principles of wind energy, wind turbine types Midterm Solar wall system Heat collector, manufacturing methods and usage as fuel Manufacturing, storage and usage of hydrogen energy Hydraulic energy, wave and tides energy, geothermal energy Other energy types Energy environment relations


1. Todreas, N. E., Kazimi, M. S., Nuclear Systems: Thermal Hydraulic Fundamentals, Hemisphere Pub., ASIN: 0891169350, February 1990.

2. Todreas N. E., Kazimi M. S., Nuclear Systems II: Elements of Thermal Hydraulic Design, Hemisphere Pub., ISBN: 1560320796, September 1990.

3. Winteton R. H., Thermal Design of Nuclear Reactors, Pergamon Press, ASIN: 0080242146, June 1981. 4. Geothermal Heating: A Handbook of Engineering Economics / [edited by] Harrison, R., Mortimer,

N.D., Smarason, O.B., Oxford, New York, Pergamon Press, 1990. 5. Geothermal energy / ed. Dickson, M. H., Fanelli, M. C., Wiley, 1995. 6. Wind Energy Technology, Walker, J. F., Chichester, N. J., John Wiley, 1997. 7. Biomass Conversion and Technology, Brobby, C. W., Hagan, E. B., Wiley, 1996. 8. Duffie J. A., Beckman, W.A., Solar Engineering of Thermal Processes, 2nd. Ed., John Wiley &

Sons,New York, 1991.

Course Code & Title: 0220547 Advanced Machine Elements Name of the Programme: Mechanical Engineering MSB

Semester Autumn



Study/Homework Quiz

Mid Term


Credit ECTS

Credits

I 42 - - 73 - 51 74 240 3 8

Language Turkish


Undergraduate ()

Graduate

M.Sc. (X) Ph.D. ()


Prerequisities Machine Elements I

Course Objectives 1.To acquire deep knowledge of machine elements. 2.To teach how to use machine elements properly.


RA.1, RA.3, RA.4, RA.5, RA.9, RA.12

Learning Outcomes

1.To specify the functions of the machine elements 2.To analyze the exposed forces and moments of the machine elements 3.To determine the varieties of strain in machine elements 4.To form machine elements


Lecture, Question-Answer, Discussion, Presentation, Problem Solving, Homework

Assessment Criteria


Midterm Exams X 25

Quizzes

Homeworks X 15

Projects

Term Paper

Laboratory Work

Final Exam X 60

Week Subjects

1 2 3 4 5 6 7 8 9

10 11 12 13 14

Pre-stress theory and application areas, results of the theory Tribology Special journal and rolling bearings, lubrication constructions Construction of special clutches Special constructions of chains and pulley mechanisms Manufacturing processes of the gear wheels Gear wheel boxes, standarts and fabrication Helical Gears Bevel Gears Worm Gear Mechanisms Planet Gear Mechanisms Variators Application areas of the gears Discussions of the topics in the applicability of the special projects


1. Akkurt M., 'Makina Elemanları', 1992, İstanbul, Türkiye 2. Kurbanoğlu, C., 2009. "Makina Elemanları Teori-Konstrüksiyon ve Problemler", ISBN 978-975-591-770-2, 2 Baskı, NOBEL Yayın No:785, Ankara. 3. Matek, W., Mush, D., Wittel, H., ‘Machinenelemente’, ISBN: 3-528-94028-x, 2001, Germany

4. Karl, V., Decker H., ‘Maschinenelemente’, ISBN: 3-446-16416-2, 1992, Germany.

Documents

Mühendisler için Sayısal Yöntemler Yazılım ve …cdn.hitit.edu.tr/fbe/files/72773_1610111445417.pdf · Lecture, Question-Answer, Discussion, Presentation, Problem Solving, Simulation,