A-I – Basic Information About the Accreditation Application Name … · 2019-10-02 · B-I – Study Program Characteristics Name of Study Program Petroleum Engineering Type of

Version as of 1 February, 2019

A-I – Basic Information About the Accreditation Application Name of the University: Palacký University Olomouc

Name of the University Facility: Faculty of Science

Name of the Collaborating Institution:

Name of the Study Program: Petroleum Engineering

Accreditation Application Type: Study program approval

Approving Authority: Internal Assessment Board

Date of Application Approval:

Academic Senate: 10. 4. 2019 Scholarly Board: Internal Assessment Board:

Link to the Application in Electronic Form: UPShare: portal.upol.cz

Links to the Relevant Internal Regulations: UPShare: portal.upol.cz

ISCED F and Brief Reasoning: 0532


B-I – Study Program Characteristics Name of Study Program Petroleum Engineering Type of Study Program Bachelor Profile of Study Program Academically oriented Study Form full-time Standard Study Period 3 years Study Language English Academic Degree Granted Bc. Rigorous Procedure No Academic Degree Granted Study Program Guarantor Mgr. Jan Sedláček, Ph.D. Focused on Preparation for Pursuit of a Regulated Profession

No

Focus on Preparation of Professionals in Security Services of the Czech Republic

No

Recognition Authority —

Field(s) of Education; for a Part-Time Study Program the Proportion of the Individual Fields in % Earth Sciences Basic thematic areas: According to the Czech Government Regulation No. 275/2016 Sb, the basic thematic areas covered by the study programme are: Geology, Hydrogeology, Economic Geology, Geophysics, Geochemistry, Mineralogy, Petrology, Mine Surveying, Structural Geology and Geoinformatics. Study Objectives of the Study Program The basic objective of the study programme is to train Bachelor-level university graduates in Petroleum Engineering – professionals in the fields of oil and gas exploration and production, underground gas storage and geothermal sectors mainly in the private companies. The programme is tailored to applicants from the Kurdistan Region of Iraq and neighbouring countries and their training for the oil and related energy industry mainly in the Middle East region. The tuition will be conducted predominantly in the Palacký University campus in Erbil, the Kurdistan Region of Iraq, and partly in the Palacký University facilities in Olomouc, Czech Republic. Graduates will master the theory, methods, techniques and practical skills of hydrocarbon exploration and production and survey of geothermal energy resources. The graduates will be prepared for Master´s degree university training in the same or related fields. Study Program Graduate Profile Graduates will master the theory of geosciences, processes of petroleum generation and migration, models of hydrocarbon reservoirs and technical aspects of oil and gas production including formation evaluation, drilling and well management, separation processes, production engineering and enhanced oil recovery methods. The graduates are skilled in technical communication, technical and research report writing and oral presentations. A focus is given to technical competences, management abilities and multidisciplinary skills. Graduates will find rewarding jobs as employees of companies dedicated to oil and gas exploration and production, underground gas storage and geothermal energy, employees of consultant companies, as field-based or laboratory-based professionals in geological surveys and mapping, and as research and development experts in the energy sectors.


Rules and Conditions for Elaboration of Study Plans Rules and conditions for elaboration of study plans are in accordance with the Internal Standard R-B-17/07 Standards for Institutional Accreditation and Standards for Study Programs at Palacký University of Olomouc. Credit system: ECTS.

Conditions for Admission to Study Admission procedure consisting of written exams in Chemistry and Mathematics.

Links to Other Types of Study Programs The Petroleum Engineering study programme is compatible with the international education standards in the given field.


B-IIa – Study Plans and Proposal for Theses Topics (Bachelor Degree Programs) Study Plan Code

Compulsory Courses Course Name Extent Examin-

ation Method

No. of Credits

Lecturer Recom-mended Year/ Term

Profile Basis

Mineralogy and Petrology 28l+28e 2+2 exam 5 Mgr. Tomáš Urubek,

Ph.D. (100 %) 1/W BT

Dynamic Geology 28l+28e 2+2 exam 5

Mgr. Jan Sedláček, Ph.D. (50%), Mgr. Tomáš Urubek, Ph.D. (50%)

1/W BT

Chemistry 28l+28e 2 +2 exam 5 RNDr. Jiří Pospíšil,

PhD. (100 %) 1/W PB

Mathematics 28l+28e 2+2 exam 5 RNDr. Tomáš Fürst,

Ph.D. (100 %) 1/W PB

Principles of Petroleum Engineering

42l+14e 3+1 exam 5 Ing. Pavel Spirov,

Ph.D., M.Sc. (100 %) 1/W BT

Principles of Petroleum Geology

28l+28e 2+2 exam 5

Prof. Mgr. Ondřej Bábek, Dr., (25%), RNDr. Juraj Franců, CSc. (75%)

1/S BT

Calculus and Applications 28l+28e 2+2 exam 5 RNDr. Tomáš Fürst,

Ph.D. (100 %) 1/S PB

Thermodynamics 28l+28e 2+2 exam 5 Svetlana Rudyk,

Ph.D., M.Sc. (100 %) 1/S BT

GIS applications 28l+28e 2+2 exam 5

prof. RNDr. Vít Voženílek, CSc. (100 %)

1/S PB

Reservoir Engineering 42l+14e 3+1 exam 5 Ing. Pavel Spirov,

Ph.D., M.Sc. (100 %) 1/S BT

Sedimentology and Stratigraphy

28l+28e 2+2 exam 5 Prof. Mgr. Ondřej

Bábek, Dr. (100 %) 1/S BT

Microscopy of Reservoir Rocks

14l+28e 1+2 exam 4 Mgr. Tomáš Urubek,

Ph.D. (100 %) 2/W PB

Aquatic Geochemistry 28l+0e 2+0 exam 3 prof. Ing. Šráček,

Ph.D., M.Sc. (100 %) 2/W PB

Separation Processes 42l+14e 3+1 exam 5 Ing. Pavel Spirov,

Ph.D., M.Sc. (100 %) 2/W BT

Drilling Engineering 56l+28e 4+2 exam 7 Jagar Ali, Ph.D.,

M.Sc. (100 %) 2/W BT

Geophysics 42l+42e 3+3 exam 7

Mgr. Jan Sedláček, Ph.D. (50%), Prof. Juraj Janocko, Dipl. Eng., PhD., Dr.scient. (50%)

2/W BT

Economic Geology 28l+28e 2+2 exam 5 doc. Ing. Jakub

Jirásek, Ph.D. (100 %) 2/W PB

Well Log Analysis 28l+28e 2+2 exam 5

Prof. Mgr. Ondřej Bábek, Dr. (25%), Mgr. Karel Martínek, Ph.D. (75%)

2/S PB

Groundwater Hydraulics 28l+0e 2+0 exam 3 prof. Ing. Šráček,

Ph.D., M.Sc. (100 %) 2/S BT

Carbonate Reservoir Characterization

42l+14e 3+1 exam 5 prof. Howri

Mansurbeg, Ph.D., 2/S BT


M.Sc. (100 %)

Enhanced Oil Recovery 42l+14e 3+1 exam 5

Svetlana Rudyk, Ph.D., M.Sc. (50%), Ing. Pavel Spirov, Ph.D., M.Sc. (50%)

2/S BT

Well Testing 56l+0e 4+0 exam 5

Svetlana Rudyk, Ph.D., M.Sc. (70%), Ing. Pavel Spirov, Ph.D., M.Sc. (30%)

2/S BT

Well Completions and Workovers

56l+0e 4+0 exam 5 Jagar Ali, Ph.D.,

M.Sc. (100 %) 2/S PB

Formation Evaluation 28l+28e 2+2 exam 5 Svetlana Rudyk,

Ph.D., M.Sc. (100 %) 2/S BT

Geology of Middle East 28l+0e 2+0 exam 3 Ing. Lada Hýlová,

Ph.D. (100 %) 3/W BT

Applied and Structural Geology

28l+0e 2+0 exam 3

Prof. Mgr. Ondřej Bábek, Dr. (25%), Mgr. Jiří Rez, Ph.D. (75%)

3/W PB

Applied Statistics 28l+28e 2+2 exam 5 RNDr. Tomáš Fürst,

Ph.D. (100%) 3/S PB

Bachelor Project 0l+168e 0+12 credit 12 Prof. Mgr. Ondřej

Bábek, Dr. (100 %) 3/S PB

Conditions for fulfilment of this group of courses: 142

Compulsory-Elective Courses - Group 1 Strength of Materials 42l+0e

3+0 exam 4 Ing. Jiří Čepil (100 %) 2/W PB

Production Engineering 28l+28e 2+2 exam 5 Ing. Pavel Spirov,

Ph.D., M.Sc. (100 %) 2/W PB

Petroleum Economics 42l+14e 3+1 exam 5

Prof. Howri Mansurbeg, Ph.D., M.Sc. (25%), Jagar Ali, Ph.D., M.Sc., Ing. Pavel Spirov, Ph.D., M.Sc.

2/S PB

Rock and Soil Mechanics 28l+0e 2+0 exam 3 Ing. Lada Hýlová,

Ph.D. (100 %) 3/W PB

Quaternary Geology 28l+0e 2+0 exam 3 Mgr. Daniel Šimíček,

Ph.D. (100 %) 3/W PB

Hydrogeology 28l+0e 2+0 exam 3 prof. Ing. Šráček,

Ph.D., M.Sc. (100 %) 3/S PB


Compulsory-Elective Courses - Group 2 Practical Training 0+20 days credit 12 Ing. Pavel Spirov,

Ph.D., M.Sc. (100 %) 2/S –

Field Labs in Environmental Geology 0+5 days credit 5 Mgr. Jan Sedláček,

Ph.D. (100 %) 3/W –

Course of Shallow Geophysics 0+5 days credit 5 Mgr. Jan Sedláček,

Ph.D. (100 %) 3/W –

Modern Methods of Geophysical Data Processing

0l+28e 0+2 credit 3

Mgr. Daniel Šimíček, Ph.D. (50 %), Mgr. Zuzana Lenďáková (50 %)

3/W –

Medical Geology 28l+0e 2+0 exam 3 RNDr. Petr Sulovský,

Ph.D. (100 %) 3/S –

Field Trip in Geology 0+5 days credit 5 Mgr. Daniel Šimíček, 3/S –


Ph.D. (50 %) + prof. Mgr. Ondřej Bábek, Dr. (50 %)


Components of State Examination and Their Content

The state examination consists of a defence of Bachelor´s thesis and two state examinations: Petroleum Geoscience and Petroleum Engineering. The content and scope of the state exams are closely connected to the content and scope of the compulsory courses constituting the study programme. In particular, the Petroleum Geoscience exam follows on the courses: Mineralogy and Petrology, Dynamic Geology, Principles of Petroleum Geology, Sedimentology and Stratigraphy, Geophysics, Fluid Dynamics, Geology of Middle East, and Hydrogeology (Compulsory Elective Course Group 1). The Petroleum Engineering exam follows on the courses: Principles of Petroleum Engineering, Reservoir Engineering, Separation Processes, Drilling Engineering, Carbonate Reservoir Characterization, Enhanced Oil Recovery, Well Testing, and Formation Evaluation, Reservoir Rock and Fluid Properties, and Production Engineering. The content and scope of the compulsory courses are described in the course syllabi indicated below. Other Study Requirements N/A Proposal for Topics of Qualification Theses, and Topics of Defended Theses

Petroleum geoscience: − Clastic diagenenesis − Carobate reservoir characterisation − Linking diagenesis to Sequence Stratighraphy Petroleum Engineering: − Formation evaluation of selected reservoirs − Design of separation train (various topics) − EOR methods (various methods) − Heavy oils − Drilling of deep wells Petrology and sedimentology: − Petrophysical characteristics and bulk geochemistry of Cretaceous carbonates of the Kometan Formation, Iraqi Kurdistan − Petrology and microgeochemistry (ICP-MS and WDX-SEM) of dolomitized reservoir carbonates, Qamchuqa Formation, Iraqi Kurdistan Proposal for Topics of Rigorous Theses, and Topics of Defended Theses

N/A


Components of State Rigorous Examination and Their Content

N/A


B-III – Course Characteristics Name of Course Mineralogy and Petrology Type of Course Compulsory Course, BT Recommended Year/Term 1/W Extent of Course 28l+28e Hours 56 Credits 5 Pre-requisites, Co-requisites, Equivalence

Study Results Examination Method

Credit, examination Form of Lecturing Lection, exercises

Study Results Examination Form and Other Requirements

Teaching takes the form of lectures and exercises in which the students acquainted with the basic properties of minerals and rocks At the same time, samples of the most important rock-forming minerals, the main types of magmatic, sedimentary and metamorphic rocks are demonstrated to them. The condition for obtaining the credit is at least 80% attendance at seminars. The exam is oral and includes a practical part based on exercises.

Course Guarantor Mgr. Tomáš Urubek, Ph.D. Involvement of the Guarantor in Lecturing

The guarantor participates in lessons in 100 %.

Lecturer Mgr. Tomáš Urubek, Ph.D.

Brief Course Annotation Mineralogy and natural sciences. Principles of morphological crystallography. Crystal classes. Principles of crystal structure. Basic conceptions of structural crystallography. Physical properties of minerals. Optical properties of minerals. Origin of minerals, minerals of igneous, sedimentary and metamorphic rocks. Descriptive mineralogy. The classification and characterization of some major rock-forming minerals. Petrology and significance and methods of the petrological research. Rocks and minerals. Properties of rocks. Origin and mineral composition of igneous rocks. Textures and structures of igneous rocks. Classification of igneous rocks. Origin of the sedimentary rocks. Mineral composition, textures and structures of sedimentary rocks. Classification and characterization of some sedimentary rocks. Metamorphism and metamorphic rocks. Contact and regional metamorphism. Mineralogical composition of metamorphic rocks. Characterization of the fabric of metamorphic rocks. Products of the contact and regional metamorphism.

Literature and Equipment needed Deer W.A., Howie R.A., Zussman J. (1997): Rock-forming minerals, Volume 1A, Orthosilicates. – The Geological Society London. Deer W.A., Howie R.A., Zussman J. (1997): Rock-forming minerals, Volume 1B, Disilicates and Ring Silicates. – The Geological Society London. Deer W.A., Howie R.A., Zussman J. (1997): Rock-forming minerals, Volume 2A, Single-chain Silicates. – The Geological Society London. Deer W.A., Howie R.A., Zussman J. (1997): Rock-forming minerals, Volume 2B, Double-chain silicates. – The Geological Society London. Giacovazzo C. ed (2002): Fundamentals of Crystallography. – Second edition, Oxford University Press, New York, 825 p.

Information About Part-Time or Distance Study Form Extent of consultations (Workshops) Hours Information About Contacting the Lecturer


B-III – Course Characteristics Name of Course Dynamic Geology Type of Course Compulsory Course, BT Recommended Year/Term 1/W Extent of Course 28l+28e Hours 56 Credits 5 Pre-requisites, Co-requisites, Equivalence


Exam Form of Lecturing Lecturing, Practicing


Exam, construction of graphical protocols and other reports.

Course Guarantor Mgr. Jan Sedláček, Ph.D. Involvement of the Guarantor in Lecturing

Mgr. Jan Sedláček, Ph.D. (50%), Mgr. Tomáš Urubek, Ph.D. (50%)

Lecturer Mgr. Jan Sedláček, Ph.D. Mgr. Tomáš Urubek, Ph.D.

Brief Course Annotation Introduction and fundamentals of geology, position of geology among other sciences. Earth structure, geophysical model, Earth crust, mantle and core, Litosphere. Evolution of continental and ocean crust. Main geological processes: magmatism, metamorphism and sedimentation. Description and characteristics of geological bodies. Principles of structural geology. Earthquakes. Theory of plate tectonics and its basic principles, explanation of main structures: convergent, divergent and transform boundaries. Relation of plate tectonics to magmatic, metamorphic and sedimentary processes, origin of tectonic structures. Exogenic and endogenic geological processes. Weathering and erosion, slope movements, rain water activity, water courses, groundwater. Frost and ice activity, oceans and lakes. Geological time and its measuring, stratigraphy and stratigraphic chart. The relationship between geology and geomorphology. Literature and Equipment needed Condie KC. 1997. Plate tectonics and crustal evolution, Butterworth Heinemann. Mussett AE, Aftab Khan M. 2000. Looking into the Earth. An introduction to geological geophysics, Cambridge University Press. Tarbuck EJ, Lutgens FK, Tasa D. 2010. An Introduction to Physical Geology, Prentice Hall.


https://en.wikipedia.org/wiki/Divergent_boundary

https://en.wikipedia.org/wiki/Transform_fault


B-III – Course Characteristics Name of Course Chemistry Type of Course Compulsory Course, PB Recommended Year/Term Extent of Course 28l+28e Hours 56 Credits 5 Pre-requisites, Co-requisites, Equivalence


exam Form of Lecturing Lecturing


Written final test

Course Guarantor RNDr. Jiří Pospíšil, PhD. Involvement of the Guarantor in Lecturing

Lectures (100). Preparing final test, consultation to lecturer, replacing lecturer in case of unexpected absence

Lecturer RNDr. Jiří Pospíšil, PhD., Mgr. František Zálešák

Brief Course Annotation 1. Introduction into the basic concepts of chemistry

• some definitions – metric system, atomic structure, the periodic table, ionic and covalent bonding, nomenclature of chemical elements and compounds, balancing chemical reactions, oxidation/reduction, states of matter, and solution concentrations

2. Polar Covalent Bonds, Acids and Bases • Electronegativity, formal charge, resonance structures • definitions and strengths of acids and bases, organic acids and bases

3. Alkanes and Stereochemistry • functional groups, isomers, alkyl groups • IUPAC naming rules, common names • properties of alkanes, conformations and Newman projections, fuels and petroleum refining

4. Cycloalkanes and Their Stereochemistry • Naming, cis-trans isomerism, stability, ring strain, polycyclic molecules

5. Overview of Organic Reactions • Major classes of organic reactions, introduction to mechanisms, radicals, polar reactions,

equilibria, rates and energy changes, bond dissociation energies, energy diagrams 6. Hydrocarbons

• Chemistry, properties, typical reactivity 7. Alkenes: Structure and Reactivity

• Carbon-carbon double bonds, electrophilic addition reactions, industrial preparation and use of alkenes, naming, stereoisomerism, carbocations.

8. Alkenes: Reactions and Synthesis • Elimination reactions, halogenation, addition of water, reductions and oxidations of alkenes,

synthesis of cyclopropane, chain-growth polymers, reaction stereochemistry 9. Alkynes: basic reactivity and preparation

• Nomenclature, preparation of alkynes by elimination reactions, addition reactions of HX and X2, hydrations, reductions, oxidative cleavage

10. Benzene and Aromaticity • Structure and stability of benzene, the Huckel 4n+2 rule, pyridine and pyrrole, polycyclic

compounds 11. Origin of fossil fuels, carbon cycle, chemical composition of biomass

Laboratory

1. Methane synthesis (via decarboxylation process) 2. Ethen (ethylene) synthesis (via acid triggered elimination from ethanol) 3. Ethyne (acetylene) synthesis (via calcium carbine hydrolysis) 4. Biodiesel synthesis (additive to diesel – transesterification)


Literature and Equipment needed Lecture Notes General Chemistry: Principles, Patterns, and Applications, Bruce Averill & Patricia Eldredge, Saylor Foundation, 2011. General Chemistry, Linus Pauling, BN Publishing 2011. Organic Chemistry, J. Clayden, Oxford University Press 2012 For laboratory experiments (minimal required equipment): standard laboratory equipment including heating mantle, stirring plates and magnetic stirring bars, distillation apparatus, test tubes, flasks (50 mL, 100 mL, 250 mL), test tubes, double necked round bottom flasks (250 mL), filtration set including glass filtration adapter, burner, Chemicals: CaC2, H2O, NaCl, AgNO3, Br2, KMnO4, K2CO3, CH3CO2Na, NaOH, EtOH, H2SO4, SiO2, glycerol, palmitic acid, oleic acid, stearic acid, triacetoylglycerol



B-III – Course Characteristics Name of Course Mathematics Type of Course Compulsory Course, PB Recommended Year/Term 1/W Extent of Course 28l+28l Hours 56 Credits 5 Pre-requisites, Co-requisites, Equivalence


Exam Form of Lecturing Lecture


Course Guarantor RNDr. Tomáš Fürst, Ph.D. Involvement of the Guarantor in Lecturing

Lectures (100)

Lecturer RNDr. Tomáš Fürst, Ph.D., Mgr. Jakub Dostál

Brief Course Annotation Mathematical pre-requisites: 1. Mathematics as the language of Science 2. Logic and numbers Elements of linear algebra: 1. Vector spaces and linear mappings 2. Matrices, eigenvalues, eigenvectors and determinants 3. Systems of equations Introduction to calculus: 1. All about functions 2. Continuity and the limit 3. Differentiation and integration

Literature and Equipment needed https://ocw.mit.edu/resources/res-18-001-calculus-online-textbook-spring-2005/textbook/ (Gilbert Strang: Calculus) https://ocw.mit.edu/courses/mathematics/18-06-linear-algebra-spring-2010/ (Gilbert Strang: Linear Algebra)


https://ocw.mit.edu/resources/res-18-001-calculus-online-textbook-spring-2005/textbook/

https://ocw.mit.edu/courses/mathematics/18-06-linear-algebra-spring-2010/


B-III – Course Characteristics Name of Course Principles of Petroleum Engineering Type of Course Compulsory Course, BT Recommended Year/Term 1/W Extent of Course 42l+14e Hours 56 Credits 5 Pre-requisites, Co-requisites, Equivalence


Exam Form of Lecturing Lecture, Exercises


Introduction to each aspect of petroleum engineering. This course is pre-requirement for more advanced courses such as Reservoir Engineering Separation processes Enhanced Oil Recovery Reservoir Rock and Fluid Properties Production engineering

Course Guarantor Ing. Pavel Spirov, Ph.D., M.Sc. Involvement of the Guarantor in Lecturing

l, e (100 %)

Lecturer Ing. Pavel Spirov, Ph.D., M.Sc.

Brief Course Annotation This course gives a brief idea about introduction to petroleum and natural gas engineering as part of the petroleum and natural gas engineering curriculum. The class includes Topics covered include: Elementary knowledge and assessment of petroleum and natural gas; Overview of petroleum industry and petroleum engineering; Nature of oil and gas reservoirs; Petroleum exploration and drilling; Formation evaluation, Completion and production, Surface facilities, Reservoir mechanics; Improved oil recovery; Relevant terminology and nomenclature. Module 1: Safety in the oil fields Health, Safety and Environment – HSE HSE Behaviour Module 2: History of oil industry Origin of crude oil Chemical composition of crude oil and gas Module 3: Reservoirs – introduction Oil window Reservoir – Geology and Exploration Module 4: Drilling Operations Module 5: Production of Oil and Gas Module 6: Pipelines Module 7:


Oil and Gas Activities in Kurdistan Module 8: Decommissioning Module 9: Upstream and Downstream Logistics Module 10: Downstream Labs: Basic petroleum lab in required.

Literature and Equipment needed Al- Awad, Musaed N.J. Petroleum and natural gas engineering overview : for non-specialists / Musaed N. J. Al-Awad, Saarbrücken : VDM Verlag Dr.Muller, 2010,[ISBN] 9783639250350. Ala, Michael. Petroleum engineering : an introduction to petroleum geoscience / Michael Ala. - London : WSPE, c2017. Amyx, James W. Petroleum reservoir engineering : physical properties / James W. Amyx, Daniel M. Bass jr., Robert L. Whiting. - New York : McGraw- Hill, 1960. API. History of petroleum engineering / a publication of the American Petroleum Institute. - New York : API, 1961. Bradley, Howard B. Petroleum engineering handbook / Howard B. Bradley. - Richardson : Society of Petroleum Engineers, copyr. 1987



B-III – Course Characteristics Name of Course Principles of Petroleum Geology Type of Course Compulsory Course, BT Recommended Year/Term 1/S Extent of Course 28l+28e Hours 56 Credits 5 Pre-requisites, Co-requisites, Equivalence




…

Course Guarantor prof. Mgr. Ondřej Bábek, Dr. Involvement of the Guarantor in Lecturing

Lecturer (25%)

Lecturer prof. Mgr. Ondřej Bábek, Dr., (25%), RNDr. Juraj Franců, CSc. (75%)

Brief Course Annotation − Petroleum Exploration: Past, Present, and Future − Introduction, Historical Review of Petroleum Exploration − Physical and Chemical Properties of Petroleum (Natural Gases, Gas Hydrates, Crude Oil) − Methods of Exploration (Well Drilling and Completion, Formation Evaluation, Geophysical Methods,

Borehole Geophysics and 4D Seismic, Subsurface Geology, Remote Sensing) − Subsurface Environment (Subsurface Water, Temperature, Pressure, Fluid Dynamics − Generation and Migration of Petroleum (Organic / Inorganic Origin of Petroleum, Organic Processes on the

Earth's Surface, Formation of Kerogen, Petroleum Migration) − Reservoirs (Porosity, Permeability, Capillary Pressure, Texture, Diagenesis and Reservoir Quality, Reservoir

Continuity and Characterization, Reserve Calculations, Production Methods − Traps and Seals (Traps, Distribution of Petroleum within a Trap, Seals and Cap Rocks, Structural Traps,

Diapiric Traps, Stratigraphic Traps, Hydrodynamic Traps, Combination Traps) − Sedimentary Basins and Petroleum Systems (Basic Concepts and Terms, Mechanisms of Basin Formation,

Tectonic Classification of Sedimentary Basins, Sedimentary Basins and Petroleum Systems) − Nonconventional Petroleum Resources (Plastic and Solid Hydrocarbons, Tar Sands, Oil Shales, Tight Oil

Reservoirs, Coalbed Methane, Shale Gas, Tight Gas Reservoirs Literature and Equipment needed − Selley, R., Sonnenberg, S., 2014. Elements of Petroleum Geology. 3rd Edition. Academic Press, 526 pp. − Bjorklykke, K., 2010. Petroleum Geoscience, From Sedimentary Environments to Rock Physics. Springer-

Verlag Berlin Heidelberg, 508 pp. − Hunt, J.M., 1996. Petroleum Geochemistry and Geology, 2nd edition. W.H. Freeman. 743 pp.



B-III – Course Characteristics Name of Course Calculus and Applications Type of Course Compulsory Course, PB Recommended Year/Term 1/S Extent of Course 28l+28e Hours 56 Credits 5 Pre-requisites, Co-requisites, Equivalence





Lectures (100 %)

Lecturer RNDr. Tomáš Fürst, Ph.D., Mgr. Jakub Dostál

Brief Course Annotation Elements of ordinary differential equations 1. Some important examples 2. What is interesting: Existence, uniqueness, and stability. 3. Linear equations 4. Nonlinear separable equations 5. Introduction to numerical methods Multivariable calculus 1. Functions of several variables 2. All about derivatives: directional derivatives, partial derivatives, potential, gradient, divergence, and curl. 3. A gentle introduction to curve and surface integrals 4. Constrained and unconstrained optimization

Literature and Equipment needed https://ocw.mit.edu/courses/mathematics/18-02sc-multivariable-calculus-fall-2010/ (Multivariable Calculus at MIT) https://ocw.mit.edu/courses/mathematics/18-03sc-differential-equations-fall-2011/syllabus/ (Differential Equations at MIT)


https://ocw.mit.edu/courses/mathematics/18-02sc-multivariable-calculus-fall-2010/

https://ocw.mit.edu/courses/mathematics/18-03sc-differential-equations-fall-2011/syllabus/


B-III – Course Characteristics Name of Course Thermodynamics Type of Course Compulsory Course, BT Recommended Year/Term 1/S Extent of Course 28l+28e Hours 56 Credits 5 Pre-requisites, Co-requisites, Equivalence

Basic knowledge of physics and chemistry. Completed Principles of Petroleum Engineering


Exam Open book exam

Form of Lecturing Lectures and exercises


Written exam Open book exam

Course Guarantor Svetlana Rudyk, Ph.D., MSc. Involvement of the Guarantor in Lecturing

100 %, this can be block lectures

Lecturer Svetlana Rudyk, Ph.D., MSc.

Brief Course Annotation State and equilibrium Thermodynamic chemical potential Fugacity Gibbs free energy Closed system and energy balance Fluid equations of state Virial & cubic EOS Generalized correlations and liquids Vapor liquid equilibria and phase diagrams VLE and Rauls law Solution thermo and partial properties Solution thermo fugacity Solution thermo excess process properties Liquid properties from VLE Solution thermo excess Gibbs correlations

Literature and Equipment needed Introduction to chemical engineering thermodynamics, Book by J. M. Smith



B-III – Course Characteristics Name of Course GIS Applications Type of Course Compulsory Course, PB Recommended Year/Term 1/S Extent of Course 28l+28e Hours 56 Credits 5 Pre-requisites, Co-requisites, Equivalence


written and oral exam Form of Lecturing Lecture, practice


Elaboration of individual exercises in GIS package during the semester, attendance at seminars

Course Guarantor Prof. RNDr. Vít Voženílek, CSc. Involvement of the Guarantor in Lecturing

Guarantor participates in teaching and final examinations of students (100%).

Lecturer Prof. RNDr. Vít Voženílek, CSc. (100%)

Brief Course Annotation The course is focused on detailed introduction of geographic information systems in various spatial analyzes. Emphasis is placed on practical exercises, in which students are familiarized with several specialized extensions (eg 3D Analyst, Spatial Analyst, Network Analyst) and with possibilities of creating thematic maps and calculations in Model Builder. Each exercise is solved with other data, so that students will be presented the most used data sets in the Czech Republic and in the world. Exercises are accompanied by a theoretical introduction and practical demonstrations led by the teacher. Content: 1. Digital geographical data in the Czech Republic and in the world 2. Division and types of spatial analyzes 3. Map algebra 4. Vector overlay analysis 5. Basics of interpolation and triangulation 6. Fundamentals of topology and network analysis 7. Geocoding - principles, reverse geocoding, realization in ArcGIS 8. Spatial Queries and Operations (Searching for Optimal Locations) 9. Modelling in ArcGIS (ModelBuilder and Tasks) 10.-12. Map completing in GIS Literature and Equipment needed Mandatory: Shekhar, S., Xiong, H., Zhou, X. (Eds.). (2017). Encyclopedia of GIS, 2. vydání. Springer. Longley, P. A., Goodchild, M. F., Maguire, D. J., Rhind, D. M. (2015). Geographic Information Systems and Science, 4th edition. London: Wiley&Sons. Burian, J. (2014): Geoinformatika v prostorovém plánování. Univerzita Palackého v Olomouci. Recommended: Burian, J., Stachova, M., & Vondrakova, A. (2018): Land suitability assessment of the Olomouc region: an application of an Urban Planner model Journal of Maps, 14(1), 73–8073–80. https://doi.org/10.1080/17445647.2018.1493407 Caha, J., & Burian, J. (2018): Comparison of Fuzzy AHP Algorithms for Land Suitability Assessment In I. Ivan, J. Horák, & T. Inspektor (Eds.), Dynamics in GIscience, 31–4631–46. Springer, Cham.



B-III – Course Characteristics Name of Course Reservoir Engineering Type of Course Compulsory Course, BT Recommended Year/Term 1/S Extent of Course 42l+14e Hours 56 Credits 5 Pre-requisites, Co-requisites, Equivalence




Participation in lectures, assignments, lab work.

After competition of this course, students will know basement of reservoir engineering. They will gain essential knowledge which each oil/gas engineer should know. Course Guarantor Ing. Pavel Spirov, PhD., M.Sc. Involvement of the Guarantor in Lecturing

lecturer + assistant

Lecturer Ing. Pavel Spirov, PhD., M.Sc. (100 %) Brief Course Annotation Module 1 and 2: introduction to oil and gas, introduction to reservoir, formation of reservoirs, geochemistry, crude oil origin, source rocks, reservoir rocks, kerogen types, oil window, elemental composition of crude oil and gas, basic analytical methods, migration of hydrocarbons, requirement for formation of oil and gas fields, overview of oil and gas reserves, Petroleum chemistry: Overview Module 3: • Exploration of oil and gas field, • anatomy of oil and gas fields, contour maps • hydrocarbon traps • elysian and artesian water drives Module 4: • Exploration • Seismic methods • Gravity methods • Resistivity methods • Borehole methods Module 5: Seismic method in details • 3 D seismic • Refraction • Reflection • VSP method • 4 dimension Module 5 Reservoir types, trap types, reserves Module 6: – PVT properties of oil, binary diagrams, classification of oil and gas reservoirs, oil reservoirs such as: Undersaturated oil reservoir, Saturated oil reservoir, Gas-cap reservoir. There will be also explained : black oil, ordinary, low shrinkage oil, near critical oil, low volatile oil.......), In gas reservoirs will be : Retrograde gas-condensate, Near-critical gas-condensate, Wet gas, Dry gas) Module 7 – Reservoir fluid properties – - Natural gases - Crude oil systems - Reservoir water systems Gases = Ideal gases, Real gases EFFECT OF NONHYDROCARBON COMPONENTS ON THE Z-FACTOR, COMPRESSIBILITY OF NATURAL GASES, Z – compressibility factor, Gas formation volume factor, Gas formation volume factor,


Exercise on PV = RT Exercise on gas compressibility factor – z Module 8 Properties of crude oil systems Fluid gravity Specific gravity of the solution gas Gas solubility Bubble-point pressure Oil formation volume factor Isothermal compressibility coefficient of undersaturated crude oils Oil density Total formation volume factor Crude oil viscosity Surface tension Crude oil gravity – Exercise Module 9 – development and production Stages of development Primary, Secondary, Tertiary recovery Natural drive mechanisms - Water drive (artesian and ellision) , Solution gas drive, Gas cap drive, Gravitational Module 10 – volumetric, calculation of reserves Calculation of volumes Calculating Gross Reservoir Volume (GRV) Module 11 – Reservoir fluid flow , one phase flow Types of fluids in the reservoir Flow regimes Reservoir geometry Number of flowing fluids in the reservoir Module 12 – multiple phase flow Frontal displacement Buckley-Leverett theory Calculation of the speed of a Section Sw Module 13 – Recovery Recovery factor, Analysis of efficiencies, Areal sweep efficiency, Displacement efficiency Module 14 –Introduction to EOR Various EOR such as chemical, biological, CO2, thermal methods Exercises and lab work: • Distillation, basic understanding of distillation • Drawing of contour maps • Understanding of chromatograms • Viscosity and density, Exercise: crude oil gravity • PVT diagrams • Calculation of reserves • Formation volume factor calculation Literature and Equipment needed Basics of Reservoir Engineering - Cosse Reservoir engineering handbook -Tarek Ahmed PVT and Phase Behaviour of Petroleum Reservoir Fluids -Ali Danesh Equipment: Basic petroleum laboratory, PVT laboratory



B-III – Course Characteristics Name of Course Sedimentology and Stratigraphy Type of Course Compulsory Course, BT Recommended Year/Term 1/S Extent of Course 28l+28e Hours 56 Credits 5 Pre-requisites, Co-requisites, Equivalence


Exam Form of Lecturing Lectures + labs + self-education


Written exam, 80 % attendance at labs, PowerPoint presentation


Lectures (100 %)

Lecturer prof. Mgr. Ondřej Bábek, Dr., Mgr. Daniel Šimíček, Ph.D.

Brief Course Annotation − Introduction to sedimentology (scope, philosophy, history) − Basic concepts (sediment, facies, facies model, provenance, stratigraphy, cyclicity, carbonate/siliciclastic

sediments) − Field and instrumental methods in sedimentology and stratigraphy (optical/CL/electron microscopy, EDX

SEM, XRD, element/stable isotope geochemistry, outcrop/drill core data, seismic data, well-log data) − Origin and transport of solid sedimentary particles and dissolved species, basics of hydrodynamics, types of

transport, modes of deposition − Sedimentary structures and mechanics of their origin − Sedimentary petrology (textures, classifications, grain properties, porosity, permeability, etc.) − Diagenesis − Facies models of siliciclastic and carbonate deposits − Introduction to stratigraphy and basic stratigraphic principles (superposition, cross-cutting, inclusion,

horizontality, lateral continuity, age equivalence, biotic evolution and fossil record, uniformitarianism, etc.) − Lithostratigraphy (definition and units, lithostratigraphic correlation, outcrop/well data, remote sensing) − Biostratigraphy (definition and units, problems of application) − Event stratigraphy, Magnetostratigraphy, Chemostratigraphy, Cyclostratigraphy and astronomic cycles in

depositional record − Sequence stratigraphy and geological record of sea-level changes − Chronostratigraphy, GSSPs, Geologic Time Scale Literature and Equipment needed Compulsory: Leeder, M.R., 1982. Sedimentology, Process and Product. George Allen and Unwin, London Doyle, P., Bennett, M.R., 1999. Unlocking the Stratigraphic Record. Wiley Recommended: Miall, A.D., 2016. Stratigraphy. Springer Hsu, K., 2003. Physics of Sedimentology. Springer, Berlin Catuneanu, O., 2011. Principles of Sequence Stratigraphy. Elsevier



B-III – Course Characteristics Name of Course Microscopy of Reservoir Rocks Type of Course Compulsory Course, PB Recommended Year/Term 2/W Extent of Course 14l+28e Hours 42 Credits 4 Pre-requisites, Co-requisites, Equivalence

Pre-requisites: Mineralogy and Petrology


Credit, examination, practical examination

Form of Lecturing Theoretical and practical lection, exercises


Written, theoretical and practical examination, attendance 100 percent (in other case it should be consulted with teacher).

Course Guarantor Mgr. Tomáš Urubek, Ph.D. Involvement of the Guarantor in Lecturing

The guarantor participates in lessons in 100 %.

Lecturer Mgr. Tomáš Urubek, Ph.D.

Brief Course Annotation Goals of this course are to become familiar with the function, adjustment, and use of the petrographic microscope, to understand crystal optics and practical methods of identification of rock-forming minerals (relief, pleochroism, extinction, birefringence, etc.). The student will become familiar with most common rock-forming minerals. Syllabus:

1) Polarized microscope and its accessories, 2) Refractive Index and mineral relief, 3) polarized light and polarizers, 4) symmetry of minerals and optical properties of uniaxial minerals, 5) Uniaxial Indicatrix, 6) Optical properties of biaxial minerals, 7) Interference colours and interference colour figures, 8) birefringence , 9) Determination of mineral sign, 10) Microscopy of uniaxial minerals under polarized light (cleavage, relief, refractory index, shape, grain size, inclusions). 11) Optical study of minerals under cross nicols (extinction angle, interference colour, birefringence). 12) Practical determination of amphiboles, pyroxenes, olivines, feldspars, feldspathoids, quartz, oxides, apatite, micas, titanite, calcite, epidote, garnets, rutile, zircon.

Literature and Equipment needed Deer W.A., Howie R.A. and Zussman J. (2013): An Introduction to the Rock-Forming Minerals 3rd edition.- 498 pp, The Mineralogical Society, London. Gribble C.D. et al. (1992): Optical Mineralogy - Principles and Practice. - Springer US, 303 pp. MacKenzie W.S. and Guilford C. (1980): Atlas of rock-forming minerals in thin section.-98 pp, Longman Scientific and Technical, New York



B-III – Course Characteristics Name of Course Aquatic Geochemistry Type of Course Compulsory Course, PB Recommended Year/Term 2/W Extent of Course 28l+0e Hours 28 Credits 3 Pre-requisites, Co-requisites, Equivalence

Pre-requisites: Chemistry and Mathematics




Written exam

Course Guarantor prof. Ing. Ondřej Šráček Ph.D., M.Sc. Involvement of the Guarantor in Lecturing

Lecturer

Lecturer prof. Ing. Ondřej Šráček Ph.D., M.Sc. (100 %)

Brief Course Annotation There will be introduction to principles of thermodynamics (activities, saturation indices etc.) and kinetics (order of reaction, activation energy etc.). Also principles of redox reactions and adsorption will be introduced. Examples of basic geochemical modeling including speciation modeling, inverse geochemical modeling and forward geochemical modeling will also be presented.

Literature and Equipment needed Langmuir D., 1997. Aqueous Geochemistry, Prentice Hall. Appelo C.A.J., Postma D., 2005. Geochemistry, groundwater and pollution, 2nd Edition, Balkema.



B-III – Course Characteristics Name of Course Separation Processes Type of Course Compulsory Course, BT Recommended Year/Term 2/W Extent of Course 42l+14e Hours 56 Credits 5 Pre-requisites, Co-requisites, Equivalence

Pre-requisites: Thermodynamics, Principles of Petroleum Engineering, Chemistry


Completed semester project and exam from it

Form of Lecturing Lectures exercises project based learning


Written and completed 1 semester project. Student will be working in groups. They will receive the task to design oil separation train and they must complete design and calculations. This project shall be during whole semester. After the competition of final report, there shall be oral exam based on the written report.


Lecturer (100 %)

Lecturer Ing. Pavel Spirov, Ph.D., M.Sc. + oil companies (KPS metal)

Brief Course Annotation 1. State and equilibrium 2. Oil and gas processing 3. Oil and gas separators 4. Emulsion treating 5. Water treating facilities in oil and gas operations 6. Gas treating and processing 7. Pumps 8. Compressors 9. Piping and Pipelines 10. Safety systems 11. Oil storage 12. Horizontal and vertical separators 13. Slug catcher 14. Vertical 2 phase separator 15. Horizontal 3 phase separators 16. Separator performance 17. HP, LP separators 18. Different schemes of HP, LP separators

Thermodynamics of petroleum mixtures:

19. Will be given project task and student will need to calculate various properties Flash calculations Dew point bubble point All this will be conducted in Excel

20. Flash calculations

Dew point bubble point All this will be conducted in Excel


21. HP and LP separator design

Calculation of molar volume

22. Calculations to obtain volume of different separators 23. Viscosity calculations

24. Volumetric flow rates for various separators 25. Separator sizing – 2 phase separators 26. Slug catcher sizing 27. Pipeline design

Literature and Equipment needed Introduction to chemical engineering thermodynamics, J. M. Smith Petroleum Engineering Handbook, Larry W. Lake, volume 3, Facilities and Construction Engineering OIL AND GAS PRODUCTION HANDBOOK, An introduction to oil and gas production, Håvard Devold, ABB



B-III – Course Characteristics Name of Course Drilling Engineering Type of Course Compulsory Course, BT Recommended Year/Term 2/W Extent of Course 56l+28e Hours 84 Credits 7 Pre-requisites, Co-requisites, Equivalence


Exam Form of Lecturing Lecture, Exercises, Lab


Written exam

Course Guarantor Jagar Ali, Ph.D., M.Sc. Involvement of the Guarantor in Lecturing

lecturer

Lecturer Jagar Ali, Ph.D., M.Sc.

Brief Course Annotation The “Drilling Engineering” is a theory, lab based and practical assessments demonstration module and will be delivered by a combination of lectures, discussion and experiments demonstration to show the basic requirement knowledge of the drilling operation and equipments. • Overview of the drilling operation: This chapter will give a basic introduction about drilling engineering, aim of drilling technology, different types of drilling and drilled wells. Also it will give a history of starting operation and the steps of the drilling process. • Drilling Rig: This chapter describes the six major sub-systems of a drilling rig and the function of each system. • Drilling fluid: List and describe the functions of drilling fluids and the properties which influence the capability of the fluid to achieve these functions. Describe the most important properties of drilling fluids. Describe the principle issues considered when programming a drilling fluid. List the various generic types of drilling fluid and the composition of these fluids. • Drillstring: To drill a hole continuously, the longer drillstring is required. So, there is different parts are adding to the drillstring to carry bit, transfer power and circulate mud. This chapter will describe the basic components and the function of each component in the drillstring. • Drill bit: Describe the basic types of drillbit and the differences between a Diamond, Roller Cone and a PDC Bit • Hydraulics: Describe the principle functions of a drilling fluid and the objectives of optimizing the hydraulics of the circulation system. Describe the impact of hydraulic horsepower on the penetration of a drillbit.


Literature and Equipment needed Applied Drilling Engineering, by A.D. Bourgoyne Jr., M.E. Chenevert, K.K. Millheim, and F.S. Young Jr., SPE Textbook Series, Vol.2, (1986). Drilling Engineering, A Complete Well Planning Approach, by N.J. Adams, PennWell, (1985). Formulas and Calculations for Drilling, Production and Workover, by N.J. Lapeyrouse, Gulf Publishing, (1992). Rabia, Hussain. Well Engineering & Construction. London: Entrac Consulting, 202. Drilling Engineering, by J. J. Azar and G. R. Samuel, PennWell, (2007). Petroleum Engineering Handbook, Volume II: Drilling, by R.F. Mitchell, editor, SPE (2007) Drilling Engineering, by J. J. Azar and G. R. Samuel, PennWell, (2007). The Fundamentals of Drilling Engineering, edited by A.D. Mitchell, and F.S. Young Jr., SPE Textbook Series, Vol.12, (2011).



B-III – Course Characteristics Name of Course Geophysics Type of Course Compulsory Course, BT Recommended Year/Term 2/W Extent of Course 42l+42e Hours 84 Credits 7 Pre-requisites, Co-requisites, Equivalence


Exam, written tests, during the course submission of individual student projects

Form of Lecturing Lecturing, Practicing


Exam, construction of protocols and other reports. practical intepretation of seismic section including interpretation of geology and oil indications.


Lecturing: Mgr. Jan Sedláček, Ph.D. (50%)

Lecturer Mgr. Jan Sedláček, Ph.D., prof. Juraj Janocko, Dipl. Eng., PhD., Dr.scient.

Brief Course Annotation This course provides an introduction to geophysics. The aim is to obtain basic knowledge of physical parameters of the Earth. The theory of physical fields will be described, as well as data acquisition, processing and their interpretation. Overview of geophysical methods will be presented, their principles, advantages and limits. Main methods include gravity, magnetism, radioactivity, geothermal, electrical and electromagnetic methods. Practical using of geophysical methods will be presented in the study of various geological and environmental problems. The next part of the course introduces the theory of seismic signal, basics of reflection seismics, basic principles of 2D and 3D reflections seismics, multiples, horizontal and vertical resolutions and practical basics of realizing seismic campaignes. Introduction to the geometry of sedimentary bodies and their seismic image will be presented, as well as image of tectonic structures on the seismic sections, type of oil reservoirs and their possible image on the seismics, depositional sequences, depositional and seismic stratigraphy and sequence boundaries on the seismics - reflection terminations. The theory will be used for practical knowledge on interpretation of 2D and 3D seismics, interpretation of lithology, tectonics from the seismic sections, interpretation of seismic sequences, discussions on the sedimentary history and predictions of oil reservoirs.

Literature and Equipment needed Fowler CMR. 1990: The Solid Earth. Introduction to Global Geophysics. Cambridge Univ. Press. Telford WM, Geldart LP, Sheriff RE. 1990: Applied Geophysics. Cambridge Univ. Press.Mussett AE, Khan Parasnis DS. 1996: Principles of Applied Geophysics (Fifth Edition), Chapman & Hall. Musset A, Khan MA. 2002: Looking into Earth. An Introduction to Geological Geophysics, Cambridge Univ. Press. Hart BS. 2012: Introduction to seismic interpretation. AAPG. Ashcroft W. 2011: A petroleum geologist's guide to seismic reflection. Wiley. Herron D. 2015: First steps in seismic interpretation. SEG. Tulsa.



B-III – Course Characteristics Name of Course Economic Geology Type of Course Compulsory Course, PB Recommended Year/Term 2/W Extent of Course 28l+28e Hours 56 Credits 5 Pre-requisites, Co-requisites, Equivalence

Pre-requisites: Mineralogy and Petrology


Exam Form of Lecturing tutorieals, lectures, field trip


Gathering points from tutiroals, oral examination with written preparation

Course Guarantor doc. Ing. Jakub Jirásek, Ph.D. Involvement of the Guarantor in Lecturing

100% lecturer

Lecturer doc. Ing. Jakub Jirásek, Ph.D.

Brief Course Annotation 1.-2. History of mineral extraction 3.-4. Basic terms 5. Morphology of mineral deposits 6. Resources/reserves estimation 7.-8. Mineral deposit classifications 9. Structures and textures occuring at mineral deposits 10.-11. Ore deposits 12.-13. Industrial mineral and construction material deposits 14. Deposits of fossil fuels

Literature and Equipment needed Evans A.M.: Ore geology and Industrial Minerals, An Introduction. 3rd ed., Blackwell Scientific Publication, Oxford London Edinburgh Boston 1993. ISBN 978-0-632-02953-2 Barnes J.V.: Ores and Minerals: Introducing Economic Geology. John Wiley and Sons, New York: 1991. U.S. Geological Survey: Mineral commodity summaries 2018. U.S.Geological Survey, 2018. 200 s. ISBN 978-1-4113-4199-9. Evans A.M.: An Introduction to economic geology and its environmental impact. Blackwell Science, Oxford London Edinburgh Boston 1997. ISBN 0-86542-876-X Guilbert J.M., Park J.M. The geology of ore deposits. Waveland Press Inc., Long Grove, Illinois: 2007. ISBN 978-1-57766-495-6. Laznicka P.: Giant metallic deposits. 2nd ed., Springer, Heidelberg Dordrecht London New York 2010. ISBN 978-3-642-12404-4 Robb L. Introduction to ore-forming processes. Blackwell Publishing, Oxford, UK: 2005. ISBN 978-0-632-06378-9.



B-III – Course Characteristics Name of Course Well Log Analysis Type of Course Compulsory Course, PB Recommended Year/Term 2/S Extent of Course 28l+28e Hours 56 Credits 5 Pre-requisites, Co-requisites, Equivalence

Pre-requisites: Geohysics, Sedimentology and Stratigraphy


written exam Form of Lecturing lecture + practicals


written exam + coursework + presentation


25 % lecturer

Lecturer prof. Mgr. Ondřej Bábek, Dr., Mgr.Karel Martínek, Ph.D. Brief Course Annotation Four hours teaching blocks will comprise lectures on: 1] Well logging introduction; environment, methods and applications overview 2] Temperature, Calliper and Self-potential logs 3] Resistivity, conductivity, gamma ray and spectral gamma ray logs 4] Sonic/acoustic, density, photoelectric and neutron logs 5] Dipmeter, imaging and combined logging tools 6] Lithology reconstructions, facies/depositional environments 7] Stratigraphy, Case studies, Novel trends (nanoparticles, neural networks, ...) Lectures will be followed by practicals organized also to 4 hr blocks: 1] Data formats, editing, pre-processing (Base/Access) 2] Data Import/Export, Creating and exporting logs (Calc/Excel) 3] Graphic representations of logs, importing logs (Draw/Corel Draw) 4] Stratigraphic correlations, case studies (Resistivity and Gamma ray logs) 5] Stratigraphic correlations, case studies (other geophysical logs logs) 6] Introduction to MOVE or Petrel well log tools 7] Well log correlation panels and 3D fence diagrams (MOVE or Petrel) Practicals will be held in computer rooms using these software packages: 1] Open Office (Base, Calc, Draw), or Microsoft Office (Access, Excel) + Corel Draw 2] MOVE or Petrel Literature and Equipment needed Rider M. 2002. The Geological Interpretation of Well Logs, 2nd edition, Rider-French Consulting, pp. 1 – 280. Darling T. 2006. WELL_LOGGING_AND_FORMATION_EVALUATION. Elsevier, pp. 1 - 326. Ellis D.V and Singer J.M. 2008 Well_Logging_for_Earth_Scientists 2nd ed. Springer, pp. 1 – 692. Ramesh A 2016 WELL_LOGGING_PRINCIPLES_INTERPRETATION_And application. PhD Thesis, Ambedkar Univ. Shrikakulam. Ashraf et al 2019. Classification of reservoir facies using well log and 3D seismic attributes for prospect evaluation and field development: A case study of Sawan gas field, Pakistan. Journal of Petroleum Science and Engineering, Volume 175, p. 338-351. Khan et al. 2019. Plio-Pleistocene stratigraphic sequences and depositional model using 3D seismic interpretation constrained by well logs in Central Graben, North Sea. J Earth Syst Sci (2019) 128: 85. He et al 2019 Using neural networks and the Markov Chain approach for facies analysis and prediction from well logs in the Precipice Sandstone and Evergreen Formation, Surat Basin, Australia. Marine and Petroleum Geology, 101, pp. 410-427.




B-III – Course Characteristics Name of Course Groundwater Hydraulics Type of Course Compulsory Course, BT Recommended Year/Term 2/S Extent of Course 28l+0e Hours 28 Credits 3 Pre-requisites, Co-requisites, Equivalence

Pre-requisites: Mathematics


Written exam Form of Lecturing Lecture


Written exam


100% lecturer

Lecturer prof. Ing. Ondřej Šráček Ph.D., M.Sc.

Brief Course Annotation There will be introduction of basic principles of flow including Darcy’s Law and Laplace’s equation, transmissivity and storativity. Boundary and initial conditions. Flow to wells including Theis and Jacob solutions including the influence of recharge and impermeable boundaries, slug and bail tests interpretation.

Literature and Equipment needed Freeze R.A., Cherry J.A., 1979, Groundwater, Wiley. Hiscock K., 2005. Hydrogeology, Principles and Practice, Blackwell.

Information About Part-Time or Distance Study Form Extent of consultations (Workshops) Information About Contacting the Lecturer


B-III – Course Characteristics Name of Course Carbonate Reservoir Characterization Type of Course Compulsory Course, BT Recommended Year/Term 2/S Extent of Course 42l+14e Hours 56 Credits 5 Pre-requisites, Co-requisites, Equivalence

Pre-requisites: Dynamic Geology, Sedimentology and Stratigraphy


Exam Form of Lecturing Lectures and exercises


Lectures and exercises, self study assignments. Data sets will be provided for group work and self study to teach the methods of "how to evaluate a carbonate reservoir".

Course Guarantor prof. Howri Mansurbeg, Ph.D., M.Sc. Involvement of the Guarantor in Lecturing

100 % lecturer

Lecturer prof. Howri Mansurbeg, Ph.D., M.Sc. Brief Course Annotation Carbonate reservoirs are considered to be the most significant source of hydrocarbon production for this century. This course is offered to provide an introduction to carbonate reservoir evaluation through use of academic and industry course material. Basic terminology and concepts will be taught through lectures, practical exercises and self-study assignments. The course will cover the geology, diagenesis, sequence stratigraphy, petrophysics and seismics in carbonates. What challenges do carbonate reservoirs give? Examples of different carbonate reservoirs will be used to demonstrate the importance of carbonate reservoir characterization (as a multidisciplinary approach) and ways of integrating engineering and geoscience data for more effective reservoir management. The integration of all disciplines will be stressed through lectures, practical exercises and self-study assignments. Data will be provided for practical exercises on evaluation of carbonate reservoirs Ingress: The course gives competence in evaluation of carbonate reservoirs. These can be very different from clastic sandstone reservoirs and contains more than 50% of the petroleum reserves of the earth. The students learn about the geology and the petrophysics of such rocks. They are also given basic knowledge of reservoir geomodelling, uncertainty analysis, risk assessment and seismics. At the end of the course, the students are going to do a large project where they will evaluate data from a carbonate reservoir under the guidance of the course leaders. This project is conducted over a few weeks, and more working hours than normally must be expected. Knowledge: The students are expected to understand data types and aspects of carbonate reservoirs. They should be able to work with such data to evaluate the potential of such a reservoir. They are working together with other students with a complementary competence - just like in the industry. Skills: The students will get insights into the complexity of carbonate reservoirs and how to evaluate data from such reservoirs, how to systematise data, interpret and build a geological reservoir model for carbonate reservoirs, integration petrophysical and seismic data, in addition to get an understanding of the consequences in selection of different depositional models, distribution of reservoir properties , and the theories in building of a reservoir model. General competence: Working together with other students with different competence in the evaluation of petroleum reservoirs is an important competence in the oil industry.


Literature and Equipment needed

Noel P. James and Brian Jones, John Wiley & Sons, Ltd, 2015. Origin of Carbonate Sedimentary Ahr, W.M., 2008, Geology of carbonate reservoirs, Wiley 269pp. Lucia, F. J., 2007, Carbonate Reservoir Characterization.

Some relevant reference material will be provided during the course.

Information About Part-Time or Distance Study Form

Extent of consultations (Workshops) Hours Information About Contacting the Lecturer


B-III – Course Characteristics Name of Course Enhanced Oil Recovery Type of Course Compulsory Course, BT Recommended Year/Term 2/S Extent of Course 42l+14e Hours 56 Credits 5 Pre-requisites, Co-requisites, Equivalence

Pre-requisites: Reservoir Engineering


Oral examination and work Form of Lecturing Lecture Project Laboratory and simulation


The students should understand the application of rate flow equations, reservoir simulation, and production models to describe reservoir-to-sales flow system for gas, gas condensate, and oil fields. Skills: The students should understand how to use the EOS-based PVT program Stars and Petrel reservoir simulator to estimate oil and gas properties for reservoir and production engineering applications of gas and oil fields, including depletion and gas- and water-based IOR (miscible and immiscible). General knowledge: The student should learn to solve real-life problems without solutions being handed out (only provided through in-class partial solutions by the teacher) – i.e. relying on their own ability to check and cross-check their work with others, in addition to using the lectures to ask questions about their solutions to problems. Critical self-learning is emphasized. Self-study is also required to decide what supportive reading is needed to understand (1) lectured material, (2) problems, and (3) project – these three defining the course curriculum.

Course Guarantor Svetlana Rudyk, Ph.D., M.Sc. Involvement of the Guarantor in Lecturing

50 % lecturer

Lecturer Svetlana Rudyk, Ph.D., M.Sc., Ing. Pavel Spirov, Ph.D., M.Sc. Brief Course Annotation The subject is enhanced oil recovery (EOR) used to improve recovery beyone that expected by pressure depletion. Most common EOR methods: Water injection, hydrocarbon (HC) gas injection, and combined water/gas injection (WAG) Gas EOR methods: non-hydrocarbon (CO2 and N2) injection, compositional effects e.g vaporization, and developed miscibility, both in conventional reseervoirs and natrually fractured reservoirs. The course will primarily consider reservoir aspects of EOR methods using HC gas and water injection. Key parameters include microscopic (pore-level) recovery, areal and vertical sweep efficiency. Variations in reservoir rock – i.e. heterogeneities – and fluid property variations with depth can have a strong influence on the success of EOR methods. Therefore we will concentrate on accurate geologic and fluid description and its influence on recovery. Hydrocarbon EOR methods Thermal methods Steam flooding Fire flooding Chemical EOR Polymer flooding Foams


EOR for conventional and conventional oils Unconventional EOR methods. EOR possibility for Iraq

Literature and Equipment needed Curtis H. Whitson & G. Brule: Phase Behaviour, SPE Monograph Series. Miscible displacement, Fred Stalkup Alvarado, V. (2010). Enhanced oil recovery : field planning and development strategies. Manrique, E. (Eduardo). Burlington, MA: Gulf Professional Pub./Elsevier. Other will be specified later PVT lab Computer – Stars, Eclipse, Petrel



B-III – Course Characteristics Name of Course Well testing Type of Course Compulsory Course, BT Recommended Year/Term 3 Extent of Course 56l+0e Hours 56

Credits 5

Pre-requisites, Co-requisites, Equivalence

Pre-requisites: Reservoir Engineering, Mathematics




Exam


Lecturer (70%)

Lecturer Svetlana Rudyk, Ph.D., M.Sc. (70%), Ing. Pavel Spirov, Ph.D., M.Sc. (30%)

Brief Course Annotation Core analysis: Permeability and porosity. Fluid properties: density, viscosity. Interfacial tension. Wettability. Capillary pressure. Resistivity measurements. Upscaling by use of average values, Leverett's J-curve and correlations. Relative permeability. Residual saturations. Two-phase flow. Well testing: Diffusivity equation. Pressure drawdown and buildup tests for vertical and horizontal wells. Estimation of reservoir volume. Flow regimes and diagnostic plots. Fractured wells and fractured reservoirs. Gas reservoirs and multiphase flow. Repetition of the Laplace transformation. Solutions of the diffusivity equation. Elementary discussion of Bessel functions. Flow period diagnostic. Limiting equations. Well test interpretation in homogeneous, fractured and layered reservoirs. Horizontal wells. The pressure derivative. The effect of anisotropy. Multi-phase flow. Multi-rate testing. Constant pressure testing. Learning outcome Ingress: Well test analyses, interpretation and the mathematical background. Knowledge: Practical and theoretical insight into well test interpretation. Literature and Equipment needed olin McPhee, Jules Reed and Izaskun Zubizarreta: Core Analysis: A Best Practice Guide, Elsevier, 2015. Stewart G. Well test design & analysis. PennWell Corporation; 2011. Torsæter, O. and Abtahi, M.: Experimental Reservoir Engineering. IPT, 2004. Jelmert, T.A., "Well Testing". For reference, Sabet, M.A.: Well Test Analysis, Houston TX, Gulf Publishing Co. more will be specified



B-III – Course Characteristics Name of Course Well Completions and Workovers Type of Course Compulsory Course, PB Recommended Year/Term 3 Extent of Course 56l+0e Hours 56 Credits 5 Pre-requisites, Co-requisites, Equivalence

Pre-requisites: Drilling Engineering


Exam Form of Lecturing Lectures, exercises, calculations


Written exam

Course Guarantor Jagar Ali, Ph.D., M.Sc. Involvement of the Guarantor in Lecturing

Lecturer (100%)

Lecturer Jagar Ali, Ph.D., M.Sc. Brief Course Annotation Main topics of course will be: Well control for completion installation and service life Well completion solutions with emphasis on design, equipment, barriers Lower completion: Stand-alone screens, openhole gravel-packed, cased and perforated Upper completion: Naturally flowing producer, injector, gas-lifted producer Well control and equipment for pumping, wireline, coiled tubing, snubbing Well completion failure detection, well intervention application areas After completing this course the student should have skills for calculating: Well completion and well intervention problems from homework and lectures Inflow performance and skin factors von Mises tubular design factor using the yield circle Neutral axial stress datum and zero axial stress datum Effective and real axial force of tubing sealed in packer Effective and real axial force of well intervention work string Buckling force during well completion and well intervention The student should be able to apply general engineering principles and theory learned in the course to solve related engineering problems After completing this course the student should have general knowledge about: Sand control Life of well operations Fluids for completion, workover, intervention Well barriers Pressure testing of well completion and well intervention equipment Well control contingency for well completion and well intervention Proposed well intervention solutions for different types of well problems Literature and Equipment needed Applied Drilling Engineering, by A.D. Bourgoyne Jr., M.E. Chenevert, K.K. Millheim, and F.S. Young Jr., SPE Textbook Series, Vol.2, (1986). Rabia, Hussain. Well Engineering & Construction. London: Entrac Consulting, 202. Drilling Engineering, by J. J. Azar and G. R. Samuel, PennWell, (2007). Petroleum Engineering Handbook, Volume II: Drilling, by R.F. Mitchell, editor, SPE (2007) Drilling Engineering, by J. J. Azar and G. R. Samuel, PennWell, (2007).



B-III – Course Characteristics Name of Course Formation Evaluation Type of Course Compulsory Course, BT Recommended Year/Term 2/S Extent of Course 28l+28e Hours 56 Credits 5 Pre-requisites, Co-requisites, Equivalence

Pre-requisites: Well Log Analysis


Exams Interpretation of logs in Tech log or Interactive Petro physics

Form of Lecturing Lectures, Work with PC


Interpretation of logs in IP


Lecturer (100%)

Lecturer Svetlana Rudyk, Ph.D., M.Sc. Brief Course Annotation Core analysis Type of boreholes Cased hole drilling Open hole drilling Borehole environment and drilling Logging speed Invasion profile Formation damage near the wellbore TEMPERATURE MEASUREMENTS (TEMPERATURE LOGS) Geothermal gradient Fluid pressure Oil based and water based drilling mud Types of well logs Correlations Well logging tools Interoperation of well logs – Mechanical, Acoustic, electrical, resistivity, radioactive Study of Interactive Petro physics on real data Thermometry Correlation with core data Potentials - Diffusion potential/liquid junction potential Resistivity Logging Microresistivity devices Resistivity profile – for water and oil based mud Water resistivity Archies law Formation factor Shale/Clay content Neutron Absorption Porosity determination Calculations for GGM Gas effect from NM and GGM Resistivity of mud filtrate and mud cake Clay volume Porosity & Water Saturation Cross plots Carbonate reservoirs Interpretation in IP


Etc. Main tool will be real well data from companies and students will be using Iteractive Petrophysics software to interpret it.

Literature and Equipment needed Interactive Petrphysics PC Fundamentals in well log interpretation, O. Serra The geological interpretation of well logs, M. Rider Carbonate reservoir characterisation, Lucia



B-III – Course Characteristics Name of Course Geology of Middle East Type of Course Compulsory Course, BT Recommended Year/Term 3/W Extent of Course 28l+0e Hours 28 Credits 3 Pre-requisites, Co-requisites, Equivalence


Exams

Form of Lecturing Lectures


Course Guarantor Ing. Lada Hýlová, Ph.D. Involvement of the Guarantor in Lecturing

Lecturer (100%)

Lecturer Ing. Lada Hýlová, Ph.D Brief Course Annotation Historical Geology of the MiddleEast Tectonics and rogeny Great Rift Valley Geology of Iraq Geology of Iran Geology of Bahrain, Quatar, Kuwait, Oman Geology of Jordan, Israel, Lebanon, Syria Geology of Saudi Arabia Earthquakes Oil and Mining of the Middle East

Literature and Equipment needed Naim, A.E.M, Alsharhan, A.S. (1997). Sedimentary Basins and Petroleum Geology of the Middle East. 1st Edition. Elsevier Science. 878 pp. Beydoun, Z.R. (1988). The Middle East: Regional Geology and Petroleum Resources. Scientific Press. 291 pp. Windley, B.F. (1996). The Evolving Continents, 3rd edition. Wiley-Blackwell. 526pp. Clarke, A. (1990). Bahrain Oil and Development. Boulder CO: International Research Center for Energy & Economic Development.



B-III – Course Characteristics Name of Course Applied and Structural Geology Type of Course Compulsory Course, PB Recommended Year/Term 3/W Extent of Course 28l+28e Hours 56 Credits 3 Pre-requisites, Co-requisites, Equivalence


Exam Form of Lecturing Lectures + self-education


Written exam, 80 % attendance at labs, PowerPoint presentation


Lectures (25 %)

Lecturer prof. Mgr. Ondřej Bábek, Dr., Mgr. Jiří Rez, Ph.D.

Brief Course Annotation − Structural geology and structural analysis − Primary structure of magmatic, sedimentary and metamorphic rocks − Deformation, Stress and Strain, Lithospheric stress, Rheology − Kinematics and úaleostress analysis − Contractional, extensional, strike-slip, transpressional and transtensional regimes − Brittle deformation, Faults, Shear zones and mylonites − Salt tectonics − Folds and folding − Foliation and cleavage, lineations, boudinage − Orientation analysis, stereographic projection − Properties and physical behaviour of Soils and Rocks − Geological Materials used in Constructions − Methods of Site Investigation for Engineering Geology Exploration − Geological hazards, natural and anthropogenic, slope processes − Geology and Construction (open excavations, tunnels, underground caverns, dams and dam sites, highways,

railroads, bridges, etc.) Literature and Equipment needed Davis, G.H., Reynolds, S.J., 1996. Structural geology of rocks and regions, 2nd ed., J. Wiley and Sons, New York Fossen, H., 2010. Structural Geology. Cambridge Univ. Press, Cambridge Bell, F.G., 2007. Engineering Geology, 2nd ed., Elsevier, Amsterdam Ramsay, J., Huber, M., 1984. The techniques of modern structural geology. Academic Press Ramsay, J., Huber, M., 1987. The techniques of modern structural geology. Academic Press



B-III – Course Characteristics Name of Course Applied Statistics Type of Course Compulsory Course, PB Recommended Year/Term 3/S Extent of Course 28l+28e Hours 56 Credits 5 Pre-requisites, Co-requisites, Equivalence





Lectures (100 %)

Lecturer RNDr. Tomáš Fürst, Ph.D., Mgr. Jakub Dostál Brief Course Annotation A first look at data: Data acquisition, consolidation, representation A single attribute: Categorial and continuous variables, descriptive stats and visualization Two attributes: Visualization, correlation Multi-dimensional data Probability and random variables Conditional probability and the Bayes Theorem Principles of hypothesis testing Basic problems of multidimensional statistics: classification, regression, cluster analysis, PCA Literature and Equipment needed https://ocw.mit.edu/courses/mathematics/18-650-statistics-for-applications-fall-2016/syllabus/


https://ocw.mit.edu/courses/mathematics/18-650-statistics-for-applications-fall-2016/syllabus/


B-III – Course Characteristics Name of Course Bachelor Project Type of Course Compulsory Course, PB Recommended Year/Term 3/W Extent of Course 0l+168e Hours 168 Credits 12 Pre-requisites, Co-requisites, Equivalence


Credit Form of Lecturing Lectures + self-education


PowerPoint presentation, Thesis

Course Guarantor Prof. Mgr. Ondřej Bábek, Dr. Involvement of the Guarantor in Lecturing

Lectures (100 %)

Lecturer Prof. Mgr. Ondřej Bábek, Dr.

Brief Course Annotation The student demonstrates by the BSc. Thesis the knowledge of the basic terminology of the discipline, ability to work with literature, evaluate and classify information and generalise the acquired findings. He (she) will apply the knowledge of research methodics on and chosen concrete topic.

Literature and Equipment needed Literature recommended by the supervisor.



B-III – Course Characteristics Name of Course Strength of Materials Type of Course Compulsory-Elective – Gr. 1, PB Recommended Year/Term 2/W Extent of Course 42l+0e Hours 42 Credits 4 Pre-requisites, Co-requisites, Equivalence




Written Examination

Participation in lectures, assignments, lab work. After competition of this course, students will know basement of materials behaving. They will gain essential knowledge which each oil/gas engineer should know. Course Guarantor Ing. Jiří Čepil Involvement of the Guarantor in Lecturing

Lectures (100 %)

Lecturer Ing. Jiří Čepil

Brief Course Annotation

Physical principles of the strength of materials. General rules for choices of building materials. Materials specifics and its behavings. Suitable materials for soil structures. Suitable materials for buildings. Control, testing and quality management. Stresses and strains. Elasticity and thermoelasticity. Anisotropy and symmetry planes. Linear viscoelasticity. Plasticity and viscoplasticity (yield criteria, flow law, hardening, effects of strain rate and temperature). Finite element method for nonlinear materials. Literature and Equipment needed F. Irgens: Continuum Mechanics, Springer, 2008. R.D. Cook, D.S. Malkus, M.E. Plesha, R.J. Witt: Concepts and Application of Finite Element Analysis, 4th ed, Wiley, 2002



B-III – Course Characteristics Name of Course Production Engineering Type of Course Compulsory-Elective – Gr. 1, PB Recommended Year/Term 2/W Extent of Course 28l+28e Hours 56 Credits 5 Pre-requisites, Co-requisites, Equivalence

Pre-requisites: Thermodynamics, (Separation Processes)


writtend report during the semester and examination from such report.

Form of Lecturing Lectures IT cases homework group work


Project based learning. During the semester students shall work in groups and prepare model case project with all calculations and description. At the end of semester there will be oral exam asking the questions from the report. Students can be asked to show their knowledge in designing and using pc software.


Lectures (100 %)

Lecturer Ing. Pavel Spirov, Ph.D., M.Sc., Vit Kudela – KPS Metal, Kurdish IOC – block lectures

Brief Course Annotation A Production Engineer’s job involves designing and selecting the equipment that will get the well to produce oil and gas after it is drilled. They coordinate the installation, maintenance and operation of the mining and oilfield equipment, and manage the boundary between the well and the reservoir using perforations, sand control, artificial lift, and downhole control. This course introduces basics in oil and gas separation methods. Students will gain basic knowledge in processing of the crude oil and separation oil from water and gas. This course is compilation of lectures with practical applications and calculations. Various separators will be firstly manually calculated and later this will be checked by software. Before knowing the software, student will gain knowledge and understanding all possible methods which are necessary for designing and understanding of separations train. To check if all calculations are correct, HYSYS software will be introduced in this course. HYSYS is number one software used by oil and gas companies in current days.

- Emulsion treating - Emulsion treating experiment in the lab - Emulsion treating techniques - Heat Exchanges - Calculation on of heat exchangers - Aspen HYSYS introduction - Valves - HAZOP analysis - FMEA analysis - Safety and instrumentation - HYSYS - Pipeline calculation and design - Pups - Compressors - Corrosion and pipeline - Problems in pipeline - Gas cleaning and oil cleaning for transportation - Oil storage and transportation - Exercises in HYSYS


Literature and Equipment needed Introduction to chemical engineering thermodynamics, J. M. Smith Petroleum Engineering Handbook, Larry W. Lake, volume 3, Facilities and Construction Engineering OIL AND GAS PRODUCTION HANDBOOK, An introduction to oil and gas production, Håvard Devold, ABB Aspen HYSYS tutorial and videos



B-III – Course Characteristics Name of Course Petroleum Economics Type of Course Compulsory-Elective – Gr. 1, PB Recommended Year/Term 2/S Extent of Course 42l+14e Hours 56 Credits 5 Pre-requisites, Co-requisites, Equivalence

Pre-requisites: Principles of Petroleum Engineering


Introduction to financial reporting for oil companies. Capital budgeting: Cash flow analysis, with emphasis on after-tax cash flows. Risk analysis: Probability theory and methods. Market theory: Supply and demand, oil price models, product prices. The national economy.

Form of Lecturing Lecture and exam.


Written exam

Course Guarantor Prof. Howri Mansurbeg, Ph.D., M.Sc. Involvement of the Guarantor in Lecturing

Lecturer (25 %)

Lecturer Prof. Howri Mansurbeg, Ph.D., M.Sc. (25%), Jagar Ali, Ph.D., M.Sc., Ing. Pavel Spirov, Ph.D., M.Sc.

Brief Course Annotation Learning outcome Knowledge: Students should have a basic understanding of the principal economic framework for the petroleum sector. This includes financial reporting, capital budgeting, risk, markets and macroeconomics. Skills: Students should know how to evaluate projects by using net present value, risk models and optimization techniques and to use market models. General competence: Students should have a general theoretical understanding of economics in order to work towards profitable strategic goals for oil companies, government agencies and petroleum related companies. Literature and Equipment needed Will be specified later Lectures Laws from KRG and MNR



B-III – Course Characteristics Name of Course Rock and Soil Mechanics Type of Course Compulsory-Elective – Gr. 1, PB Recommended Year/Term 3/W Extent of Course 28l+0e Hours 28 Credits 3 Pre-requisites, Co-requisites, Equivalence


exam Form of Lecturing Lectures


Written exam

Course Guarantor Ing. Lada Hýlová, Ph.D. Involvement of the Guarantor in Lecturing

Lecturer (100 %)

Lecturer Ing. Lada Hýlová, Ph.D. Brief Course Annotation Origin and composition of soil, basic properties, classification. Distinction from other building materials - particulate nature, polyphase system. Soil formation. Clay minerals. Description of soils. Filtration, deformation and strength properties. Strain, stress state, principle of effective stress. Application tasks solution - slope stability, mechanics of flat substructure, earth loads, filtration stability of ground constructions. Permeability, compressibility of soil. B asic laboratory and field testing of soils. Technology of footing, excavation pits. Bearing power, deformation of grounds. Principles of basement soil amelioration. Basic principles of monitoring in geotechnics. Treatment of soil as building material.

Literature and Equipment needed Jaeger, J., Cook, N.G., Zimmerman R. (2007). Fundamentals of Rock Mechanics 4th Edition. Wiley-Blackwell, 488 pp. Terzaghi, K., Peck, R.B., Mesri, G. (1996). Soil Mechanics in Engineering Practice 3rd Edition. Wiley-Interscience. 592 pp. Hudson, J.A., Harrison, J.P. (1997). Engineering Rock Mechanics: An Introduction to the Principles. Elsevier Science, 456 pp.



B-III – Course Characteristics Name of Course Quaternary Geology Type of Course Compulsory-Elective – Gr. 1, PB Recommended Year/Term 3/W Extent of Course 28l+0e Hours 28 Credits 3 Pre-requisites, Co-requisites, Equivalence


exam Form of Lecturing Lectures


written exam; presentation on a selected topic related to Quaternary geology

Course Guarantor Mgr. Daniel Šimíček, Ph.D. Involvement of the Guarantor in Lecturing

Lecturer (100 %)

Lecturer Mgr. Daniel Šimíček, Ph.D. Brief Course Annotation The Quaternary is the youngest period of evolution of our planet. Almost all human activities are in a constant interaction with Quaternary rocks. Students will be acquainted with definition and stratigraphic division of the Quaternary within the geological history of the Earth and with the development of opinions on this period. Quaternary is a dynamic period characterized by significant climatic fluctuations. The course will include an overview of the causes and intensity of climate change in the past and the usage of these information for prediction of climate development in the near future. Much of the course will be devoted to a detailed description of Quaternary sediments and exogenous and endogenous geological processes (including soil-forming processes) that have shaped the recent landscape. Last but not least, attention will be paid to methods of absolute and relative dating of Quaternary rocks.

Literature and Equipment needed Bradley R.S. 2015. Paleoclimatology: Reconstructing Climates of the Quaternary 3rd Edition. Academic Press, London. Ehlers J., Gibbard P.L. 1996. Quaternary and Glacial geology. John Wiley & Sons Inc., New York. Foster Flint R. 1971. Glacial and Quaternary geology. John Wiley & Sons Inc., New York. Gale S.J., Hoare P.G. 2011. Quaternary sediments: Petrographic Methods for the Study of Unlithified Rocks 2nd Edition. Blackburn Press, Caldwell, New Jersey.



B-III – Course Characteristics Name of Course Hydrogeology Type of Course Compulsory-Elective – Gr. 1, PB Recommended Year/Term 3/S Extent of Course 28l+0e Hours 28 Credits 3 Pre-requisites, Co-requisites, Equivalence

Pre-requisites: Chemistry, Mathematics





Lecturer (100 %)

Lecturer prof. Ing. Ondřej Šráček Ph.D., M.Sc. Brief Course Annotation Hydrological cycle and water balance (precipitation, evapotranspiration, surface runoff, infiltration), principals of ground water flow, introductory hydrogeochemistry, introduction to isotopes applied in hydrology, basic processes of transport (advection, dispersion, diffusion, adsorption and retardation, decay).

Literature and Equipment needed Freeze R.A., Cherry J.A., 1979, Groundwater, Wiley. Hiscock K., 2005. Hydrogeology, Principles and Practice, Blackwell.



B-III – Course Characteristics Name of Course Practical Training Type of Course Compulsory-Elective – Gr. 2 Recommended Year/Term 2/S Extent of Course 0+20 days Hours 160 Credits 12 Pre-requisites, Co-requisites, Equivalence


Credit Form of Lecturing Training



Lecturer (100 %)

Lecturer Ing. Pavel Spirov, Ph.D., M.Sc. Brief Course Annotation Short-term stay at a workplace focused on research, management or monitoring of the petroleum engineering. Students will in this way imminently acquaint with topical problems solved at chosen institutions and will, where possible, participate in the preparation and processing of background materials.

Literature and Equipment needed



B-III – Course Characteristics Name of Course Field Labs in Environmental Geology Type of Course Compulsory-Elective – Gr. 2 Recommended Year/Term 3/W Extent of Course 0+5 days Hours 40 Credits 5 Pre-requisites, Co-requisites, Equivalence


Credit Form of Lecturing Demonstration, Practicing


The requirement for completing this course is active participation in field campaign. The task will be to measure, process and interpret data. The final report is needed to complete the course.


Lecturer (100 %)

Lecturer Mgr. Jan Sedláček, Ph.D. Brief Course Annotation The main aim of this course is to obtain knowledge about tools used in environmental monitoring. Gamaspectrometry, X-ray fluorescence, spectral reflectance, grain size analysis and magnetic susceptibility will be used. Basic techniques of sample acquisition, description and processing will be presented and practiced, as well as interpretation of results. The first stage of this course will be organised in the field, subsequent second stage in the lab and final results processing on the PC.

Literature and Equipment needed Burden FR, McKelvie I, Förstner U, Guenther A. 2002. Environmental monitoring handbook, McGraw-Hill Professional. Perry CH, Taylor K eds. 2007: Environmental Sedimentology, Blackwell Publishing. Platt U, Director Kim YJ. 2008: Advanced Environmental Monitoring, Springer. Keller EA. 2012: Introduction to Environmental Geology, Prentice Hall.



B-III – Course Characteristics Name of Course Course of Shallow Geophysics Type of Course Compulsory-Elective – Gr. 2 Recommended Year/Term 3/W Extent of Course 0+5 days Hours 40 Credits 5 Pre-requisites, Co-requisites, Equivalence


Credit Form of Lecturing Lecturing, Demonstration, Practicing


The requirement is five days of active participation for completing this course. The task will be to measure, process and interpret geophysical data. The final report is needed to complete the course.


Lecturing, Demonstration, Practicing (100 %)

Lecturer Mgr. Jan Sedláček, Ph.D. Brief Course Annotation The course is focused on practical use of near surface geophysical methods. Students will be familiarized with the theoretical basis of individual methods, including their implementation in geological survey. The field stage will follow subsequently. Following methods will be used: ground penetrating radar, electrical resistivity tomography, dipole electromagnetic profiling, seismic reflection and refraction. Measured data will be processed on a PC using specialized software. The main aim will be data interpretation in respect of geological structures.

Literature and Equipment needed Parasnis DS. 1996: Principles of Applied Geophysics (Fifth Edition), Chapman & Hall. Sharma V. 1997: Environmental and engineering geophysics, Cambridge University Press Cambridge. Mussett AE, Khan MA. 2002: Looking into Earth. An Introduction to Geological Geophysics, Cambridge Univ. Press. Milsom J. 2008: Field Geophysics. Third Edition, John Wiley and Sons Ltd.



B-III – Course Characteristics Name of Course Modern Methods of Geophysical Data Processing Type of Course Compulsory-Elective – Gr. 2 Recommended Year/Term 3/W Extent of Course 0l+28e Hours 28 Credits 3 Pre-requisites, Co-requisites, Equivalence


Credit Form of Lecturing Tutorials, demonstration


Regular attendance at tutorials, elaboration of protocols and images of processed geophysical data


Tutorial lecturer (50 %)

Lecturer Mgr. Daniel Šimíček, Ph.D. (50 %), Mgr. Zuzana Lenďáková (50 %) Brief Course Annotation The tutorial is focused on software processing of geophysical data. Students will be introduced to the principles of computer visualization of the raw package of geophysical data. For processing students may use data from their own research or the data will be assigned by lector. Data from electric resistivity tomography, seismic and ground penetrating radar will be processed within software such as ReflexW, Surfer, Res2Dinv.

Literature and Equipment needed Rockworks 99 - Instruction Manual, RockWare, Earth Science Software. Golden, Colorado, 162pp. Swan A. R. H., Sandilands M. 1995. Introduction to Geological Data Analysis. Blackwell, Oxford, 446pp. Loke M. H. 2013. Tutorial: 2-D and 3-D electrical imaging surveys. Geotomo software company, 136pp.



B-III – Course Characteristics Name of Course Medical Geology Type of Course Compulsory-Elective – Gr. 2 Recommended Year/Term 3/S Extent of Course 28l+0e Hours 28 Credits 3 Pre-requisites, Co-requisites, Equivalence


Exam Form of Lecturing Lectures


Course Guarantor RNDr. Petr Sulovský, Ph.D. Involvement of the Guarantor in Lecturing

Lecturer (100%)

Lecturer RNDr. Petr Sulovský, Ph.D. Brief Course Annotation Environmental biology: natural background, anthropogenic sources of environment pollution, intake of elements from chemical and biological point of view. Biological functions of leements, cycles of nutritionally important and trace elements. Geological impacts on nutrition. Element deficiences, toxicity. Relation between the dose and health effect. Pathways of elements intake, ways of exposition. The influence of individual elements on human health: radon, arsenic, fluorine, iodine, lead, beryllium, mercury, selenium, aluminium, silicon. The influence of radioactivity on health. Bioavailability of trace and major elements of soils, distribution among plant´s organs. Geofagy. Natural and anthropogenic inorganic dusts in aerial aerosol. Volcanic emissions and health, the asbestos problem. Soil pathogents in relation to epidemic diseases. Animals and medical geology. Environmental toxikology and pathology. Speciation of elements - methods of its recognition and the influence on health on the example of mercur, arsenic, and lead. Geographical information systems – tool for epidemiological studies. Minerals in human body - concrements, composition of teeth and bones, its affection by air and potable water quality. Biominerals for health – implants, grafts, prostetics.

Literature and Equipment needed Yassi, A. et al. Basic Environmental Health. 456 s. Oxford University Press, 2001. Vaughan, D., J. - Wogelius, R., A. (eds.). Environmental Mineralogy. EMU Notes in Mineralogy, Vol. 2. 434 s. Eotvos University Press, Budapešť, 2000. Selinus O. (ed.). Essentials of Medical Geology: Impacts of the Natural Environment on Public Health. 832 s. Academic Press, 2005. Skinner, C., S. - Berger, R., A. Geology and Health: Closing the Gap. 192 s. Oxford University Press, 2003.



B-III – Course Characteristics Name of Course Field trip in Geology Type of Course Compulsory-Elective – Gr. 2 Recommended Year/Term 3/S Extent of Course 0+5 days Hours 40 Credits 5 Pre-requisites, Co-requisites, Equivalence


Credit Form of Lecturing Field exercise


5 days active presence, passed prerequisite course, submission of written and material documentation, corresponding knowledge


Lecturer (50 %)

Lecturer Mgr. Daniel Šimíček, Ph.D. (50 %) + prof. Mgr. Ondřej Bábek, Dr. (50 %) Brief Course Annotation Practical field exercises, focused on the presentation of the basic phenomena of exogenous and endogenous dynamics. Students will learn primary documentation of profiles or outcrops, including measurement of structural elements, terrain description of rocks, drawing of rock bodies and structures into topographic map (both digital and printed form). The course consists of four days of field data collection. The last day students process the acquired data into a presentation form (final report).

Literature and Equipment needed Barnes J.W., Lisle R.J. 2004. Basic Geological Mapping (Geological Field Guide) 4th Edition. John Wiley & Sons Ltd., Chichester, UK. Marshak S., Mitra G. 1988. Basic Methods of Structural Geology. Pearson, London. Tucker M.E. 2003. Sedimentary Rocks in the Field: The Geological Field Guide Series (3rd ed.). John Wiley & Sons Ltd., New York.



C-I – Staffing Arrangements – list: Surname Name Titles Sedláček Jan Mgr., Ph.D. Šráček Ondřej prof. Ing., Ph.D., M.Sc. Bábek Ondřej prof. Mgr., Dr. Mansurbeg Howri Prof., Ph.D., M.Sc. Voženílek Vít Prof. RNDr., CSc. Janočko Juraj Prof. Ing., CSc., Dr. Jirásek Jakub Doc. Ing., Ph.D. Rudyk Svetlana Ph.D., M.Sc. Franců Juraj RNDr., CSc. Spirov Pavel Ing., Ph.D., M.Sc. Fȕrst Tomáš RNDr., Ph.D. Pospíšil Jiří RNDr., Ph.D. Urubek Tomáš Mgr., Ph.D. Hýlová Lada Ing., Ph.D. Šimíček Daniel Mgr., Ph.D. Ali Jagar Ph.D., M.Sc. Martínek Karel Mgr. Ph.D. Rez Jiří Mgr., Ph.D. Sulovský Petr RNDr., Ph.D. Lenďáková Zuzana Mgr. Čepil Jiří Ing.


C-I – Staffing Arrangements University Palacký University Olomouc University Facility Faculty of Science Name of Study Program Petroleum Engineering Name and Surname Jan Sedláček Titles Mgr., Ph.D. Year of Birth 1984 Type of

Involvement with the University

p.p. Extent 40 Until 8/20

Type of Involvement with the University Facility Conducting the Study Program

p.p. Extent 40 Until 8/20

Other Simultaneous Committments with Other Universities as a Member of Academic Staff

Type of Employment Relationship

Extent

None Courses in the Particular Study Program and the Manner of Involvement in Their Lecturing, or Other Involvement in the Operation of the Program Dynamic Geology (guarantor, lecturer), Geophysics (guarantor, lecturer), Course of Shallow Geophysics (guarantor, lecturer), Field Labs in Environmental Geology (guarantor, lecturer)

Information on University Education Mgr.: specialization Geology, Masaryk University, Brno, 2008 Ph.D.: doctoral study programme Geology, specialization Geological Sciences, Masaryk University, Brno, 2013

Professional History Since University Graduation 10/2010–8/2014: Palacký Univerzity Olomouc, Faculty of Science; Assistant 8/2014–present: Palacký Univerzity Olomouc, Faculty of Science; Assistant Professor

Experience Regarding Supervision of Qualification and Rigorous Theses 1 Bachelor thesis 1 Diploma thesis

Field of Habilitation Procedure Year of Degree Acquisition

University Conducting the Procedure

Impact of Publications

WOS Scopus Others Field of Nominating Procedure Year of Degree

Acquisition University Conducting the Procedure

149 197

Overview of the Most Important Publication and Other Creative Activities Related to the Respective Course or Other Professional Activities in the Case of Practising Professionals Bábek O, Faměra M, Hilscherová K, Kalvoda J, Dobrovolný P, Sedláček J, Machát J, Holoubek I 2011. Geochemical traces of flood layers in the fluvial sedimentary archive; implications for contamination history analyses. Catena 87:281–290. Matys Grygar T, Sedláček J, Bábek O, Nováková T, Strnad L, Mihaljevič M 2012. Regional contamination of Moravia (South-Eastern Czech Republic): Temporal shift of Pb and Zn loading in fluvial sediments. Water, Air and Soil Pollution 223(2):739–753. Sedláček J, Bábek O, Grygar T 2013. Trends and evolution of contamination in a well-dated water reservoir sedimentary archive: the Brno Dam, Moravia, Czech Republic. Environmental Earth Sciences 69:2581–2593. Pánek T, Smolková V, Hradecký J, Sedláček J, Zernitskaya V, Kadlec J, Pazdur A, Řehánek T 2012. Late-Holocene evolution of a floodplain impounded by the Smrdutá landslide, Carpathian Mountains (Czech Republic). Holocene 23: 218–229. Stacke V, Pánek T, Sedláček J 2013. Late Holocene evolution of the Bečva River floodplain (Outer Western Carpathians, Czech Republic) as a record of interaction between erosion prone catchment and environmental change. Geomorphology 206: 440–451. Spaček P, Bábek O, Štěpančíková P, Švancara J, Pazdírková J, Sedláček J 2015. The Nysa-Morava Zone: an active tectonic domain with Late Cenozoic sedimentary grabens in the Western Carpathians’ foreland (NE Bohemian Massif). International Journal of Earth Sciences. 104: 963–990. Bábek O, Matys Grygar T, Faměra M, Hron K, Nováková T, Sedláček J 2015. Geochemical background in


polluted river sediments: How to separate the effects of sediment provenance and grain size with statistical rigour? Catena 135: 240–253. Sedláček J, Bábek O, Kielar O 2016. Sediment accumulation rates and high-resolution stratigraphy of recent fluvial suspension deposits in various fluvial settings, Morava River catchment area, Czech Republic. Geomorphology 254: 73–87. Chudaničová M, Hutchinson SM, Hradecký J, Sedláček J 2016. Environmental magnetism as a proxy for recent overbank sediments of (peri-)industrial regions in the Czech Republic and UK. Catena 142:21-35. Sedláček J, Bábek O, Nováková T 2017. Sedimentary record and anthropogenic pollution of a complex, multiple source fed dam reservoirs: An example from the Nové Mlýny reservoir, czech Republic. Science of the Total Environment 574: 1456–1471. Kapustová V, Pánek T, Hradecký J, Zernitskaya V, Hutchinson SM, Mulková M, Sedláček J, Bajer V 2018. Peat bog deposits reveal land degradation during 16th- and 17th century colonisation of the Western Carpathians (Czech Republic). Land Degradation & Development, 29(4): 1–13. Grygar Matys T, Hošek M, Pacina J, Štojdl J, Bábek O, Sedláček J, Hron K, Talská R, Kříženecká S, Tolaszová J 2018. Changes in the geochemistry of fluvial sediments after dam construction (the Chrudimka River, the Czech Republic). Applied geochemistry 98: 94–108. Bábek O, Sedláček J, Novák A, Létal A 2018. Electrical resistivity imaging of anastomosing river subsurface stratigraphy and possible controls of fluvial style change in a graben-like basin, Czech Republic. Geomorphology 317: 139–156. Sedláček J, Kapustová V, Šimíček D, Bábek O, Sekanina M 2019. Initial stages and evolution of recently abandoned meanders revealed by multi-proxy methods in the Odra River (Czech Republic). Geomorphology 333: 16–29. Activities Abroad Research internship Aberystwyth (United Kingdom), Department of Geography and Earth Sciences, Aberystwyth University, 2014 (one month) Tours (France), Département Géosciences Environnement, Université Francois Rabelais de Tours, 2018 (one month) Signature Date April 20, 2019


C-I – Staffing Arrangements University Palacký University Olomouc University Facility Faculty of Science Name of Study Program Petroleum Engineering Name and Surname Ondřej Šráček Titles prof. Ing., M.Sc., Ph.D. Year of Birth 1958 Type of


p.p. Extent 40 Until N


p.p. Extent 40 Until N

Other Simultaneous Commitments with Other Universities as a Member of Academic Staff


Extent

None Courses in the Particular Study Program and the Manner of Involvement in Their Lecturing, or Other Involvement in the Operation of the Program Aquatic Geochemistry (guarantor, lecturer), Groundwater Hydraulics (guarantor, lecturer), Hydrogeology (guarantor, lecturer)

Information on University Education Technical University of Mining, Ostrava, Czech Republic, Ing./M.Sc. University of Waterloo, Waterloo, Canada, M.Sc. Universite Laval, Quebec, Canada, Ph.D. Professional History Since University Graduation 1984-1989 Geological Survey Ostrava; 1990-1997 research associate at University of Waterloo and Universite Laval; 1998-2002 visiting professor at Charles University, Prague and Universidade de Sao Paulo, Brasil, 2002-2008 Masaryk University, Brno, 2009- now, Palacky University, Olomouc; Experience Regarding Supervision of Qualification and Rigorous Theses Supervising 5 Ph.D. and 7 M.Sc. students.




Geological sciences 2005 Masaryk University, Brno

WOS Scopus Others

Field of Nominating Procedure Year of Degree Acquisition


2188 2450

Geological sciences 2013 AGH Krakow Overview of the Most Important Publication and Other Creative Activities Related to the Respective Course or Other Professional Activities in the Case of Practising Professionals 111 entries on the Web of Science including Nature Geoscience, Environmental Pollution, Journal of Hazardous Materials etc.

Activities Abroad Mexico (UNAM), Taiwan (NCKU), Sweden (Royal Institute of Technology), Poland (AGH) – lecturer, supervisor of theses

Signature Date April 24, 2019


C-I – Staffing Arrangements University Palacký University Olomouc University Facility Faculty of Science Name of Study Program Petroleum Engineering Name and Surname Ondřej Bábek Titles prof. Mgr., Dr. Year of Birth 1969 Type of


pp. Extent 40 Until N





Extent

Masary University of Brno, Faculty of Science p.p. 2 h. weekly Courses in the Particular Study Program and the Manner of Involvement in Their Lecturing, or Other Involvement in the Operation of the Program Principles of Pertoleum Geology (guarantor, lecturer 25%), Sedimentology and Stratigraphy (guarantor, lecturer), Well Log Analysis (guarantor, lecturer 25%), Applied and Structural Geology (guarantor, lecturer 25%), Bachelor Project (guarantor), Field Trip in Geology (lecturer)

Information on University Education 1992: MSc. in Geology and geochemistry, Masaryk University, Brno 1995: Ph.D. in Geological Sciences, Masaryk University, Brno 2005: habilitation (doc.), Masaryk University, Brno 2014: full professor (prof.), Masaryk University, Brno Professional History Since University Graduation 1996 - 2005: Department of Geology, Faculty of Science, Palacky University of Olomouc; assistant professor, associate prof., full prof. 2005 - 2017: Department of Geological Sciences, Faculty of Science, Masaryk University, Brno; associate prof., full prof. 2010 - present: Head of Department of Geology, Faculty of Science, Palacky University of Olomouc Experience Regarding Supervision of Qualification and Rigorous Theses Supervisor of > 40 Bc. and MSc. theses at UP Olomouc and MU Brno Supervisor of 2 RNDr. theses at UP Olomouc Supervisor of 8 PhD projects at MU Brno and UP Olomouc, of that 4 succesfully defended Field of Habilitation Procedure Year of Degree



Geological Sciences 2005 MU Brno WOS Scopus Others Field of Nominating Procedure Year of Degree


1020/ HI:20

1184/ HI:21

1272/ Res-Gate Geological Sciences 2014 MU Brno

Overview of the Most Important Publication and Other Creative Activities Related to the Respective Course or Other Professional Activities in the Case of Practising Professionals Bábek O, Kalvoda J, Cossey P, Šimíček D, Devuyst F-X, Hargreaves S (2013) Facies and petrophysical signature

of the Tournaisian/Viséan (Lower Carboniferous) sea-level cycle in carbonate ramp to basinal settings of the Wales-Brabant massif, British Isles. Sedimentary Geology 284–285: 197–213.

Šimíček D., Bábek O., 2015. Spectral gamma-ray logging of the Grès d'Annot, SE France: An outcrop analogue to geophysical facies mapping and well-log correlation of sand-rich turbidite reservoirs. Marine and Petroleum Geology 60, 1–17.

Bábek O, Kumpan T, Kalvoda J, Grygar TM (2016) Devonian/Carboniferous boundary glacioeustatic fluctuations in a platform-to-basin direction: A geochemical approach of sequence stratigraphy in pelagic settings. Sedimentary Geology 337: 81–99.

Da Silva A.C., Hladil J., Chadimová L., Slavík L., Hilgen F.J., Bábek O., Dekkers M.J., 2016. Refining the Early Devonian time scale using Milankovitch cyclicity in Lochkovian-Pragian sediments (Prague Synform, Czech Republic). Earth and Planetary Science Letters 455, 125-139.

Babek O, Famera M, Simicek D, Weinerova H, Hladil J, Kalvoda J (2018) Sea-level changes vs. organic productivity as controls on Early and Middle Devonian bioevents: Facies- and gamma-ray based sequence-


stratigraphic correlation of the Prague Basin, Czech Republic. Global and Planetary Change 160: 75-95.

Activities Abroad - Tempus scholarship, 6 months, 1994, Lund University, Sweden - Short stays (under 1 month) University of Durham (UK); Jagellonian University Krakov (Poland); Universite

de Tours (France); Universa v Ljubljani (Slovenia), Vrije Universiteit Amsterdam (the Netherlands), Nanjing Institute of Geology and Paleontology (PRC)

Field work: Pyrenees (France), Alps (France and Austria), Ireland, Dinant Syncline (Belgium), Rhenish Massif (Germany), South Wales (UK), Anti-Atlas (Morocco), Great Basin (Utah, Nevada, USA), South China Signature Date April 17, 2019


C-I – Staffing Arrangements University Palacký University Olomouc University Facility Faculty of Science Name of Study Program Petroleum Engineering Name and Surname Howri Mansurbeg Titles prof. , MSc. Year of Birth 1971 Type of


pp. Extent 8 Until 9/22





Extent

Czech Academic City Erbil pp. 40 Department of Petroleum Geosciences, Faculty of Science, Soran University, Iraqi Kurdistan

pp.

Courses in the Particular Study Program and the Manner of Involvement in Their Lecturing, or Other Involvement in the Operation of the Program Carbonate Reservoir Characterization (guarantor, lecturer), Petroleum Economics (guarantor, lecturer 25%)

Information on University Education 2007. Ph.D. Degree, Uppsala University, Sweden [Reservoir diagenesis]. Dissertation: Diagenesis and Reservoir-Quality Evolution of Deep-Water Turbidites: Links to Basin Setting, Depositional Facies, and Sequence Stratigraphy. Acta Universitatis Upsaliensis. Digital Comprehensive Summaries of Uppsala Dissertations from the Faculty of Science and Technology 279. 59 pp. Uppsala. ISBN 978-91-554-6817-0. Supervisor: Professor Sadoon Morad. 2001. MSc. Degree, Collaboration project between Denmark Technical University and Lund University in Sweden. [Reservoir diagenesis] Dissertation: Modelling of reservoir quality in quartz-rich sandstones of the Lower Cretaceous Bentheim sandstones, Lower Saxony Basin, NW Germany 1998. MSc. Degree, Chalmers University of Technology, Gothenburg, Sweden [Petroleum Exploration], Master degree in petroleum exploration. 1993. BSc. Degree, Salahaddin University, Iraqi Kurdistan. [Geology], Undergraduate thesis title: Wireline Source-Rock Evaluation (example from Kirkuk oil field), Northern Iraq. Professional History Since University Graduation Professor: Department of Petroleum Geosciences, Faculty of Science, Soran University, Iraqi Kurdistan (2014-present). Adjunct Professor, Department of Earth and Environmental Sciences at the University of Windsor, Canada, (2018-present) Chairman of the Board, Czech Academic City, Erbil, (2018-present) Associate professor at the Petroleum Geosciences and the vice president for scientific affairs, Soran University, (2010-2014). Consultant Geoscientist at Tiway (Norwegian-Turkish Company), 2013-201 Senior Advisor to South Oil CEO (Mark Bush) between (2012 – 2013). Research Associate at The Petroleum Institute, Abu Dhabi, UAE. (2012). AGR Petroleum in Oslo-Norway, (Principal Geoscientist, 2008 – 2011) Principal Geologist, AGR petroleum services Oslo- Norway (2008-2010). Geologist, TOTAL E&P, Pau, France (2007-2008) Ph.D. Researchers, European Science Foundation Euromargin Project, Department of Earth Sciences, Uppsala university, Sweden (2003-2007) Experience Regarding Supervision of Qualification and Rigorous Theses 1. PhD project (Co-supervisor): Paleofluid Flow, Fracturing and Reservoir Implications in Cretaceous Qamchuqa Formation, Kurdistan Iraq (Co-supervisor, in collaboration with the University of Windsor in Canada). 2. PhD project (Co-supervisor): Cretaceous-Early Eocene related hydrothermal dolomitization along a strike-slip shear zone in the Maritime Alps (NW Italy). (In collaboration with the Free University of Brussels and University of Torino, Italy). 50.000USD


has been secured from the ministry of higher education and scientific research in the Kurdistan Region through me as a supervisor (Acomplished in 2018) 3. PhD project supervisions: a/Asphaltene deposition in wellbore of Kurdistan Region fields and Microbial community composition of natural oil and asphalt seeps (in collaboration with Århus University, Denmark). 60.000USD has been secured from the ministry of higher education and scientific research in the Kurdistan Region through my grant application as a supervisor. b/ Fault-controlled dolomitization of Upper Cretaceous reservoirs, Zagros Basin, Kurdistan Region of Iraq: implications for hydrocarbon migration and degradation (several scientists from several universities in Europe) c/ Micritization and recrystallization: keys to evolution of microporosity in carbonate reservoirs (research in collaboration with the Petroleum Institute in Abu Dhabi). d/ Impact of stylolitization on diagenesis of Cretaceous carbonates reservoirs from the Middle East (research in collaboration with the Petroleum Institute in Abu Dhabi and The University of Windsor in Canada). e/ Diagenetic and related reservoir-Quality and heterogeneity in Paleocene turbditic sandstones from the UK Central Graben. 4. PhD project (principal supervisor). Tectonostratigraphic study of the evolution of Binabawi, Bekhme and Shirin anticlines in the Zagros highlands (NE of Kurdistan Zagros), a collaboration project between Soran University (the Kurdistan Regional Government) and Uppsala University (Sweden). Field of Habilitation Procedure Year of Degree



Geosciences 2010 Soran University WOS Scopus Others Field of Nominating Procedure Year of Degree


377 449

Geosciences 2014 Soran University Overview of the Most Important Publication and Other Creative Activities Related to the Respective Course or Other Professional Activities in the Case of Practising Professionals 19 conference abstracts, 43 publications (27 entries on the Web of Science), f. e.: Kareem H. Kareem; Ihsan S.Al-Aasm; HowriMansurbeg; Structurally-controlled hydrothermal fluid flow in an extensional tectonic regime: A case study of cretaceous Qamchuqa Formation, Zagros Basin, Kurdistan Iraq. Sedimentary Geology, Available online 10 April 2019. Sadoon Moradad; Mohammad Al Suwaidia; Howri Mansurbeg; Daniel Morad; Andrea Ceriania; Matteo Paganonie; Ihsan Al-Aasm; Diagenesis of a limestone reservoir (Lower Cretaceous), Abu Dhabi, United Arab Emirates: Comparison between the anticline crest and flanks. Sedimentary Geology, Volume 380, February 2019, Pages 127-142 Activities Abroad


https://www.sciencedirect.com/science/journal/00370738


C-I – Staffing Arrangements University Palacký University Olomouc University Facility Faculty of Science Name of Study Program Petroleum Engineering Name and Surname Vít Voženílek Titles prof. RNDr. CSc. Year of Birth 1965 Type of







Extent

none Courses in the Particular Study Program and the Manner of Involvement in Their Lecturing, or Other Involvement in the Operation of the Program GIS applications (guarantor, lecturer)

Information on University Education CSc.: 1992: Masaryk University, Brno (physical geography) Professional History Since University Graduation 1998 Elementary School Vyškov-Dědice (teacher) 1988–1989 military service 1989–now: Palacký University in Olomouc, Faculty of Science (assistant, lecturer, associate professor, professor) 2004–2008 Charles University, Faculty of Science (associate professor, professor) Experience Regarding Supervision of Qualification and Rigorous Theses Supervising of theses since 1990 at the Faculty of Science, Palacký University Olomouc, Faculty of Science, Charles University in Prague and HGF VŠB-TU Ostrava. For 29 years at universities, more than 55 bachelor theses, over 35 master's theses, 4 rigorous theses and 16 dissertations have been successfully defended. Field of Habilitation Procedure Year of Degree



Phisical geography 1996 Palacky University Olomouc

WOS Scopus Others



408 420 1811

Geoinformatics 2007 VSB_Technical University Ostrava

Overview of the Most Important Publication and Other Creative Activities Related to the Respective Course or Other Professional Activities in the Case of Practising Professionals Vondráková, A., Voženílek, V. a kol. (2016): Atlas vysokého školství v České republice 2001–2014. Olomouc,

Univerzita Palackého v Olomouci, 120 s. ISBN 978-80-244-5139-8 (40 %) Hudeček, T., Žáková, Z., Vondráková, A., Kufner, J., Voženílek, V., Selníková, N. 2016): Atlas dopravní

dostupnosti v České republice. Olomouc, Univerzita Palackého v Olomouci, 144 s., ISBN 978-80-244-4982-1 (30 %)

Bělka, L., Voženílek, V. (2013): Ortofotomapa – geovizualizace materiálů dálkového průzkumu Země. Olomouc, Univerzita Palackého v Olomouci, 141 s. ISBN 978-80-244-3592-3 (50 %)

Voženílek, V., Michalík, J. a kol. (2013): Atlas speciálně pedagogických center v České republice [Atlas of Special Education Centres in the Czech Republic]. Olomouc, Univerzita Palackého v Olomouci, 144 s. ISBN 978-80-244-3464-3 (70 %)

Vozenilek, V. (2015): Detection and clustering of features in aerial images by neuron network-based algorithm. Proc. of The Seventh International Conference on Graphic and Image Processing (ICGIP 2015), Proceedings of SPIE , Vol.: 9817, Article Number: 98170V, ISSN: 0277-786X (100 %)


Activities Abroad Birkbeck College University of London (UK, 1993, researcher), UMCS Lublin (Poland, 1994, lecture stay), UAM Poznan (Poland, 1994, lecture stay), University of Redlands (USA, 2004, researcher), Pennsylvania State University (USA, 2016, researcher) Signature Date April 15, 2019


C-I – Staffing Arrangements University Palacký University Olomouc University Facility Faculty of Science Name of Study Program Interpretation of 2D and 3D seismics Name and Surname Juraj Janočko Titles prof., Ph.D., Dr.scient. Year of Birth 1959 Type of


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Extent

Technical University in Kosice, Slovakia pp 40 Courses in the Particular Study Program and the Manner of Involvement in Their Lecturing, or Other Involvement in the Operation of the Program Geophysics (lecturer 50 %)

Information on University Education Dipl. Engineer in the field of the Mining Geology and Geological Exploration, given by the Mining Faculty, Technical University in Kosice, Slovakia Philosophiae doctor (PhD.), given by the Slovak Academy of Science, Bratislava, Slovakia Doctor scientiarum (Dr.scient.), given by the Norwegian Research Council, Oslo, Norway Professional History Since University Graduation 1982 - 1993: geologist, Dionýz Štúr Institute of Geology, Bratislava, Slovakia 1993 - 1996: research worker, University of Tromso, Norway 1996 - 2002: Senior scientific and research worker - geologist, Geological Survey of Slovakia, Slovakia 2003 - 2008: Senior lecturer, associate professor, Faculty BERG, Technical University Kosice, Slovakia 2008 - 2015: University professor, director of Inst. of Geosciences, Faculty BERG, Technical University in Kosice, Slovakia 2008 - 2011 (part-time): University professor, RES - University of Iceland, Akureyri, Iceland 2015 - 2019: University professor, Vice-dean for science, research and Phd. study, Faculty BERG, Technical university in Kosice, Slovakia 2019 - : University professor, Vice-dean for foreign relationships and projects Experience Regarding Supervision of Qualification and Rigorous Theses Supervising of 4 finished PhD. students Supervising of 15 MSc. students




Mining Geology and Geological Prospection

2003 Technical University in Kosice, Slovakia

WOS Scopus Others



170 82 116

prof. in Mining Geology and Geological Prospection

2008 Technical University in Kosice, Slovakia

Overview of the Most Important Publication and Other Creative Activities Related to the Respective Course or Other Professional Activities in the Case of Practising Professionals Prekopova, M., Janocko, J. Budinsky, V. and Friedmannova, M., 2017: Integration of seismic and sedimentological methods for analysis of Quaternary alluvial depositional systems. Env. Earth Sciences, Vol. 76, no. 1, 1-14. Janocko, J. et al., 2005: Geology and Hydrocarbon Resources of the Inner Western Carpathians, Slovakia and Poland. In: The Carpathians and Their Foreland: Geology and Hydrocarbon Resources. Tulsa: The American Association of Petroleum Geologists, 569-603. Janocko, J. et al., 2003: Tectono-sedimentary evolution of Western Carpathian Sedimentary Basins. SGUDS, Slovakia, 290 pp.


Lokajova, J. and Janocko, J., 2000: Analysis of depositional environment as a tool for hydrocarbon exploration: a case study from the Late Badenian deposits in the Trhoviste - Pozdisovce area, East-Slovakian Basin, Slovakia. Mineralia Slovaca, Vol, 32, no. 3, 325-327. Kováč, M., Marko, F., Karoli, S. and Janocko, J., 1995: The East-Slovakian Basin: a complex back-arc basin. Tectonophysics, Vol. 252, no. 1-4, 453-466. Other activities related to the respective course: numerous years of consultation for the oil company Nafta a.s., Bratislava, Slovakia in the field of sedimentology and seismic interpretation of the sediments from the East-Slovakian Basin during the prospection campaigns. 4 years of lecturing 3D visualization technique (seismics) at RES, University of Iceland, Reykjavik, Iceland Introduction and lecturing of the course Interpretation of 2D and 3D seismics at the Faculty BERG, Technical University in Kosice, Slovakia Introduction and lecturing of the course Seismics in Oil and Gas Industry. Activities Abroad 1990 - 1993 part-time work for the Geological Survey of Austria as a geologist 2000 - 2002 part-time work for consulting the hydrocarbon exploration in the Middle East 2008-2011 Visiting professor, School for Renewable Energy Sciences, University of Iceland, Akureyri, Iceland Main international consultation activities: Norsk Hydro, Norway, analogues of hydrocarbon reservoirs Manvitt, Iceland: prospection of geothermal resources Bewag, Austria: prospection of geothermal resources Panax, Australia: prospection of geothermal resources The most important studies abroad: Norway: sedimentology of glacimarine shelf New Zealand: deep water sediments Mexico: deep water sediments as an analogue for hydrocarbon traps Turkey: deep water sediments as an analogue for hydrocarbon traps India: sedimentology of fluvial deposits Brazil: analysis of sedimentary basins Signature Date April 25, 2019


C-I – Staffing Arrangements University Palacký University Olomouc University Facility Faculty of Science Name of Study Program Petroleum Engineering Name and Surname Jakub Jirásek Titles doc. Ing., Ph.D. Year of Birth 1978 Type of


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Extent

VŠB-Technical University of Ostrava, Dept. of Geol. Engineering pp. 40 until 31.1.2022 VŠB-Technical University of Ostrava, Centre ENET pp. 8 until 31.12.2019 Courses in the Particular Study Program and the Manner of Involvement in Their Lecturing, or Other Involvement in the Operation of the Program Economic Geology (guarantor, lecturer)

Information on University Education Geological Engineering, VŠB-Tech. Univ. Ostrava, Ph.D., 2005 Professional History Since University Graduation 2004-2005: lecturer, Intitute of Geological Engineering, VŠB-Tech. Univ. of Ostrava 2005-2015: assistant, Intitute of Geological Engineering, VŠB-Tech. Univ. of Ostrava 2015-present: associate professor, Intitute of Geological Engineering, VŠB-Tech. Univ. of Ostrava 2018-present: senior researcher, Centre ENET, VŠB-Tech. Univ. of Ostrava Experience Regarding Supervision of Qualification and Rigorous Theses Bc. – 31 Ing. – 13 Ph.D. – 1 Field of Habilitation Procedure Year of Degree



Economic Geology 2015 Komenský Univ. Bratislava (Slovakia)

WOS Scopus Others



100 127 215

Overview of the Most Important Publication and Other Creative Activities Related to the Respective Course or Other Professional Activities in the Case of Practising Professionals Sivek M., Kavina P., Jirásek J.: New Mineral Policy of the Czech Republic of June 2017. Resources Policy, 2019, vol. 60, pp. 246-254. Jirásek J., Opluštil S., Sivek M., Schmitz M.D., Abels H.A.: Astronomical forcing of Carboniferous paralic sedimentary cycles in the Upper Silesian Basin, Czech Republic (Serpukhovian, latest Mississippian): New radiometric ages afford an astronomical age model for European biozonations and substages. Earth-Science Reviews, 2018, vol. 177, pp. 715-741. Starý, J., Pticen, F., Jirásek, J., Sivek, M.: Development of kaolin production, reserves and processing in the Czech Republic in 1999–2015. Gospodarka Surowcami Mineralnymi – Mineral Resources Management, 2017, vol. 33, issue 3, pp. 121-142. Tiewsoh, L.S., Sivek, M., Jirásek, J.: Traditional energy resources in India (coal, crude oil, natural gas): A review. Energy Sources, Part B, 2017, vol. 12, issue 2, pp. 110-118.


Hýlová, L., Jirásek, J., Sivek, M., Jureczka, J.: Coal-bearing capacity of the Petřkovice Member (Ostrava Formation, Serpukhovian, Mississippian) of the Upper Silesian Basin (Czech Republic and Poland). Geological Quarterly, 2016, vol. 60, no. 3, pp. 637-649. Activities Abroad - since 2010: member of the Ad Hoc Group of External Scientific and Technical Experts – Geological Exploration of the Interoceanmetal Joint Organization (IOM) Company - since 2017: member of the Scientific Advisory Board of the GSM – Mineral Resources Management Journal Signature Date April 17, 2019


C-I – Staffing Arrangements University Palacký University Olomouc University Facility Faculty of Science Name of Study Program Petroleum Engineering Name and Surname Svetlana Rudyk Titles Ph.D., M.Sc. Year of Birth 1966 Type of







Extent

Czech Academic City Erbil pp. 40 Sultan Qaboos University, Oil and Gas Research centre pp. Courses in the Particular Study Program and the Manner of Involvement in Their Lecturing, or Other Involvement in the Operation of the Program Thermodynamics (guarantor, lecturer), Enhanced Oil Recovery (guarantor, lecturer 50 %), Well Testing (guarantor, lecturer 70 %), Formation Evaluation (guarantor, lecturer)

Information on University Education 1995 Ph.D. study at Moscow Academy of Oil and Gas, Russia, thesis on “Alteration of the physical properties of rocks with depth at superdeep wells”, Log analyst at Central Geophysical Expedition MSc., State University of Oil&Gas by Gubkin. Professional History Since University Graduation 2014 -2019 Shell Chair in Petroleum Geoscience at Oil and Gas Research Center of Sultan Qaboos University, Oman. 2013 - 2014 Guest lecturer in carbonate reservoir characterization at Norwegian University of Science and Technology, NTNU, Trondheim 2005 - 2013 Associate professor at Aalborg university, Esbjerg Campus, Oil and Gas MSc program Lecturing in Thermodynamics, Geology and Reservoir Engineering, Supervision of semester projects in Log Analysis, Field Development and etc., Experimental Researches in CO2 EOR and MEOR 2005 specialist at “Ingeooil”, MEOR company, Moscow, Russia 1997-1999 log analyst at Joint Ventures in Western Siberia, Russia (Kogalym, Gubkinskiy) 1995-1997 specialist at “Korea Petroleum Development Corporation”, Moscow, Russia 1991-1995 Ph.D. study at Moscow Academy of Oil and Gas, Russia, thesis on “Alteration of the physical properties of rocks with depth at superdeep wells”, Log analyst at Central Geophysical Expedition 1989-1991 log analyst in Yaroslavl, Russia, Superdeep Drilling Company (Timano-Pechora) 1988-1989 log analyst in Eastern Siberia (Krasnoyarsk region), Russia 1983-1988 study at Moscow Institute of Oil and Gas, Russia, log analysis/petrophysics Experience Regarding Supervision of Qualification and Rigorous Theses Field of Habilitation Procedure Year of Degree





97 179

Overview of the Most Important Publication and Other Creative Activities Related to the Respective Course or Other Professional Activities in the Case of Practising Professionals


25 entries on the Web of Science, f. e.: Rudyk, S., Spirov, P., Tyrovolas, A. 2018. Effect of temperature on crude oil extraction by SC-CO2 at 40–70 °C and 40–60 MPa. Journal of CO2 Utilization 24, 471-478 Rudyk, S. 2018 Relationships between SARA fractions of conventional oil, heavy oil, natural bitumen and residues. Fuel 216, 330-340 Rudyk, S. , Spirov, P., Al-Hajri, R., Vakili-Nezhaad, G. 2017 Supercritical carbon dioxide extraction of oil sand enhanced by water and alcohols as Co-solvents. Journal of CO2 Utilization, Volume 17, 90-98. Rudyk, S. , Spirov, P., Regeneration of used motor oil by supercritical carbon dioxide, Advanced Materials - TechConnect Briefs 2016, Volume 2, 84-87. Svetlana Rudyk and Amal Al-Lamki. 2015 Saturation-Height Model of Omani deep tight gas reservoir. Journal of Natural Gas Science and Engineering 27, 1821-1833. Activities Abroad


https://www.scopus.com/authid/detail.uri?authorId=37059756400&eid=2-s2.0-85000925651




https://www.scopus.com/sourceid/21100255407?origin=recordpage




C-I – Staffing Arrangements University Palacký University Olomouc University Facility Faculty of Science Name of Study Program Petroleum Engineering Name and Surname Juraj Franců Titles RNDr., Ph.D. Year of Birth 1957 Type of


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Extent

Czech Geological Survey Courses in the Particular Study Program and the Manner of Involvement in Their Lecturing, or Other Involvement in the Operation of the Program Principles of Petroleum Geology (lecturer 75 %)

Information on University Education CSc. in 1987 at the Institute of Geology, Slovak Academy of Sciences, Bratislava, Slovakia RNDr. in 1981 in Geology and Geochemistry at the Faculty of Natural Sciences, Comenius University, Bratislava Professional History Since University Graduation 2018 – 2019 Collaborative project MetaCoal (TA CR grant) on microbial methane with EPS BioTechnology 2015 – 2019 Collaborative project REPP-CO2 and ENOS (H2020) with IRIS Stavanger, Norway 2008-2012 Collaborative project EUROCORES with Vrije Universiteit Amsterdam, Earth and Life Sciences: thermal history, fission track analysis. 2006-2012 Collaborative project DFG-GAČR with Institute of Geology and Geochemistry of Petroleum and Coal, RWTH University, Aachen, Germany: methane and CO2 sorption on coals 2009-2010 TOGEOS – Towards geological storage of CO2 in the Czech Republic (V. Hladik, PI), Czech – Norwegian collaborative project. 2003-2005 Energy and Geoscience Institute, University of Utah, Salt Lake City (28 months) Geochemistry and basin modeling 2002 Geological Survey of Canada, Calgary. Research topics: oil-oil and oil-source rock correlation, basin modeling. 1992-1998 Postdoctoral research visits at the Institute of Organic and Petroleum Geochemistry, Research Center Juelich, Germany. 1992-1993: Postdoctoral research visit (9 months) at the Dept. of Earth Sciences, University of Missouri-Columbia, USA. 1989-2014 Czech Geological Survey, Branch Brno. Research topics: organic and gas geochemistry, hydrogeochemistry, basin analysis, regional geology Experience Regarding Supervision of Qualification and Rigorous Theses Field of Habilitation Procedure Year of Degree





361 463



27 entries on the Web of Science, f. e.: Vodrážková, S. – Vodrážka, R. – Munnecke, A. – Franců, J. – Al-Bassam, K. – Halodová, P. – Tonarová, P.

2018. Microbially-induced wrinkle structures in Middle Devonian siliciclastics from the Prague Basin, Czech Republic. – Lethaia, 1-16.

Sachsenhofer, R.F., Popov, S.V., Bechtel, A., Coric, S., Francu, J., Gratzer, R., Grunert, P., Kotarba, M., Mayer, J., Pupp, M., Rupprecht, B.J., Vincent, S.J. 2018. Oligocene and Lower Miocene source rocks in the Paratethys: Palaeogeographic and stratigraphic controls. In: Simmons, M. D., Tari, G. C. & Okay, A. I. (eds) Petroleum Geology of the Black Sea. Geological Society, London, Special Publications, 464, 267-306.

Franců, J. – Perszlényi, M. – Riis, F. – Prokop, O. – Jurenka, L. – Krejčí, O. – Hladík, V. 2017. 3D geological model of potential CO2 storage: Abandoned oil and gas field LBr-1 in the Vienna basin. – Energy Procedia 114, July, 2772 – 2780.

Hladík, V. – Berenblyum, R. – Perszlényi, M. – Krejčí, O. – Franců, J. – Ford, E. P. – Khrulenko, A. 2017. LBr-1 – research CO2 storage pilot in the Czech Republic. – Energy Procedia 114, July, 5742-5747.

Activities Abroad



C-I – Staffing Arrangements University Palacký University Olomouc University Facility Faculty of Science Name of Study Program Petroleum Engineering Name and Surname Pavel Spirov Titles Ing., PhD., M.Sc. Year of Birth 1984 Type of







Extent

Czech Academic City Erbil pp. 40 Courses in the Particular Study Program and the Manner of Involvement in Their Lecturing, or Other Involvement in the Operation of the Program Principles of Petroleum Engineering (guarantor, lecturer), Reservoir Engineering (guarantor, lecturer), Separation Processes (guarantor, lecturer), Enhanced Oil Recovery (lecturer 50 %), Well Testing (lecturer 30 %), Production Engineering (guarantor, lecturer), Petroleum Economics (lecturer), Practical Training (guarantor)

Information on University Education MSc. Degree, in: Oil and Gas Technology, 2008-2010: Aalborg University, Denmark

Ph.D. Degree, in: Improvement of Gas Injection and Mobility Control via Foams, Co-solvents and Additives for Enhanced Oil Recovery, 2010-2013: Aalborg University, Denmark

Professional History Since University Graduation Senior Advisor to CEO, Galiawa Group, Erbil, Kurdistan Region of Iraq, 30.12.2018 -ongoing Vice-chancellor, Czech Academic City, Erbil, Kurdistan Region of Iraq, 1.4.2018 - current position Senior Petroleum Engineer Advisor, KPS Metal a.s. , Urbánkova 231, 676 02 Moravské Budějovice, Czech Republic, 1.10.2016 – ongoing Visiting Professor, Soran University - School of Engineering- Faculty of Engineering, Soran, Kurdistan Region of Iraq , 2017 – ongoing. Head of Petroleum Engineering Department, Soran University - School of Engineering- Faculty of Engineering, Soran, Kurdistan Region of Iraq, 1.10.2015 – 2016 Senior Petroleum Engineer, Sina Energy, Erbil, Kurdistan Region of Iraq, 15.1.2015 – 2017 Lecturer and researcher at Petroleum Engineering Department, Soran University - School of Engineering- Faculty of Engineering, Soran, Kurdistan Region of Iraq, 15.10.2014- 29.9.2015 Researcher, AALBORG UNIVERSITY, Niels Bohr Vej 8, 6700, Denmark, 2010 – 2014 Experience Regarding Supervision of Qualification and Rigorous Theses






137 171


17 entries on the Web of Science, f. e.: Rudyk, S., Spirov, P., Tyrovolas, A. 2018. Effect of temperature on crude oil extraction by SC-CO2 at 40–70 °C and 40–60 MPa. Journal of CO2 Utilization 24, 471-478 Mansurbeg, H., Koyi, H., Othman, R., Kolo, K., Spirov, P., Harchegani, FK. 2018 De-risking Plays in the Highly Folded Zone Foreland Basin of the Zagros Fold–Thrust Belt, Kurdistan Region, Iraq. Developments in Structural Geology and Tectonics 3, 245-254


Rudyk, S. , Spirov, P., Al-Hajri, R., Vakili-Nezhaad, G. 2017 Supercritical carbon dioxide extraction of oil sand enhanced by water and alcohols as Co-solvents. Journal of CO2 Utilization, Volume 17, 90-98. Rudyk, S. , Spirov, P., Regeneration of used motor oil by supercritical carbon dioxide, Advanced Materials - TechConnect Briefs 2016, Volume 2, 84-87. Rudyk, S., Spirov, P., Samuel, P., Joshi, S.J. 2017. Vaporization of Crude Oil by Supercritical CO2 at Different Temperatures and Pressures: Example from Gorm Field in the Danish North Sea, Energy & Fuels. Rudyk, S. Spirov, P. 2017. Temperature effect on extraction and purification of used motor oil by supercritical carbon dioxide, The Journal of Supercritical Fluids, 128, 291-299. Activities Abroad






https://www.scopus.com/sourceid/21100255407?origin=recordpage




C-I – Staffing Arrangements University Palacký University Olomouc University Facility Faculty of Science Name of Study Program Petroleum Engineering Name and Surname Tomáš Fürst Titles RNDr., Ph.D. Year of Birth 1978 Type of







Extent

None Courses in the Particular Study Program and the Manner of Involvement in Their Lecturing, or Other Involvement in the Operation of the Program Mathematics (guarantor, lecturer 50 %), Calculus and Applications (guarantor, lecturer 50 %), Applied Statistics (guarantor, lecturer 50 %)

Information on University Education 1997–2002: Mathematical modeling, Charles University, Prague 2002: State final exam: Classical and modern analysis, mathematical modeling, general physics 2003: State rigorous exam (Charles University, Prague) 2002–2006: Ph.D. in mathematical analysis, Palacky University in Olomouc 2006: State Ph.D. exam Professional History Since University Graduation I have taught more than 20 different courses at various Czech universities. The courses included basic and advanced calculus, linear algebra, probability and statistics, differential equations, classical and modern partial differential equations, continuum mechanics, fluid dynamics, integral transforms, complex systems, machine learning, Bayesian inference, and others. My research focuses on mathematical modelling of various real processes and phenomena, I have participated in many projects in this area. I also deal with porous media flow. Lately, I have started working in digital image and signal processing, and industrial mathematics. Experience Regarding Supervision of Qualification and Rigorous Theses I have supervised more than 50 Bc and Mgr these.






176 243

Overview of the Most Important Publication and Other Creative Activities Related to the Respective Course or Other Professional Activities in the Case of Practising Professionals De Diego, N; Furst, T et al. 2017. An Automated Method for High-Throughput Screening of Arabidopsis Rosette Growth in Multi-Well Plates and Its Validation in Stress Conditions. FRONTIERS IN PLANT SCIENCE Volume: 8 Article Number: 1702. Prochazka, V; Papajik, T; Furst, T. 2017. Prevention of large-scale implementation of unnecessary and expensive predictive tests in Hodgkin's lymphoma. LANCET HAEMATOLOGY Volume: 4 Issue: 2 Pages: E63-E63. Zima, P; Furst, T et al. 2016. Determination of frequencies of oscillations of cloud cavitation on a 2-D hydrofoil from high-speed camera observations. JOURNAL OF HYDRODYNAMICS Volume: 28 Issue: 3 Pages: 369-378. Pecha, J; Sanek, L; Furst, T et al. 2016. A kinetics study of the simultaneous methanolysis and hydrolysis of triglycerides. CHEMICAL ENGINEERING JOURNAL Volume: 288 Pages: 680-688. Mistrik, M; Vesela, E; Furst, T et al. 2016. Cells and Stripes: A novel quantitative photo-manipulation technique. SCIENTIFIC REPORTS Volume: 6 Article Number: 19567.


Humplik, JF; Lazar, D; Furst, T et al. 2015. Automated integrative high-throughput phenotyping of plant shoots: a case study of the cold-tolerance of pea (Pisum sativum L.). PLANT METHODS Volume: 11 Article Number: 20.

Activities Abroad October 2012 – July 2013: Fulbright Masaryk visiting scholar at the Dpt of Applied Mathematics and Engineering Science, Northwestern University, Evanston, Illinois, USA. Signature Date April 16, 2019


C-I – Staffing Arrangements University Palacký University Olomouc University Facility Faculty of Science Name of Study Program Petroleum Engineering Name and Surname Jiří Pospíšil Titles RNDr., Ph.D. Year of Birth 1979 Type of







Extent

Institute of Experimental Botany AS CR pp. 40 Courses in the Particular Study Program and the Manner of Involvement in Their Lecturing, or Other Involvement in the Operation of the Program Chemistry (guarantor, lecturer 25 %)

Information on University Education Mgr.: Masaryk University in Brno, Organic Chemistry, 2002 RNDr.: Masaryk University in Brno, Organic Chemistry, 2002 DEA: Université Catholique de Louvain (Belgium), Chemistry, 2005 Ph.D.: Université Catholique de Louvain (Belgium), Organic Chemistry – specialization: natural product synthesis, 2006 Professional History Since University Graduation 2006-2008: Max-Planck Institute für Kohlforschung, Mülhein-an-der-Ruhr, Germany – Post-doc 2008-2012: Université Catholique de Louvain, Belgie – F.S.R.-FNRS research fellow (independent researcher) 2012-2013: École Polytechnique, ParisTech, Palaiseau, Francie – CNRS research fellow 2014-now: Institute of Experimental Botany AS CR – independent researcher 2014-now: UP Olomouc – academic, part-time Experience Regarding Supervision of Qualification and Rigorous Theses Number of supervised Baccalaurean theses (defended): 9 (3) Number of supervised Master theses (defended): 6 (4) Number of supervised PhD theses (defended): 3 Field of Habilitation Procedure Year of Degree



- - - WOS Scopus Others Field of Nominating Procedure Year of Degree


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- - - Overview of the Most Important Publication and Other Creative Activities Related to the Respective Course or Other Professional Activities in the Case of Practising Professionals Overall 34 publications in impacted journals (WOS), 5 recent relevant publications

1) "1-(Phenylsulfonyl)-3-oxabicyclo[3.1.0]hexan-2-one as a Building Block in Organic Synthesis" Konrádová, D.; Bon, D.J.-Y.D.; Pospíšil*, J. J. Org. Chem. 2018, 83, 12229-12238.

2) "One and Two-Carbon Homologation of Primary and Secondary Alcohols to Corresponding Carboxylic Esters Using β-Carbonyl BT Sulfones as a Common Intermediate" Bon, D. J. Y. D.; Kováč, O.; Ferugová, V.; Zálešák, F.; Pospíšil*, J. J. Org. Chem. 2018, 83, 4990-5001.

3) "Quantitative Analysis of Ingenol in Euphorbia species via Validated Isotope Dilution Ultra-high Performance Liquid Chromatography Tandem Mass Spectrometry" Béres*, T.; Dragull, K.; Pospíšil, J.; Tarkowská, D.; Dančák, M.; Bíba, O.; Tarkowski, P.; Doležal, K.; Strnad, M. Phytochem. Anal. 2018, 29, 23–29.

4) "Microwave-assisted synthesis of phenylpropanoids and coumarins: total synthesis of Osthol" Konrádová, D.; Kozubíková, H.; Doležal, K.; Pospíšil*, J. Eur. J. Org. Chem. 2017, 2017, 5204-5213.

5) "Determination of free diferulic, disinapic and dicoumaric acids in plants and foods“ Grúz*, J.; Pospíšil, J.; Kozubíková, H.; Pospíšil, T.; Doležal, K.; Bunzel, M.; Strnad, M. Food Chem. 2015, 171, 280-286.

6)


Activities Abroad 2001 (3 months): Université catholique de Louvain, Louvain-la-Neuve, Belgium – research stay as Sokrates-Erasmus 2001 (3 months) University of Missouri, Department of Chemistry, Prof. Kent S. Gates, Columbia (MO), USA - as Stevenson research fellow 2002-2006 Université catholique de Louvain, Prof. I. E. Markó (Ph.D. supervisor), Louvain-la-Neuve, Belgium - Ph.D. student (4 years) 2006-2008: Max-Planck Institute für Kohlforschung, Prof. Dr. Alois Fürstner, Mülheim-an-der-Ruhr, Germany - post-doctoral stay 2008-2012: UClouvain, Institute of condensed matter and nanoscience, Louvain-la-Neuve, Belgie - F.S.R.-FNRS research fellow 2012-2013 (10 months): École polytechnique, Laboratoř Organické Syntézy, Prof. Samir Z. Zard, Paris, France - CNRS research fellow 2014 (1 month): Australian National University, Research School of Chemistry, Prof. Lewis N. Mander, Canberra, Australia - Visiting researcher Signature Date April 25, 2019


C-I – Staffing Arrangements University Palacký University Olomouc University Facility Faculty of Science Name of Study Program Petroleum Engineering Name and Surname Tomáš Urubek Titles Mgr., Ph.D. Year of Birth 1983 Type of







Extent

Czech Academic City Erbil pp. 40 CEITEC – Central European Institute of Technology pp. Courses in the Particular Study Program and the Manner of Involvement in Their Lecturing, or Other Involvement in the Operation of the Program Mineralogy and Petrology (guarantor, lecturer), Dynamic Geology (lecturer 50 %), Microscopy of Reservoir Rocks (guarantor, lecturer)

Information on University Education Geological sciences MU Brno – mineralogy (Ph.D., 2015)

Professional History Since University Graduation Fakulty of Forestry and Wood technology, Mendel University in Brno, Zemědělská 1, 613 00 Brno, Czech Republic Institute: Geology and Pedology (1. 9. 2015 – 30.6. 2018) CEITEC – Central European Institute of Technology (1.9. 2015 – actual) The high school (Globe-Vinohrady - Brno, limited liability company) (1.9. 2018 – 31.8. 2019) Experience Regarding Supervision of Qualification and Rigorous Theses Field of Habilitation Procedure Year of Degree





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Overview of the Most Important Publication and Other Creative Activities Related to the Respective Course or Other Professional Activities in the Case of Practising Professionals Urubek T., Dolníček Z., Kropáč K. 2014. Genesis of syntectonic hydrothermal veins in the igneous rock of teschenite association (Outer Western Carpathians, Czech Republic): growth mechanism and origin of fluids. - Geol. Carpath., 65, 6, 419-431. Kropáč K., Dolníček Z., Buriánek D., Urubek T., Mašek V. 2015. Carbonate inclusions in Lower Cretaceous picrites from the Hončova Hůrka Hill (Czech Republic, Outer Western Carpathians): Evidence for primary magmatic carbonates? Int. J. Earth. Sci., 104, 1299-1315 Kropáč K., Dolníček Z., Uher P., Urubek T. 2017. Fluorcaphite from hydrothermally altered teschenite at Tichá, Outer Western Carpathians, Czech Republic: compositional variations and origin. – Mineralogical Magazine. Jirásek J., Dolníček Z., Matýsek D., Urubek T. 2017. Baryte mineralization associated to igneous rocks of teschenite association (Outer Western Carpathians). – Geol. Carpath., 68, 2, 119-129. Xu C., Kynický J., Smith MP., Kopřiva A., Brtnický M., Urubek T., Yang YH., Zhao Z., He C., Song WL. 2017. Origin of heavy rare earth mineralization in South China. Nature Communications. Ambrožová P., Kynický J., Urubek T., Nguyen V. D. 2017. Synthesis and Modification of Clinoptilolite. – Molecules, 7, 22, 2-13. Activities Abroad



C-I – Staffing Arrangements University Palacký University Olomouc University Facility Faculty of Science Name of Study Program Petroleum Engineering Name and Surname Lada Hýlová Titles Ing., Ph.D. Year of Birth 1982 Type of







Extent

None Courses in the Particular Study Program and the Manner of Involvement in Their Lecturing, or Other Involvement in the Operation of the Program Geology of Middle East (guarantor, lecturer), Rock and Soil Mechanics (guarantor, lecturer)

Information on University Education Ph.D. - Geological Engineering, VŠB-Tech. Univ. Ostrava, Ph.D., 2012 Professional History Since University Graduation 2010–present: Palacký Univerzity Olomouc, Faculty of Science; Assistant Professor Experience Regarding Supervision of Qualification and Rigorous Theses Bachelor's Thesis - 5 Master's Thesis - 8






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Overview of the Most Important Publication and Other Creative Activities Related to the Respective Course or Other Professional Activities in the Case of Practising Professionals Hýlová, L., Jirásek, J., Sivek, M., Jureczka, J. (2016): Coal-bearing capacity of the petřkovice member (ostrava formation, Serpukhovian, Mississippian) of the upper silesian basin (Czech Republic and Poland). Geological Quarterly, vol. 60, issue 3, pp 637-649. Hýlová L., Jureczka J., Jirásek J., Sivek M., Hotárková J. (2013): The Petřkovice Member (Ostrava Formation, Mississippian) of the Upper Silesian Basin (Czech Republic and Poland). International Journal of Coal Geology, vol. 106, pp. 11-24. Jirásek J., Hýlová L., Sivek M., Jureczka J., Martínek K., Sýkorová I., Schmitz M. (2013): The Main Ostrava Whetstone: Composition, sedimentary processes, palaeogeography and geochronology of a major Mississippian volcaniclastic unit of the Upper Silesian Basin (Poland and Czech Republic). International Journal of Earth Sciences, vol. 102, pp. 989–1006. Activities Abroad Signature Date April 21, 2019


C-I – Staffing Arrangements University Palacký University Olomouc University Facility Faculty of Science Name of Study Program Petroleum Engineering Name and Surname Daniel Šimíček Titles Mgr., Ph.D. Year of Birth 1984 Type of







Extent

None Courses in the Particular Study Program and the Manner of Involvement in Their Lecturing, or Other Involvement in the Operation of the Program Sedimentology and Stratigraphy (lecturer), Quaternary Geology (guarantor, lecturer), Modern Methods of Geophysical Data Processing (guarantor, lecturer 50 %), Field trip in Geology (guarantor, lecturer 50 %) Information on University Education Ph.D.: Doctoral Degree Programme: Geology; Field of Study: Geological Sciences, 2013, Faculty of Science, MU Brno

Professional History Since University Graduation 11/2012–5/2013 Palacký University in Olomouc, Faculty of Science; Junior Researcher 6/2013–8/2015 Palacký University in Olomouc, Faculty of Science; POST-DOC 9/2015–8/2017 Palacký University in Olomouc, Faculty of Science; Junior Researcher 9/2017–today Palacký University in Olomouc, Faculty of Science; Assistant Professor Experience Regarding Supervision of Qualification and Rigorous Theses Bachelor's Thesis (3) Master's Thesis (3) Field of Habilitation Procedure Year of Degree





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Overview of the Most Important Publication and Other Creative Activities Related to the Respective Course or Other Professional Activities in the Case of Practising Professionals Bábek O., Faměra M., Hladil J., Kapusta J., Weinerová H., Šimíček D., Slavík L., Ďurišová J., 2018. Origin of red pelagic carbonates as an interplay of global climate and local basin factors: Insight from the Lower Devonian of the Prague Basin, Czech Republic. Sedimentary Geology 364, 71-88. Bábek O., Faměra, M., Šimíček D., Weinerová H., Hladil J., Kalvoda J., 2018. Sea-level changes vs. organic productivity as controls on Early and Middle Devonian bioevents: Facies- and gamma-ray based sequence-stratigraphic correlation of the Prague Basin, Czech Republic. Global and Planetary Change 160, 75-95. Weinerová H., Hron K., Bábek O., Šimíček D., Hladil J., 2017. Quantitative allochem compositional analysis of Lochkovian-Pragian boundary sections in the Prague Basin (Czech Republic). Sedimentary Geology 354, 43-59. Šimíček D., Bábek O., 2015. Spectral gamma-ray logging of the Gres d´Annot, SE France: An outcrop analogue to geophysical facies mapping and well-log correlation of sand-rich turbidite reservoirs. Marine and Petroleum Geology 60, 1-17. Šimíček D., Bábek O., 2015. Assessing provenance of Upper Cretaceous siliciclastics using spectral gamma-ray record. Geologica Carpathica 66, 4, 311-329.


Activities Abroad AGH University of Science and Technology in Kraków, Poland, 2015 (2 months) Department of Geodynamics and Sedimentology, University of Vienna, Austria, 2014 (1 month) Signature Date April 22, 2019


C-I – Staffing Arrangements University Palacký University Olomouc University Facility Faculty of Science Name of Study Program Petroleum Engineering Name and Surname Jagar Ali Titles Ph.D., M.Sc. Year of Birth 1990 Type of


— Extent Until


— Extent Until



Extent

Soran University, Faculty of Engineering pp. Courses in the Particular Study Program and the Manner of Involvement in Their Lecturing, or Other Involvement in the Operation of the Program Drilling Engineering (guarantor, lecturer), Well Completions and Workovers (guarantor, lecturer), Petroleum Economics (lecturer) Information on University Education Ph.D. Petroleum Engineering ׀ Nano-Chemical EOR, Split-site program: Soran University M.Sc. Petroleum Engineering ׀ Reservoir Simulation, Heriot-Watt University, Edinburgh, United Kingdom Professional History Since University Graduation 10 Oct 2016 – Present Soran University ׀ Head of Department of Petroleum Engineering 01 Nov 2015 – Present Soran University 01 Nov 2014 – 01 July 2016 National Petroleum Services (NPS) ׀ Field Engineer, Cementing Segment, Erbil, Kurdistan Region – Iraq │ http://www.npsintl.com 23 Nov 2011 – 28 Jan 2013 Koya Universitty ׀ Researcher Assistant, Department of Petroleum Engineering. In charge of drilling laboratory. Help students and the professors to run experi in lab. Koya University, Koya, Erbil, Kurdistan Region – Iraq │ https://www.koyauni.ac 01 Aug 2011 – Nov 2011 DNO Middle East Oil Company ׀ Production Operator Tawkee Oilfield, Zakho, Kurdistan Region, Iraq │ http://www.dno.no Experience Regarding Supervision of Qualification and Rigorous Theses






1

Overview of the Most Important Publication and Other Creative Activities Related to the Respective Course or Other Professional Activities in the Case of Practising Professionals Ali, J. A., Kolo, K., Khaksar Manshad, A., & Stephen, K. D. (2019). Low-Salinity Polymeric Nanofluid-Enhanced Oil Recovery Using Green Polymer-Coated ZnO/SiO2 Nanocomposites in the Upper Qamchuqa Formation in Kurdistan Region, Iraq. Energy & Fuels, 33(2), 927-937. Sajadi SM, Kolo K., Pirouei M., Mahmud SA, Ali J. A., Hamd S.M. (2018) Natural Iron Ore as a Novel Substrate to Biosynthesis of Bioactive Stable ZnO@CuO@Iron ore NCs: A magnetically Recyclable and Reusable Superior Nanocatalyst for Degradation of Organic Dyes, Reduction of Cr(VI) and Adsorption of Crude Oil Aromatic Compounds including PAHs, RSC Advances, 62(8):35557-35570 Ali J. A., Kolo K., Sajadi SM, Hamad KH, Salman R, Wanli M, Manshad AK, Hamad SM, Raihana B. (2019) Modification of rheological and filtration characteristics of water-based mud for drilling oil and gas wells using green SiO2@ZnO@Xanthan nanocomposite, IET Nanobiotechnology (accepted) Ali, J., Sajadi, S., Khaksar Manshad, A., Kolo, K., & Stephen, K. (2019). Green synthesis of ZnO/SiO2 nanocomposite from pomegranate seed extract: coating by natural xanthan polymer and its characterizations. Micro & Nano Letters.


Ali J. A., Kolo, K., Khaksar Manshad, A., Stephen, K., & Keshavarz, A. (2018). Modification of LoSal water performance in reducing interfacial tension using green ZnO/SiO2 nanocomposite coated by xanthan. Applied Nanoscience. Ali, J. A., Kolo, K., Manshad, A. K., Mohammadi, A. H. (2018). Recent advances in application of nanotechnology in chemical enhanced oil recovery: Effects of nanoparticles on wettability alteration, interfacial tension reduction, and flooding. Egyptian Journal of Petroleum, 27(4), 1371-1383. Activities Abroad



C-I – Staffing Arrangements University Palacký University Olomouc University Facility Faculty of Science Name of Study Program Petroleum Engineering Name and Surname Karel Martínek Titles Mgr., Ph.D. Year of Birth 1972 Type of


— Extent Until


— Extent Until



Extent

Charles University, Prague pp. 40 Courses in the Particular Study Program and the Manner of Involvement in Their Lecturing, or Other Involvement in the Operation of the Program Well Log Analysis (lecturer 75 %)

Information on University Education Bc. (1992), Mgr. (1995), Ph.D. (2009) Charles University, Prague Professional History Since University Graduation 1995-1997: Czech Geological Survey, Prague; geologist, sedimentologist of Upper Paleozoic non-marine basins 1998-2003 and 2007 - date: Czech Geological Survey, Prague; geologist, remote sensing and GIS specialist Sept 1997 - date: Institute of Geology and Paleontology, Charles University, Prague; lecturer, senior lecturer Experience Regarding Supervision of Qualification and Rigorous Theses several Bc. and Mgr. thesis supervision, one Ph.D. thesis supervision






96 184

Overview of the Most Important Publication and Other Creative Activities Related to the Respective Course or Other Professional Activities in the Case of Practising Professionals Štor, T., Schaller, M., Merchel, S., Martínek, K., Rittenour, T., Rugel, G., Scharf, A. (2019): Quaternary

evolution of the Ploučnice River system (Bohemian Massif) based on fluvial deposits dated with optically stimulated luminescence and in situ produced cosmogenic nuclides. Geomorphology 329, 152-169.

Kříbek, B., Knésl, I., Rojík, P., Sýkorová, I., Martínek, K. (2017): Geochemical history of a Lower Miocene lake, the Cypris Formation, Sokolov Basin, Czech Republic. J Paleolimnol 58: 169

Martínek K., Pešek J. and Opluštil S. (2017): Significant hiatuses in the terrestrial Late Variscan Central and Western Bohemian basins (Late Pennsylvanian–Early Cisuralian) and their possible tectonic and climatic links. Geologica Carpathica, Volume 68, Issue 3, Pages 269–281

Frojdova J, Pšenička J, Bek J, Martínek K (2017): Revision of Dendraena pinnatilobata Němejc from the Pennsylvanian of the Czech Republic. Bulletin of Geosciences. Vol. 92 Issue 1, p75-94. 20p.

Opluštil S., Schmitz M., Cleal C.J., Martínek K. (2016): A review of the Middle–Late Pennsylvanian west European regional substages and floral biozones, and their correlation to the Geological Time Scale based on new U–Pb ages. Earth-Science Reviews, Volume 154, Pages 301–335.

Activities Abroad 1995 and 1999 3 months exchange student scholarship at Imperial College, University of London, UK 2014 – 2019 several 1 months research and training stays in Ethiopia and Namibia – Czech Development Agency, PanAfGeo project, EuroGeoSurveys, Signature Date April 23, 2019


C-I – Staffing Arrangements University Palacký University Olomouc University Facility Faculty of Science Name of Study Program Petroleum Engineering Name and Surname Jiří Rez Titles RNDr., Ph.D. Year of Birth 1979 Type of


— Extent Until


— Extent Until



Extent

Masaryk university Brno DPP Courses in the Particular Study Program and the Manner of Involvement in Their Lecturing, or Other Involvement in the Operation of the Program Applied and Structural Geology (lecturer 75 %) Information on University Education 1998-2003: Mgr. - Department of Geological Sciences, Faculty of Science, Masaryk University, Brno, Czech Republic. Diploma thesis: Structural analysis of the Southern part of the Moravian Karst. 2003-2011: Ph.D. - Departnemt of Geological Sciences, Faculty of Science, Masaryk University, Brno, Czech Republic. Ph.D. thesis: Structural history of the southern part of the Moravian Karst. 2014: RNDr. - Departnemt of Geological Sciences, Faculty of Science, Masaryk University, Brno, Czech Republic. Rigorous thesis: Stress analysis based on calcite twinning. Professional History Since University Graduation May 2005 – June 2007: Department of Geological Sciences, Faculty of Science, Masaryk University, Brno, Czech Republic; lecturing: structural geology, stratigraphy, research: structural geology, sedimentology August 2007 – present: MND a.s., Hodonín, Czech Republic; seismic interpretation, well log interpretation, structural modeling, well-site supervision September 2018 – present: Department of geological sciences, Masaryk university Brno, Czech Republic; Lecturer (structural geology, GIS, petroleum geology) Experience Regarding Supervision of Qualification and Rigorous Theses






12 17

Overview of the Most Important Publication and Other Creative Activities Related to the Respective Course or Other Professional Activities in the Case of Practising Professionals Rez, J. & Melichar, R. 2010. Peek Inside the Black Box of Calcite Twinning Paleostress Analysis. Trabajos De Geologia, 30, 163–168. Rez, J., Melichar, R. & Kalvoda, J. 2011. Polyphase deformation of the Variscan accretionary wedge: an example from the southern part of the Moravian Karst (BohemianMassif, Czech Republic). In: Kinematic Evolution and Structural Styles of Fold-and-Thrust Belts (edited by Poblet, J. & Lisle, R. J.). Geological Society Special publications 349. Geological Society, London, 223–235. Activities Abroad Signature Date April 19, 2019


C-I – Staffing Arrangements University Palacký University Olomouc University Facility Faculty of Science Name of Study Program Petroleum Engineering Name and Surname Petr Sulovský Titles RNDr., Ph.D. Year of Birth 1952 Type of







Extent

None Courses in the Particular Study Program and the Manner of Involvement in Their Lecturing, or Other Involvement in the Operation of the Program Medical Geology (guarantor, lecturer)

Information on University Education 1975 Faculty of Science, MU Brno – Mgr. 1977 Faculty of Science, MU Brno – RNDr. 2002 Faculty of Science, MU Brno – Ph.D. Professional History Since University Graduation 1975 – 1993 researcher at the Research Institute of the Czech Uranium Industry 1993 – 2006 Faculty of Science, Masaryk University in Brno, Institute of Geological Sciences: 1993-2002 scientific and research worker, 2002 – 2006 senior lecturer – head of the Laboratory of electron microscopy and microanalysis 2006-2012 Research Institute of Building Materials in Brno – scientific worker 2007 – today Faculty of Science, Palacký University in Olomouc – senior lecturer Experience Regarding Supervision of Qualification and Rigorous Theses Bachelor's Thesis - 15 Master's Thesis - 12






189 251

Overview of the Most Important Publication and Other Creative Activities Related to the Respective Course or Other Professional Activities in the Case of Practising Professionals Staněk T., Sulovský P. (2017), "The Impact of Basic Minor Oxides on the Clinker Formation", Materials Science Forum, Vol. 908, 3-9. Staněk T., Sulovský P., Boháč M. (2017): Berlinite substitution in the cement clinker. Cement and Concrete Research, 92, 21-28. Jarošová M., Sulovský P., Milde, D. (2016): Current status and prospects of coupling laser ablation with inductively coupled plasma mass spectrometry in geochemistry. Chemické Listy, 110(11), 769-778. Staněk T., Sulovský P. (2015): Active low-energy belite cement. Cement and Concrete Research, 68, 203-210.

Activities Abroad


https://www.sciencedirect.com/science/article/pii/S0008884615302295?via%3Dihub#!

https://www.sciencedirect.com/science/article/pii/S0008884615302295?via%3Dihub#!




C-I – Staffing Arrangements University Palacký University Olomouc University Facility Faculty of Science Name of Study Program Petroleum Engineering Name and Surname Zuzana Lenďáková Titles Mgr. Year of Birth 1987 Type of







Extent

None Courses in the Particular Study Program and the Manner of Involvement in Their Lecturing, or Other Involvement in the Operation of the Program Modern Methods of Geophysical Data Processing (lecturer 50 %),

Information on University Education 2013 PřF UP Olomouc – Mgr. Environmental Geology since 2013 Doctoral Degree Programme: Geological Sciences, Faculty of Science, MU Brno

Professional History Since University Graduation since 2016 Přf UP Olomouc, junior researcher

Experience Regarding Supervision of Qualification and Rigorous Theses






3

Overview of the Most Important Publication and Other Creative Activities Related to the Respective Course or Other Professional Activities in the Case of Practising Professionals Moník, M., Lenďáková, Z., Ibáñez, J.J., Muñiz, J., Borell, F., Iriarte, E., Teira, L., Kuda, F. (2018): Revealing early villages – Pseudo‐3D ERT geophysical survey at the pre‐pottery Neolithic site of Kharaysin, Jordan. Archaeological Prospection. 1–8. Petřík, J., Petr, L., Adameková, K., Přišťáková, M., Potůčková, A., Lenďáková, Z., Frączek, M., Dresler, P., Macháček, J., Kalicki, T., Lisá, L. (2018): Disruption in an alluvial landscape: Settlement and environment dynamics on the alluvium of the river Dyje at the Pohansko archaeological site (Czech Republic). Quaternary International. Activities Abroad



C-I – Staffing Arrangements University Palacký University Olomouc University Facility Faculty of Science Name of Study Program Petroleum Engineering Name and Surname Jiří Čepil Titles Ing. Year of Birth 1977 Type of


— Extent Until


— Extent Until



Extent

Czech Academic City / Erbil, Faculty of Engineering and Aplied Science

pp.

Brno University of Technology, Faculty of Civil Engineering pp. Courses in the Particular Study Program and the Manner of Involvement in Their Lecturing, or Other Involvement in the Operation of the Program Strength of Materials (guarantor, lecturer)

Information on University Education VUT FAST, 2002, Highway Engineer, Ing.

Professional History Since University Graduation 2014-present - Brno University of Technology, Faculty of Civil Engineering, postgraduate study Year 2010 - Slovak Chamber of Civil Engineers, Road construction, Supervisor Year 2008 - Slovak Chamber of Civil Engineers, Road construction, Authorised engineer 1996-2002 - Czech Chamber Certified Engineers and Technicians, Authorised engineer Experience Regarding Supervision of Qualification and Rigorous Theses 1x Bc., 1xMgr.






Overview of the Most Important Publication and Other Creative Activities Related to the Respective Course or Other Professional Activities in the Case of Practising Professionals MATUSZKOVÁ, R.; HECZKO, M.; ČEPIL, J.; RADIMSKÝ, M. Issues of using Longer Heavier Vehicles on Roads. IOP Conference Series: Materials Science and Engineering, 2018, roč. 317, č. 1, s. 1-8. MATUSZKOVÁ, R.; RADIMSKÝ, M.; APELTAUER, T.; ČEPIL, J.; HECZKO, M. Analysis of influence of the weather on the driving speed on horizontal curves. In Advanced Engineering and Technology III: Proceedings of the 3rd Annual Congress on Advanced Engineering and Technology (CAET 2016). Hong Kong: CRC Press, 2016. s. 1-4. RADIMSKÝ, M.; ČEPIL, J.; MATUSZKOVÁ, R.; SMĚLÝ, M. Basis for National Standards Update. Brno: Brno University of Technology, 2014. RADIMSKÝ, M.; MATUSZKOVÁ, R.; ČEPIL, J.; SMĚLÝ, M.; KOSŇOVSKÝ, M.;MORAVEC, K.; STRÁNSKÝ, J.; KABEŠ, L.; HEINRICH, J.; ŠILAR, D. Research on Internal and External Findings and Experiences. Brno: Brno University of Technology, 2014. Activities Abroad Period (from - till) 02/2017 – 01/2019 - Project R7 Prievoz - Ketelec Period (from - till) 05/2013 – 10/2015 - Project Darbandikhan Dam Inspection Period (from - till) 07/2011 – 12/2013 - Project Khornawazan Dam, Iraq Period (from - till) 07/2011 – 12/2013 - Project Aquban Dam, Iraq Signature Date April 21, 2019


C-II – Related Creative, Scientific and Artistic Activities Overview of Involvement in Grants and Projects in the Case of an Academically-Oriented Bachelor Study Program and Master and Doctoral Study Programs Investigator/ Co-Investigator

Names of Grants and Projects Acquired for Scientific, Research, Artistic and Other Creative Activities in the Particular Area of Education

Source Period

prof. Bábek Investigator

Sedimentary history of dam reservoirs as anthropogenic barriers in river systems: from sediment budget to fate of pollutants, Grant Agency of Czech Republic (GAČR), GAČR 17-06229S

B 2017-2019

prof. Bábek Co-Investigator

; Earliest Carboniferous Greenhouse-Icehouse Climatic Oscillations – a Multidisciplinary Approach, Grant Agency of Czech Republic (GAČR), GACR 16-11563S

B 2016-2018

Prof. Šráček Co-Investigator

Impact of mining and ore processing on the environment in Namibia: Modeling pollutants migration in soils, plants and groundwaters, Grant Agency of Czech Republic (GAČR), Project P210/12/1413

B 2012-2014

Prof. Šráček Co-Investigator

Exploitation and treatment of Cu, Pb, Zn, and Co ores in Subsaharian Africa – natural geochemical laboratory for study of contaminants’ behavior, Grant Agency of Czech Republic (GAČR), Project 16-13142S

B 2016-2018

Prof. Voženílek Investigator

Prostorová syntéza založená na pokročilých metodách geocomputation (GA ČR 18-05432S)

B 2018-2020

Prof. Voženílek Investigator

Prostorové simulační modelování dostupnosti (GA ČR 14-26831S)

B 2014-2016

dr. Sedláček Investigator

Grant IGA: Studium sedimentačních prostředí v povodí řek Moravy a Odry

UPOL 2016

dr. Sedláček Investigator

Grant IGA: Studium dynamiky a antropogenní kontaminace v sedimentačních depozičních prostředích

UPOL 2018

dr. Pospíšil Vývoj metody přípravy standardů polyaminů, Inovative voucher, OP PIK, Ministry of Industry and Trade

B 2018-2019

dr. Pospíšil Látky rostlinného původu proti zubnímu kazu, TAČR, project GAMA, Proof-of-concept TG01010080

B 2017-2018

dr. Franců Collaborative project MetaCoal (TA CR grant) on microbial methane with EPS BioTechnology

B 2018-2019

Overview of Involvement in Projects and Other Activities in Collaboration with the Application Sector in the Case of Professionally-Oriented Bachelor Study Program and the Master Study Program Application Sector Workplace

Name or Description of the Project Implemented in Collaboration with the Application Sector

Period

Professional Activities Related to the University’s Creative, Scientific and Artistic Activities Connected to the Study Program prof. Bábek: Member of Czech national geology comitee (IUGS) Voting member, Subcommission of Carboniferous Stratigraphy (ICS, IUGS) National correspondent IAS (International Association of Sedimentologists) for ČR Editorial consultant for journals Jimp, Jrec, projects GAČR, GAAV, National Science Centre, Poland, Geological Survey Ireland Associate editor, Central European Journal of Geosciences (Jimp) member of editorial board, Bulletin of Geosciences (Jimp) prof. Šráček: Expert - IGCP/UNESCO project in Africe Expert IAEA for hydrogeology Member of 210 GAČR - Geosciences

Information About Collaboration with the Application Sector Connected to the Study Program


C-III – Provision of Information In the Study Program Name and Brief Description of the Study Information System Name: IS/STAG (https://stag.upol.cz) Study agenda IS/STAG is a part of the Palacký University Olomouc information system. It is a complex system for managing study administration from the moment of submitting an application to issuing a diploma and a link to other information systems.

Access to Literature Study literature is available in the university library in the Armoury building and in the Library of Faculty of Science. The faculty library is housed in two buildings: the stock at the address 17. listopadu 12 specializes on chemistry, geology, geography, geoinformatics, development studies, physics, optics, mathematics and informatics; the branch at the address Šlechtitelů 27 focuses on botany, biochemistry, cell biology and ecology. Students also have electronic information resources at their disposal (https://ezdroje.upol.cz/index.php?lang=en).

Overview of Accessible Databases Access to electronic journals and books: https://ezdroje.upol.cz/ecasopisy/index.php?lang=en

Name and Brief Description of the Anti-Plagiarism System Used Name: Theses.cz (http://theses.cz/) The Theses.cz system is developed and administered by Masaryk University. The system represents a national registry of theses and allows to upload student theses and search them for instances of plagiarism. The general public can access individual registry records of theses, or even their full texts (depending on the school).

https://stag.upol.cz/

https://ezdroje.upol.cz/index.php?lang=en

https://ezdroje.upol.cz/ecasopisy/index.php?lang=en

http://theses.cz/


C-IV – Study Program Material Arrangements Study Program Operation Venue 17. listopadu 12, Olomouc

Czech Academic City, Erbil Capacity of Lecturing Premises for Theoretical Lecturing 17. listopadu 12, Olomouc LP 1015 24 Department of Geology LP 1018 24 Department of Geology LP 1023 24 Department of Geology LP 1024 24 Faculty of Science LP 1025 24 Faculty of Science LP 1026 24 Faculty of Science LP 1027 24 Faculty of Science LP 1028 24 Faculty of Science LP 1029 30 Faculty of Science LP 1030 30 Faculty of Science LP 1031 24 Faculty of Science LP 1032 32 Faculty of Science LP 1033 32 Faculty of Science LP 1034 32 Faculty of Science LP 1035 32 Faculty of Science LP 1036 32 Faculty of Science LP 1037 32 Faculty of Science LP 1127 32 Faculty of Science LP 1128 24 Faculty of Science LP 2001 156 Faculty of Science LP 2004 36 Faculty of Science LP 2005 96 Faculty of Science LP 2006 48 Faculty of Science Czech Academic City, Erbil Capacity of Rented Premises — Rental Contract Period — Capacity and Description of Specialized Classroom 17. listopadu 12, Olomouc LP 1015 10 Department of Geology LP 1018 18 Department of Geology LP 1023 18 Department of Geology LP 1038 20 Department of Geology Czech Academic City, Erbil Capacity of Rented Premises — Rental Contract Period — Capacity and Description of Specialized Classroom

Capacity of Rented Premises — Rental Contract Period — Statement of the Health Authority as of __

Measures and Conditions to Ensure Equitable Approach Equitable access is stated in Admission Procedure Code of Palacký University Olomouc, Study and Examination Code of Palacký University Olomouc and Code for Conduct of Scholars and Researchers of Palacký University Olomouc. The UP Support Centre for Students with Special Needs represents a specialized workplace that provides assistance for students with special educational needs or students from socially or ethnically disadvantaged backgrounds. The Centre provides comprehensive professional advisory, technical and therapeutic services for students with special needs at all the faculties of Palacký University.


C-V – Study Program Financial Arrangements University Education Activities Are Financed from the State Budget

yes

Evaluation of Assumed Costs and Resources for Operation of the Study Program —


D-I – Development Plan and Other Study-Program-Related Data Study Program Development Plan and Its Rationale The basic objective of the programme is to prepare Bachelor-level university graduates in Petroleum Engineering – professionals for jobs in oil and gas exploration and production, underground gas storage, and geothermal energy sectors. The programme is targeted at applicants from Kurdistan Region of Iraq and neighbouring countries and their training for the oil and related energy industry mainly in the Middle East region. Another objective within this study programme is to prepare students for the inevitable changes in the energy industry, which is evolving into a sector working with many energy sources. Besides developing technical competence in petroleum engineering, the graduates will learn how their education can help you contribute to the development of alternative energy sources such as geothermal. All disciplines within the petroleum engineering and geoscience are covered to great depth at the undergraduate level, both in the classroom tuition, laboratory skills, and in research. The 1st and 2nd years will be run in Erbil, Kurdistan Region of Iraq, focused on mastering of theory and practical skills in two major fields, geoscience and engineering. The geoscience part of the curriculum will be split into short-term course blocks comprising 2-3 weeks, taught fully by the UP Olomouc staff. The engineering aspects will be taught by experts based in Erbil. The 3rd year will be partly run in Olomouc and partly in Erbil. The future development of the study programme and the Erbil branch will be closely linked to the educational and research activities, research projects and published work of the Department of Geology, Palacký University of Olomouc, which has a history spanning several decades. The Petroleum Engineering study programme is a big opportunity for the Department of Geology to strengthen its capabilities in applied geological research, foster its international reputation and to enter the internationally competitive market of petroleum-related university education. Number of Applicants Admitted to the Study Program 15 to 40 per year

Assumed Employability of Graduates Graduates will find rewarding careers in state- or private enterprises dedicated to oil and gas exploration and production, underground gas storage and geothermal energy, as employees of consultant companies for oil and gas and related energy sectors, environmental sectors and business, as field-based or laboratory-based professionals in geological surveys and mapping, and as research and development experts in the energy sectors. Graduates from the Bachelor´s degree programme are prepared for Master´s degree university programmes in petroleum engineering, geoscience and related fields. Regulated professions: N/A


E – Self-Evaluation Report Form for the Study Program Approval Application 1. Strengths of the Study Program

The study programme covers the following thematic areas of the Field of Education No. 33, Earth Sciences,

according to the Government Regulation No. 275/2016, Coll.: Geology, Hydrogeology, Economic Geology, Geophysics, Geochemistry, Mineralogy, Petrology, Mine Surveying, Structural Geology and Geoinformatics. Graduates master the following knowledge and skills constituting the framework graduate profile according to the Government Regulation No. 275/2016, Coll.: (i) understand the relationships between observed features and processes in a particular area; (ii) knowledge of disciplines related to Earth Sciences; (iii) knowledge of Earth Sciences in a broader sense, particularly in the material cycling and geochemistry; (iv) working skills in the field and laboratory including description, documentation, analysis and presentation of such work results and comprehensible ways of data presentation. According to the same regulation, the graduates will typically find jobs in (i) economic geology, mining and production, and (ii) science, research and development in academic and other research institutions.

The study programme and course syllabi provide a solid groundwork for the knowledge and skills that the graduates typically master, including the general theory of Earth systems (Dynamic Geology, Mineralogy and Petrology, Sedimentology and Stratigraphy), processes of petroleum generation and migration (Principles of Petroleum Geology, Economic Geology), models of hydrocarbon reservoirs (Well Log Analysis, Carbonate Reservoir Characterization, Geophysics, Reservoir Rock and Fluid Properties), technical aspects of oil and gas production including evaluation of reservoirs (Formation Evaluation), drilling and well management (Drilling Engineering, Well Testing), production management and advanced methods of oil, recovery and separation (Separation Processes, Production Engineering, Enhanced Oil Recovery). The graduates are skilled in technical communication, technical and research report writing and oral presentations. A focus is given to technical competences, management abilities and multidisciplinary skills.

Strong aspects of the study programme include the close links to oil and gas industry in the Middle East region (TAQA Atrush B.V., DNO Erbil office), a focus on applied research, and good job opportunities for the graduates. Consequently, we expect a strong interest in the study programme among potential applicants.

Another strong aspect for this kind of study programme is the proximity of oilfields in the Zagros foreland as an excellent training ground for development of the oil and gas exploration and production skills in practice.

The curriculum is conceived as multidisciplinary, combining the disciplines of Earth sciences with technical knowledge and skills related to oil and gas recovery and processing. This will provide the graduates with an additional advantage in the job market.

University training in Petroleum Engineering (exploration and production) is not offered by any Czech university, partly as a consequence of scarcity of oil and gas in Czechia. However, the oil and gas sector continues to be the major global energy source and, expectably, the related sectors of unconventional energy, geothermal energy and drilling will undoubtedly grow with ever increasing speed. Czech universities should not lag behind these global trends. 2. Weaknesses of the Study Program

Considerable part of the curriculum will be taught in Kurdistan Region of Iraq. This implies potential security risks related to political situation in the region.

Another weakness and a potential risk for the success of the study programme is its cost, mainly related to the travelling of teaching staff between Olomouc and Erbil. Finding a balanced and long-term sustainable funding for this study programme is one of the critical points.

A good link between the earth science part (oil and gas exploration) and technical part (oil and gas production) of the curriculum is a challenge that should be treated with caution. Generally, if working well, this should be a strong aspect of the programme owing to its multidisciplinary nature. However, finding a good practical balance between those segments will constitute an important prerequisite for the success of the programme.

Petroleum Engineering is partly related to Mining Engineering, with is covered by the Field of Education (FoE) No. 29, Mining and Mineral Processing (Government Regulation No. 275/2016, Coll.), for which the Palacký University does not hold institutional accreditation. However, it must be argued that (i) there are significant overlaps between the FoE 29 and FoE 33, particularly in the critical disciplines such as Geology, Mineralogy, Petrology, Economic Geology and Mine Surveying; (ii) the FoE 33, Earth Sciences, lists “mining of minerals and production“as one of the typical careers for the graduates, and (iii) oil and gas exploration and production as independent disciplines are not specifically covered by neither FoE 33 nor FoE 29.


3. Study Program Staffing Arrangements Overall. the curriculum will be guaranteed by 3 full professors 8 assistant lecturers holding PhD from Czech universities, 3 experts holding international PhD (Howri Mansurbeg, PhD Uppsala, Sweden; Pavel Spirov, PhD Aalborg, Denmark; Svetlana Rudyk, PhD Moscow, Russia), additional experts from Czech universities (Karel Martínek, PhD, Charles University, Praha), Czech Geological Survey (Juraj Franců) and from industry – MND, a.s. (Jiří Rez, PhD Brno) and experts from Kurdish branches of international oil companies (TAQA, DNO). The study programme will benefit from a combination of typical representatives of academia with strong research record (Šráček, Bábek, Mansurbeg) and experts with experience in oil and gas exploration and production (Rudyk, Spirov, Rez). Palacky University staff - Ondrej Bábek, PhD Brno, professor, sedimentology, stratigraphy, h-index (WoS): 20 - Ondrej Šráček, PhD Quebec, professor, hydrogeochemistry, hydrogeology, HI 23 - Jan Sedláček (guarantee), PhD Brno, assistant professor, environmental geology, HI 8 - Daniel Šimíček, PhD Brno, assistant professor, sedimentary petrology, HI 4 - Tomáš Urubek, PhD Olomouc-Brno, assistant professor, ore deposits, HI 4 - Lada Hýlová, PhD Ostrava, assistant professor, mining engineering, basin analysis, HI 3 - Zuzana Lenďáková, MSc, junior researcher, shallow geophysics, HI 0 Erbil campus staff - Howri Mansurbeg, PhD Uppsala, Sweden, sedimentary petrology, petroleum geology, HI 12 - Pavel Spirov, PhD Aalborg, Denmark, petroleum engineering, HI 7 - Svetlana Rudyk, PhD Moscow, Russia, well log interpretation, HI8 External staff - Juraj Janočko, PhD Košice, professor, TU Košice, sedimentology, seismic interpretation, HI 6 - Juraj Franců, PhD Bratislava, Czech Geological Survey, petroleum geology, organic geochemistry, HI 10 - Karel Martínek, PhD Prague, Charles University, Prague, sedimentology, well log analysis, HI 6 - Jiří Rez, PhD Brno, MND a.s., seismic interpretation, structural geology, HI 2 4. Prospects for the Study Program Staffing Arrangements

The age range of the teaching staff is 32 to 61 yrs (median: 41 years), which ensures a long.term stability of the study programme. Dr. Jan Sedláček, the guarantee of the study programme will submit an application for habilitation procedure at Masaryk University, Brno in 2019. Dr. Howri Mansurbeg will apply for a position of extraordinary professor at the Palacky University during 2019. Thus, a long-term continuity of teaching staff and its continuing academic qualification is will be ensured.

5. Prospects for Education and Creative Activities within the Study Program

The teaching and research activities of the Department of Geology is mainly reflected in the research projects, grants and peer-reviewed publications. Every year, members of the department work on 2 to 4 projects of the Czech Science Foundation (GAČR) as principal investigators or co-investigators, 2 projects of the Internal Grant Agency of the Palacky University (IGA) as principal investigators, and co-work on the all-university projects OP-VVV. The Department of Geology is successful in commercial research and collaboration with private sector, based on contractual projects. Naturally, students are involved in all of the above-mentioned project activities.

The Department of Geology runs several laboratories (sedimentology lab, advanced optical microscopy lab, electron microscopy and microanalysis lab, petrophysical lab, bulk geochemistry lab) and operates numerous field- and laboratory geophysical instruments (seismics, geoelectrics, electromagnetics, ground-penetrating radar, gamma-ray spectrometry) (http://geology.upol.cz/veda-a-vyzkum/; http://geofyzika.upol.cz/). The Department of Geology collaborates with numerous international universities and hosts foreign students and teachers on every-year basis. All these activities will continue in the following years.

The principal task for the nearest future (2 years) is the expansion of the Department of Geology in the Erbil campus and building of laboratory infrastructure and instrumentation, based on the good practice from Olomouc, and based on collaboration with the Erbil staff (Spirov, Mansurbeg and Rudyk). This will foster the Department´s ability to compete on the international scale, and help expanding its portfolio of teaching and research activities.

http://geology.upol.cz/veda-a-vyzkum/

http://geofyzika.upol.cz/

V Olomouci dne 1. června 2019

Prohlášení

V případě udělení oprávnění uskutečňovat bakalářský studijní program Petroleum Engineering bude studijní program garantován a studijní předměty garantovány a vyučovány na odpovídající odborné úrovni po celou dobu platnosti akreditace. Pokud dojde k případnému odchodu některých pracovníků, budou nahrazeni pracovníky s kvalifikací odpovídající daným požadavkům.

doc. RNDr. Martin Kubala, Ph.D. děkan Přírodovědecké fakulty

Univerzity Palackého v Olomouci

Přírodovědecká fakulta Univerzity Palackého v Olomouci 17. listopadu 1192/12 | 771 46 Olomouc | T: 585 634 060 www.prf.upol.cz

http://www.prf.upol.cz/

Documents

A-I – Basic Information About the Accreditation Application Name … · 2019-10-02 · B-I – Study Program Characteristics Name of Study Program Petroleum Engineering Type of