Eğitim - Öğretim



PETROLEUM AND NATURAL GAS ENGINEERING COURSE PROGRAM1. SEMESTER COURSESCOURSE CODECOURSE TITLET+P+LCREDITECTS02040101Mathematics – I4+0+04602040102Physics – I3+0+24602040103General Chemistry – I3+0+24502040104Introduction to Petroleum and Natural Gas Engineering2+0+02202040105Basic Comp. Technology and Usage2+2+03402040130Turkish Language and Litarure - I2+0+02202040132Principles of Atatürk and History of Revolution– I2+0+02202040134 Foreing Language - I3+0+033TOTAL CREDIT: 24+0302. SEMESTER COURSESCOURSE CODECOURSE TITLET+P+LCREDITECTS02040201Mathematics – II4+0+04602040202Physics – II3+0+24602040203General Chemistry – II3+0+24502040204Computer Aided Technical Drawing2+2+03302040205Computer programming2+2+03302040231 Turkish Language and Litarure – II2+0+02202040233 Principles of Atatürk and History of Revolution– II2+0+02202040235Foreing Language - II3+0+033TOTAL CREDIT: 25+0303. SEMESTER COURSESCOURSE CODECOURSE TITLET+P+LCREDITECTS02040301Differential Equations4+0+04502040302General Geology 3+0+03502040303Engineering Mechanics3+0+03502040304Introduction to Fluid Mechanics3+0+03502040305Economy3+0+035ELECTIVE COURSES Technical Elective Courses (3 credit)02040306Vocational Foreing Language -13+0+03502040307Pressure Control3+0+035TOTAL CREDIT: 16+3304. SEMESTER COURSESCOURSE CODECOURSE TITLET+P+LCREDITECTS02040401Engineering Mathematics (Numerical Methods)4+0+04602040402Strength3+0+03502040403Thermodynamics3+0+03502040404Rock Properties2+0+23502040405Fluid Mechanics2+0+235ELECTIVE COURSESTechnical Elective Courses (3 credit)02040406Subsurface Geology3+0+03402040407Materials Science3+0+034TOTAL CREDIT: 16 + 3305. SEMESTER COURSESCOURSE CODECOURSE TITLET+P+LCREDITECTS02040501Reservoir Engineering -12+0+03402040502Drilling Engineering -12+0+23502040503Production Engineering -12+0+03402040504Petroleum and Natural Gas Geology2+2+03502040505Statistical Methods for Engineering3+0+034ELECTIVE COURSES Non-Technical Elective Courses (3 credit)020405nnNTEC – I3+0+034 Technical Elective Courses (3 credit)02040506Offshore Drilling Technique3+0+03402040507Petroleum Geophysics and Seismic3+0+034TOTAL CREDIT: 15 + 6306. SEMESTER COURSESCOURSE CODECOURSE TITLET+P+LCREDITECTS02040601Reservoir Engineering -23+0+03502040602Drilling Engineering -23+0+03502040603Production Engineering -23+0+035ELECTIVE COURSES Non-Technical Elective Courses (3 credit)020406nnNTEC – II3+0+035Technical Elective Courses (6 credit)02040604Directional Drilling Technique3+0+03502040605Unconventional Petroleum Geology3+0+03502040606Vocational Foreign Language -23+0+03502040607Petroleum Engineering Research3+0+035TOTAL CREDIT: 9 + 9307. SEMESTER COURSESCOURSE CODECOURSE TITLET+P+LCREDITECTS02040701Natural Gas Engineering3+0+03402040702Well Logging and Formation Evaluation3+0+03502040703Well Completion3+0+03402040704Geothermal Engineering3+0+03502040709*Petroleum and Natural Gas Engineering Design *2+4+048ELECTIVE COURSES Non-Technical Elective Courses (3 credit)020407nnNTEC – III3+0+034 Technical Elective Courses (6 credit)02040706Drilling Fluids Engineering3+0+03402040707Simulation of Geosystems3+0+03402040708Well Improvement3+0+03402040709Reservoir Geomechanics3+0+03402040710Environmental Control in Petroleum Engineering Applications3+0+03402040711Energy Engineering3+0+03402040712Petroleum Technical Presentations3+0+03402040713Petroleum Legislation3+0+034 TOTAL CREDIT: 12+ 9308. SEMESTER COURSESCOURSE CODECOURSE TITLET+P+LCREDITECTS02040801Petroleum and Natural Gas Engineering Design2+4+04802040802Worker Health and Safety2+0+02302040803Petroleum and Natural Gas Economics3+0+035ELECTIVE COURSESNon-Technical Elective Courses (3 credit)020408nnNTEC – IV3+0+034Technical Elective Courses (6 credit)02040804Emerging Technologies in Drilling Engineering3+0+03502040805Pipeline Design and Risk Analysis3+0+03502040806Well Pressure Test Analysis3+0+03502040807LPG Technology and Industry3+0+03502040808Well Mechanics3+0+03502040809Underground Gas Storage3+0+03502040810Reservoir Characterization3+0+03502040811Enhanced Petroleum Recovery Methods3+0+035 TOTAL CREDIT: 9+930Abbreviations: T = Hours of lecture per weekP = Teaching hours of practice per weekL = Laboratory course hours NTEC: Non-Technical Elective Courses * Petroleum and Natural Gas Engineering Design Course, which may take the case to graduate (if the extension is valid for those). Required Courses: 126 Credit Elective Courses: 39 Credits Non-Technical Elective Courses: 12 Credits Technical Elective Courses: 27 Credits Credit General Count: 126 + 39 = 165 Credit Common Compulsory Foreign Language Courses (Foreign Language - I and II): 6 CreditsExcluding Common Compulsory Foreign Language Courses: 159 Credit PETROLEUM AND NATURAL GAS ENGINEERING DEPARTMENTCOURSE PRE-CONDITIONSCourseTermPrerequisite (have passed the following courses with at least CC)02040401 Engineering Mathematics (Numerical Methods)4.Semester02040301 Differential Equations02040402 Strength4.Semester02040303 Engineering Mechanics02040501 Reservoir Engineering -15.Semester02040404 Rock Properties02040405 Fluid Properties02040502 Drilling Engineering -15.Semester02040402 Strength02040304 Introduction to Fluid Mechanics02040601 Reservoir Engineering-26.Semester02040501 Reservoir Engineering -102040602 Drilling Engineering -26.Semester02040502 Drilling Engineering -102040603 Production Engineering-26.Semester02040503 Production Engineering -102040702 Well Logging and Formation Evaluation7.Semester02040404 Rock Properties02040405 Fluid Properties02040801 Petroleum and Natural Gas Engineering Design8.Semester02040501 Reservoir Engineering 102040503 Production Engineering 102040602 Drilling Engineering 202040702 Well Logging and Formation Evaluation(At least 3 courses)PETROLEUM AND NATURAL GAS ENGINEERINGTECHNICAL ELECTIVE COURSES LISTCourse CodeCourseTermCredit02040306Vocational Foreing Language3. Semester302040307Pressure Control3. Semester302040406Subsurface Geology4. Semester302040407Materials Science4. Semester302040506Offshore Drilling Technique5. Semester302040507Petroleum Geophysics and Seismicity5. Semester302040604Directional Drilling Technique6. Semester302040605Unconventional Petroleum Geology6. Semester302040606Vocational Foreign Language -26. Semester302040607Petroleum Engineering Research6. Semester302040706Drilling Fluids Engineering7. Semester302040707Simulation of Geosystems7. Semester302040708Well Improvement7. Semester302040709Reservoir Geomechanics7. Semester302040710Environmental Control in Petroleum Engineering Applications7. Semester302040711Energy Engineering7. Semester302040712Petroleum Technical Presentations7. Semester302040713Petroleum Legislation7. Semester302040804Emerging Technologies in Drilling Engineering8. Semester302040805Pipeline Design and Risk Analysis8. Semester302040806Well Pressure Test Analysis8. Semester302040807LPG Technology and Industry8. Semester302040808Well Mechanics8. Semester302040809Underground Gas Storage8. Semester302040810Reservoir Characterization8. Semester302040811Enhanced Petroleum Recovery Methods8. Semester3Annexe 2 CONTENT OF COURSESI. SEMESTERCourse Code:Course Name:02040101Mathematics -I Degree:Bachelor's degreeYear/Term:1./FallEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:4ECTS Credit:6Lecturers:Content Of Course:Communication, functions and logarithms, questions about the subject solutions, Limits and continuity, theoretical questions solutions about the subject, Derivative, and derivatives of some of the important functions of the geometrical interpretation, Lecture about the subject of problem solving, Increasing and decreasing functions, curvature of curves, maximum-minimum problems solutions theoretical questions about the subject Vague situations in limit, L'Hospital rule, Lecture about the subject of problem solving, Function of the graphics, drawings, Theoretical solutions about the subject questionsObjectives of the Course:Fundamental mathematical concepts to students, especially limits, continuity, derivative, chain-like series of concepts and their professional practice is to teach.Recommended Resources:O. Bizim, A. Tekcan ve B. Gezer. Genel Matematik, Dora Yay?nc?l?k, 2011.F. Akbulut ve A. ?al??kan. Matematik Analiz Al??t?rma ve Problemler Derlemesi, ?zmir, 1987.J. Stewart. Calculus, ThomsonPub., 2003.G. Thomas and R. Finney. CalculusandAnalyticGeometryPart I, Addison-WesleyPub. 1994.Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: noneNOTE:Course Code:Course Name:02040102Physics -I Degree:Bachelor's degreeYear/Term:1./FallEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:4ECTS Credit:6Lecturers:Content of Course:Length, Mass and time standards, dimensional analysis, conversion of units, working conditions in the laboratory, the creation of groups, error calculations, Vectors, coordinate systems, vector and scalar quantities, some of the features of vectors, vector components and unit vectors, graphic drawing and go to the results of the measurements taken in the determination of the path to follow, Motion in one dimension, location, speed, instantaneous speed, acceleration, motion diagrams, in one dimension with constant acceleration motion, free falling bodies, kinematic equations of the mathematical equation is derived, two-dimensional motion, velocity, and acceleration vectors, Two-dimensional motion with constant acceleration, angular shot , Uniform circular motion, tangential and radial acceleration, relative velocity and relative acceleration vernier caliper, micrometer and take measurements using Sferometr, Laws of motion, the concept of force, Newton's first law and inertial systems, mass, Newton's second law, the force of gravity and weight, Newton's third law, some applications of Newton's laws, friction force With the help of an inclined plane to measure the coefficient of friction Circular motion and other applications of Newton's laws, Newton's second law, the implementation of uniform circular motion, non-uniform circular motion in accelerated systems Heat capacity of the calorimeter and the determination of heat of a solid body Energy and energy transfer, the work done by a constant force, the work done by the changing forces, kinetic energy and work-kinetic energy theorem, conservation of energy with the help of the reversible pendulum to measure the acceleration of gravity Potential energy of a system potential energy, mechanical energy conservation conservative and non-conservative forces, conservative forces, mechanical energy change, Conservative forces and potential energy correlate, energy diagram, Hooke's law and the vibration method and the spring constant determination of Impulse and momentum, linear momentum and collisions, linear momentum conservation in one dimension collisions, Two-dimensional collisions, the center of mass system of particles of the movement in one dimension at a constant speed of a moving object's investigation of the motion, Rigid body rotation around a fixed axis, Moment of Inertia, Parallel Axis Theorem, perpendicular axes theorem, torque, torque and angular acceleration of the Relationship Between Determination, ballistic pendulum, Static, equilibrium conditions, the center of gravity, stress, strain,Objectives of the Course:For the purpose of the course, students learn concepts related to mechanics, to explain the relationship between concepts and laws, the laws of physics to problem solving is to explain how to apply. Also captured with physics laboratory practice to reinforce information.Recommended Resources:Raymond A. Serway, John W., (1995). “Fen ve Mühendislik i?in Fizik”, Palme Yay?nc?l?k.Hugh D. Young, Roger A. Freedman, (2007) “?niversite Fizi?i”, PearsonEducation Yay?nc?l?k.Fishbane,Gasiorowicz,Thornton”Temel Fizik, Cilt I”Evaluation Methods: Midterm exam: 40%; Final: 60%Prerequisite: noneNOTE:Course Code:Course Name:02040103General Chemistry - IDegree:Bachelor's degreeYear/Term:1./FallEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:4ECTS Credit:5Lecturers:Content Of Course:Atoms and atomic theory of matter, Chemical Compounds, Chemical reactions, Gases, Thermochemistry, Liquids, The solids and intermolecular forces, Chemical kinetics, Chemical balance issues will be handled in the course contentObjectives of the Course:The purpose of the basic chemistry course, students in vocational areas to create the necessary knowledge and comprehension of basic chemistry is to be able to use them in problem solving.Recommended Resources:Genel Kimya (I. ve II. cilt): Petrucci, Harwood, Herring,?eviri: Tahsin Uyar, Serpil Aksoy;?niversite Kimyas? (I. ve II. cilt): Bruce H. MahanGenel Kimya : Ayhan UlubelenContemporary Chemistry: John E. Hearst, James B. Ifft.Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: noneNOTE:Course Code:Course Name:02040104Introduction to Petroleum and Natural Gas EngineeringDegree:Bachelor's degreeYear/Term:1./FallEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:2ECTS Credit:2Lecturers:Content Of Course:Introduction to Petroleum and natural gas industry,Turkey and the World in the energy, oil and natural gas,The origin of petroleum and natural gas, composition and fluid properties,Improve methods of production,Petroleum and natural gas reservoirs,Surface production equipment,Petroleum and natural gas transmission,Environmental issuesObjectives of the Course:Petroleum and natural gas engineering provide students with basic information,An engineer on petroleum and natural gas fields and explains the issues,Petroleum and natural gas, chemical, physical and thermodynamic properties to equipIn general, today's problems related to petroleum and natural gas engineering concepts and ideas to students about the showRecommended Resources:Nontechnical Guide to Petroleum Geology, Exploration, Drilling and Production, 2nd Edition, Hyne, Norman J., Penn Well Books, 2001.Satman, 2008, PET111E Intro. to Petr. and Natural Gas Engin. Course Note, ITU Petroleum and Natural Gas Engineering Department.Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: noneNOTE:Course Code:Course Name:02040105Basic Comp. Technology and UsageDegree:Bachelor's degreeYear/Term:1./FallEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:3ECTS Credit:4Lecturers:Content Of Course:The general structure of computers and hardware, System software, Operating systems, The compiler identification, identification data and commands, Application software, networks, hardware and software terminology, DOS operating system, the installation of DOS, DOS use, Introduction to Windows; Understanding object select, move undo the action, windows fundamentals, Program manager, the main group, equipment group, a group of applications, word processing, databases, spreadsheets, graphics applications, using information networks, computer networks LAN, WAN networks, and the Internet in the internetwork structure.Objectives of the Course:Students grasp the basic principles of the provision of information technology. To increase efficiency in daily computer usage. In order to solve the basic problems in computer engineering necessary tools (software) and professional engineering problems introducing computerized identification, modeling, and simulation (simulation) for is that trained with the necessary software.Recommended Resources:Banger, G., 1995, Bilgisayar programlaman?n temel bilgileri, 2 cilt; Karadeniz Teknik ?niversitesi Yay?nlar?, Genel Yay. No 177, 345Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: noneNOTE:Course Code:Course Name:02040130Turkish Language and Litarure-IDegree:Bachelor's degreeYear/Term:1./FallEducation Type:Theoretical CoursesEducation Language:EnglishType:CompulsoryNational Credit:2ECTS Credit:2Lecturers:Content Of Course:?mportance of the course and introducing bibliography. What's language? ?mportance of language in the life of nation as a social institution. What's culture? What's the relationship between language and culture? ?mportance of Turkish language among the other languages in the world in terms of structure and origin; historical development and periods of Turkish language. Current status and spreading area of Turkish language. What are polish, accent and dialect? Sound of Turkish and their classification. Characteristics of sounds of Turkish and rules of phonology; syllabic information. Studies to enrich vocabulary of Turkish language in republican Period. Rules of spelling and practice. Punctuation and parctise. Supplement of Turkish and practise. General information on essay. Plan of an essay and practice. Noun and conjugation in Turkish. The use of adverbs and prepositions of Turkish. Sentence information.Objectives of the Course:1- To gain students the ability to use Turkish fair as a written and oral instrument of narration. 2- Get to know the works of the leading Turkish language spoken and written and read. 3- To learn, the petition, essay, biography, literary genres, such as applying the articleRecommended Resources:Türk Dili ve Kompozisyon Bilgileri, Zeynep Korkmaz, Yarg? Yay. ?rneklerle Kompozisyon Sanat? (Düzenli Yazma ve Konu?ma), Sakin ?ner, Veli Yay. Yüksek??retim ??rencile ??in Türk Dili Kompozisyon Bilgileri, Y?K Matbaas?,Ankara. ?niversite Türk Dili ve Kompzisyon Dersleri, Bayrak Yay?nlar?, ?stanbul. Türk Dili, Muharrem Ergin, ?stanbul. Türk Dili ve Kompozisyon (Planl? Konu?ma ve Yazma Sanat?) Cevdet Yal??n, ART Bas?n Yay?n Hizmetleri, Ankara. Yüksek??retim ??rencileri ??in Türk Dili ve Kompozisyon Bilgileri, Y?K Matbaas?, Ankara.Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: noneNOTE:Course Code:Course Name:02040132Principles of Atatürk and History of Revolution-IDegree:Bachelor's degreeYear/Term:1./FallEducation Type:Theoretical CoursesEducation Language:EnglishType:CompulsoryNational Credit:2ECTS Credit:2Lecturers:Content Of Course:The Revolution and Concepts related to the Revolution Innovation movement in the Ottoman Empire Innovation movement in the Ottoman Empire The reasons for the collapse of the Ottoman Empire The reasons for the collapse of the Ottoman Empire Tripoli and Balkan wars I. World War I. World War Truce Of Mondros Occupation of Anatolia And Opening of Parliament And Peace Treaty of Sevres National Struggle National Struggle Truce Of Mudanya, Peace Treaty Of LausanneObjectives of the Course:Ataturk's reforms and the Kemalist Thought system to give accurate information about the History of the Republic of Turkey, Turkey to train the youth in line with Kemalist Thought System.Recommended Resources:DO?AN, Orhan, Ataturk Principles and Revolution History,Ankara 2011Resources on History of Revolution DO?AN, Orhan, Ataturk Principles and Revolution History,Ankara 2011 Ataturk Principles and Revolution History I/1, Preparatory Period Turkish Revolution and Turkish War of Independence, Council for Higher Education Publications, Ankara Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: noneNOTE:Course Code:Course Name:02040134English Course IDegree:Bachelor's degreeYear/Term:1./FallEducation Type:Theoretical CoursesEducation Language:EnglishType:CompulsoryNational Credit:3ECTS Credit:3Lecturers:Content Of Course:Basic and advanced grammatical structure of the English language. Basic concepts and to create dialogue on fundamental issues and be able to learn new words. With the help of keywords and to use the time to distinguish, At different times to create a positive-negative and interrogative sentences, Sentences mixed in the ability to sort items correctly according to English sentence structure, Increasing vocabulary and sentence, paragraph and text level to understand what they read.Objectives of the Course:Lecture about basic grammatical structures and exercises to teach students and with the help of a certain level of understanding the reading-writing skills in English. Also in the English language to express themselves accurately and efficiently is of course.Recommended Resources: New Headway Elementary Student’s Book & Workbook Lizand John Soars third editionEnglish for Life Student’s Book & Workbook Tom HutchinsonEssential Grammar In UseRaymond Murphy Ders notlar?Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: noneNOTE:II. SEMESTERCourse Code:Course Name:02040201Mathematics IIDegree:Bachelor's degreeYear/Term:1./SpringEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:4ECTS Credit:6Lecturers:Content Of Course:Indefinite integral and its properties, indefinite integral calculation methods, variable substitution and partial integration, simple fractions, Problem Solving about theoretical issues, Integral calculation methods, special and trigonometric change of variables, Problem Solving about theoretical issues, Definite Integral, the upper and lower Riemann sums, the fundamental theorem of calculus,Problem Solving about theoretical issues. Applications of definite integrals, Area, volume and center of gravity calculations, Polar coordinates, vectors, matrices (definitions, types, addition and multiplication operations), Determinants and calculation rules, Systems of linear equations and their solutions, Spatial lines and planes, the transformation of the coordinate axes, Multiple integrals and application areas.Objectives of the Course:Purpose of the course, three-dimensional vectors, vector-valued function concept and the functions associated with algebraic operations the ability to make students acquire, functions of several variables, limits, continuity, partial derivatives, integrals, differential concepts to gain the function sequences and series, functions of two variables in the Taylor series expansion , functions of several variables in the directional derivative and gradient concept, two and triple integrals, polar, cylindrical and spherical coordinates, line and surface integrals and related Green, Stokes and Divergence-Gauss theorem and the theorem of the application is to give.Recommended Resources:Sherman K. Barcellos, A.,Calculus ve Analitik Geometri, Cilt 1 ve 2. Türk?esi: BenoKuryel ve Firuz Balkan. Literatür Yay?nc?l?k San. Tic. Ltd. ?ti, 2003.Ayres, F., Diferansiyel ve ?ntegral Hesap, ?eviri: Dr. Güzin G?KMEN, Güven Kitabevi Yay?nlar?, Ankara,1997.Matematik Formülleri ve Tablolar? El Kitab?, Bilim ve Teknik Kitabevi. Eski?ehir, 2000.Yard?mc? Ders Kitaplar?: Balc? MustafaMatematik Analiz 2 Balc? yay?nlar? 1997 Edwards-Penny Matematik Analiz ve Analitik Geometri II Palme Yay?nc?l?kEvaluation Methods: Midterm exam: 40%; Final: 60%Prerequisite: noneNOTE:Course Code:Course Name:02040202Physics IIDegree:Bachelor's degreeYear/Term:1./SpringEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:4ECTS Credit:6Lecturers:Content Of Course:Coulomb's law, electric field, potential and electric field condensers. Ohm's law, the resistance of a conductor and Kirchoft law, Magnetic field, electromagnetic induction, optics, refraction and reflection laws.Objectives of the Course:Basic concepts and laws of electric and magnetic fields to teach students, to explain the relationship between concepts. The laws of physics to problem solving is to explain how to apply. Also captured with physics laboratory practice to reinforce information.Recommended Resources:Halliday, D, Resnick, R., ?eviri Edit?rü: Yal??n, C., Fizi?in Temelleri, Arkada? Yay?nevi , Ankara,. 2002.Serway, R.A. ?eviri Edit?rü: ?olako?lu, K., Fen ve Mühendislik i?in Fizik. Palme Yay?nc?l?k, Ankara, 1990.Fishbane, P.M.,Gasiorowicz, S., &Thornton, S.T. ?eviri Edit?rü: Türko?ullar?, ?. Temel Fizik. Ankara: Arkada? Yay?nevi, 2003.Yard?mc? Ders Kitaplar?: Ohanian, H.C.,Physics. New York: W.W. Norton &Compony, Inc, 1989.Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: noneNOTE:Course Code:Course Name:02040203General chemistry IIDegree:Bachelor's degreeYear/Term:1./SpringEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:4ECTS Credit:5Lecturers:Content Of Course:Classification of analytical chemistry and analytical methods, Preparation of the sample analysis, analysis of results, calculation and evaluation, Laboratory glassware used in the calibration, The basic principles of gravimetric analysis, Solubility, solubility, factors affecting Ionization equilibrium, Volumetric analysis of the basic ESA, Solution preparation and concentration units, Indicators, acid-base balance, acid-base titration and curves, Redox titrations and curves, Complexometric titration and curves.Objectives of the Course:To teach the basic concepts and principles of chemistry, As a whole to give theoretical and practical knowledge, Students develop problem-solving skills, To explain the importance of chemistry in our daily life, To help the students make sense and positive thinking.Recommended Resources:Analitik Kimya Temelleri, Skoog West Holler, seventy edition, 1996, Saunders college publishing.Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: noneNOTE:Course Code:Course Name:02040204Computer Aided Technical DrawingDegree:Bachelor's degreeYear/Term:1./SpringEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:3ECTS Credit:3Lecturers:Content Of Course:Basic concepts, introduction to computer-aided design, AutoCAD display area, And use basic drawing elements, correction and editing applications, Image control and zoom techniques, blocks and characteristics, Drawing elements and properties (color, DDR color, line types), Geometric drawings, dimensioning techniques, scanning, coloring and shading, cross-section views, auxiliary views geometric calculations, Developments of some geometric shapesObjectives of the Course:Principles of design and technical drawing in a computer environment. Computer-aided drawing. Computer-aided design: two-dimensional drawing. Two-dimensional drawings to be converted to 3-D volume and basic operations on solid models. The experimental setup designRecommended Resources:“Mastering AutoCAD 2006 and AutoCAD LT 2006”, George Omura, Sybex Pub. (2005).“Modeling and Simulation for Material Selection and Mechanical Design”, George E. Totten, Lin Xie, Kiyoshi Kutanani, Marcel Dekker, Inc., (2004), USA.“Access 2007 All in One Desk Reference”, Alan Simpson,Margaret Levine Young, Alison Barrows,April Wells, Jim McCarter, Wiley Pub., (2007), USA.“Bilgisayar Destekli ?izim Modülü I ve II”, Milli E?itim Bak., Meslek? E?itim Ve ??retim Sisteminin Gü?lendirilmesi Projesi, (2005).Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: noneNOTE:Course Code:Course Name:02040205Computer programmingDegree:Bachelor's degreeYear/Term:1./SpringEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:3ECTS Credit:3Lecturers:Content Of Course:Introduction and history, Computer's operating principles, Computer system components-software equipment, The basic principles of computer programming, Argorit the building, Data types variables, Constants, Operations, Cycles, Basic and C programming languages, structure and programming concepts, Assignment statement, The program control statements, Input / Output statements, Functions and subroutines, The transactions with alpha numeric variables, Q basic compiler or interpreter on the use of commands Basic DOS operations.Objectives of the Course:Basic programming and algorithm development capability to provide students and students developed the program is to enable the C programming language.Recommended Resources:Bloom, E. P., 1967, The C trilogy: A complete library for C programmers; Windcreats Books, New York, 584 ppErdun, H. ve Demiralp, F., 1997, Turbo C programlama dili; Beta Bas?m Yay?m Da??t?m, ?stanbul, Yay. No 292, 469 sJohnson, N., 1987, Advanced graphics in C, Programming and Techniques; Osborne McGraw-Hill, Berkeley, California; 670 sK?l??ay, ?., 1990, Microsoft C destekli Turbu C programlama dili; Ofset Refromat, ?stanbul, 423 sEvaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: noneNOTE:Course Code:Course Name:02040231Turkish Language and Litarure-IIDegree:Bachelor's degreeYear/Term:1./SpringEducation Type:Theoretical CoursesEducation Language:EnglishType:CompulsoryNational Credit:2ECTS Credit:2Lecturers:Content Of Course:Turkish Language?s characteristics in terms of structure and meaning, basic works,self expression in society, ways of using the language correctly and effectively.Objectives of the Course:Aim of this lesson is to provide students with characteristics of Turkish Language, correct and effective usage of the language and better expressions.Recommended Resources:Akerson, F. (2008). Türk?e ?rneklerle Dile Genel Bir Bak??, Multilingual, 2. Bsk. ?stanbul, 282 s.Aksan,D. (1990). Her Y?nüyle Dil Ana ?izgileriyle Dilbilim, TDK, Ankara,Akta?, ?.; Gündüz, O. (2011) Yaz?l? ve S?zlü Anlat?m Kompozisyon Sanat?, Ak?a? Yay?nlar?, Ankara, 330 s.Cafero?lu, A. (1984). Türk Dili Tarihi, Enderun Kitabevi, ?stanbul, 246 s. Ergin, M. (1972). Türk Dil Bilgisi ??rneklerle Kompozisyon Sanat? (Düzenli yazma ve konu?ma) Sakin ?ner, Veli Yay. ?stanbul ?Yüksek??retim ??rencileri ??in Türk Dili Kompozisyon Bilgileri, Y?K Matbaas?, Ankara. ??niversite Türk Dili ve Kompozisyon Dersleri, Bayrak Yay?nlar?, ?stanbul. ??yi ve Do?ru Yazma Usulleri, Kubbealt? Ne?riyat, ?stanbul. ?Türk Dili, Muharrem Ergin, ?stanbul ?Türk Dili ve Kompozisyon (Planl? Konu?ma ve Yazma Sanat?) Cevdet Yal??n, ART Bas?n Yay?n Hizmetleri, Ankara. Türk Dili, Muharrem Ergin, ?stanbul, Türk Dili ve Kompozisyon, Prof. Dr. Zeynep KORKMAZ, Geni?letilmi? 4. Bask?, Ekin Bas?m Yay?m Da??t?m, Bursa, 2010Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: noneNOTE:Course Code:Course Name:02040233Principles of Atatürk and History of Revolution-IIDegree:Bachelor's degreeYear/Term:1./SpringEducation Type:Theoretical CoursesEducation Language:EnglishType:CompulsoryNational Credit:2ECTS Credit:2Lecturers:Content Of Course:Introduction Forming of organized armies East front Wars that have been fought by the organized armies, 1st ?n?nü war, 2nd ?n?nü war Sakarya war and after TBMM National struggle period Turkish international politics and Lozan treaty Mid-term exam Atatürk period international affairs Republic era political parties Economical developments in Atatürk period Revolutions. Atatürks principles Turkey after Atatürk End-of-term examObjectives of the Course:Ataturk's reforms of the system and to give the correct information about the History of the Republic of Turkey, the Turkish youth to train in accordance with the Kemalist Thought System.Recommended Resources:Do?.Dr.Orhan Do?an Atatürk ?lkeleri Ve ?nklap Tarihi Do?.Dr.Orhan Do?an Atatürk ?lkeleri Ve ?nklap TarihiEvaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: noneNOTE:Course Code:Course Name:02040235English Course IIDegree:Bachelor's degreeYear/Term:1./SpringEducation Type:Theoretical CoursesEducation Language:EnglishType:CompulsoryNational Credit:3ECTS Credit:3Lecturers:Content Of Course:Future tense,Futureprogressive tense,Was/were,Simple past tense,Present Perfect Tense,Past Perfect Tense,RelativeClauses,Passivevoice yap?lar? ders i?eri?i olarak anlat?lacakt?r.Objectives of the Course:Reading, writing, listening and speaking skills through the basic language of the student.Recommended Resources:?ak?r, V., Yorganc?, N., Keskil, G., Full StreamAhead, Gündüz E?itim ve Yay?nc?l?k, 2002.Yard?mc? Ders Kitaplar?: EssentialGrammerInUse. ?ngilizce-Türk?e, Türk?e-?ngilizce S?zlükEvaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: noneNOTE:III. SEMESTERCourse Code:Course Name:02040301Differential EquationsDegree:Bachelor's degreeYear/Term:2./FallEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:4ECTS Credit:5Lecturers:Content Of Course:General concepts and classification. First order differential equations, variables separable equations, exact equations Integrating factor, first-order linear equations with variable substitution; homogeneous equations, Bernoulli equation, Riccati equation, existence and uniqueness theorems, applications of first order differential equations First-order high-grade equations. n. order linear differential equations with constant coefficients equations (undetermined coefficients method), Differential equations with variable coefficients (the operator factorization, the method of variation of parameters, Order reduction method, the Cauchy-Euler equation Laplace transforms, definitions and theorems Laplace transform is applied to the ordinary differential equation Power series method: ordinary and singular points of solutions around Linear systems of differential equations: basic theory and solutions, solutions using Laplace transform.Objectives of the Course:Course objective differential equations encountered in many applications in engineering and systems and solutions to introduce students to explore.Recommended Resources:Diferansiyel Denklemler, Edwards Penney, Türk?e, 2. bas?m, 2008.Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: noneNOTE:Course Code:Course Name:02040302General GeologyDegree:Bachelor's degreeYear/Term:2./FallEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:3ECTS Credit:5Lecturers:Content Of Course:Classification of igneous and sedimentary rocks, General characteristics of the stratified rocks, Stratification, layer or sheet stacks series, The concept of age in geology, Tectonic deformation of stratified rocks, strike and dip, and dip orientation, Geologists introduction of the compass, Curved structure of the layers, folds types of layered rocks fractured structure, Cracks and faults, magma, volcanism, plutonism, metamorphism.Objectives of the Course:The universe and the Earth's position, plate movements, different rocks in the earth's crust, minerals, fossils and geological structure of the study and the concept of geologic time, mountain building and to teach topics such as the causes of earthquakes.Recommended Resources:Genel Jeoloji, Cilt I, Yer Bilimlerine Giri?, ?hsan KET?N, 1977, ?T? Vakf?. Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: noneNOTE:Course Code:Course Name:02040303Engineering MechanicsDegree:Bachelor's degreeYear/Term:2./FallEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:3ECTS Credit:5Lecturers:Content Of Course:Mechanical concept, Statics and related problems, Rigid bodies, Equivalent force systems, Internal and external forces, Equilibrium of rigid bodies (plane of the balance of forces and space force systems) center of gravity, beams and cables, and related problems.Objectives of the Course:To teach the basic principles of statics and dynamics, Static and dynamic engineering problems related to the application of the principle to acquire skills.Recommended Resources:Statik; F. P. Beer ve E. R. Johnston, ?eviren: Fikret Keskinel, Tekin ?zbekEvaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: noneNOTE:Course Code:Course Name:02040304Introduction to Fluid MechanicsDegree:Bachelor's degreeYear/Term:2./FallEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:3ECTS Credit:5Lecturers:Content Of Course:General descriptions, Fluid mechanics and hydraulics, units, viscosity, The hydrostatic force acting on the plane surface, Fluid flow, constant and uniform flow, flow charts, Continuity of writing a program, run the presentation, the input_output statements, control statements, present functions, Filing procedures and commands, program examples. Momentum equation, dimensional analysis and similarity, Viscous flow in pipes and ducts, Boundary-layer theory, Potential flow theory, Compressible flow, Flow measurement techniques.Objectives of the Course:To teach the definition of fluid and unit systems, Principles and to account for hydrostatic pressure forces, Ideal and real fluids, one, two and three-dimensional flows to obtain the basic equations (continuity, energy and momentum equations) and apply Examine the potential and potential non-current, Boundary layer, dimensional analysis and simulation concepts is to give.Recommended Resources:Yunus ?engel Ak??kanlar Mekani?i/Temelleri ve Uygulamalar?, Güven kitapevi Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: noneNOTE:Course Code:Course Name:02040305EconomyDegree:Bachelor's degreeYear/Term:2./FallEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:3ECTS Credit:5Lecturers:Content Of Course:Economics is the study of the choices people make and the actions they take in order to make the best use of scarce resources to fulfil their wants and needs. This course is an introduction to the basic principles of microeconomics, which analyzes the choices and actions of the individual parts of the economy – households, firms, and the government. This course covers resource allocation and opportunity cost; supply and demand; pricing and the market system; elasticity; theories of production and consumption; perfect and imperfect competition and factor markets.Objectives of the Course:The purpose of this course is to introduce students to the principles of economics and to provide a basic understanding of how economic actors such as households and firms decide to manage/allocate their available resources in an efficient way. The course provides students with a framework of and the ability to evaluate key microeconomic topics facing market economies such as basic market structures, supply and demand, consumer behavior, firm behavior in output markets, the production process, input markets, decisions in regards to market power, and market failures in capitalist economies. More specifically, students should be well prepared to tackle the issues covered in the more advanced second year course “Microeconomics".Recommended Resources:?ktisada Giri? Kemal YILDIRIM ?lker PARASIZ, ?ktisada Giri?, Ezgi Kitabevi, Bursa, 1993. Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: noneNOTE:Course Code:Course Name:02040306Vocational Foreing LanguageDegree:Bachelor's degreeYear/Term:2./FallEducation Type:Theoretical CoursesEducation Language:TurkishType:Technical electiveNational Credit:3ECTS Credit:5Lecturers:Content Of Course:General grammar rules, Translated from English to Turkish professional techniques, English language training, translation and writing techniques to be considered in the Article writing rules and practices.Objectives of the Course:Petroleum and Natural Gas in various fields of engineering students in the English language to describe the course, students learn the provision of technical terms in English, English listening and the ability to gain self-expression. Professional issues that may enter into correspondence terminology and grammar of English dialogue and the creation of infrastructure. The ability to obtain information by reading professional literature development. Students of the importance of their profession adopting a global, international communication comprehend the importance of awareness in professional lifeRecommended Resources:Petroleum I, V. Evans, J. Dooley, S. Alireza Haghighat Lecturers notesEvaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: noneNOTE:Course Code:Course Name:02040307Pressure ControlDegree:Bachelor's degreeYear/Term:2./FallEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:3ECTS Credit:5Lecturers:Content Of Course:Origin and detection of abnormal formation pressures. Principles of pressure control: behaviour of gas in drilling fluids, mechanics of bubble rise. Pressure control methods: driller, engineer, methods. Prediction methods for fracture pressure gradient. Drilling and completion concepts in overpressured formations. Pressure control equipment. Special problems.Objectives of the Course:To learn1.Well Control Fundamentals2.Well Control Training3.Well Control Problems4.Consequences of failure in well control operations5.High Pressure wells6.Offshore well control needs7.Loss of control and blowoutsRecommended Resources:Advanced blowout & well control, Grace, Robert D, Gulf Professional Publishing. 1994. Advanced well control, D. Watson , Terry Brittenham, Preston L. Moore, Society of Petroleum Engineers. 2003rd Ed. SPE One Petro Database PapersEvaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: noneNOTE: IV. SEMESTERCourse Code:Course Name:02040401Engineering Mathematics (Numerical Methods)Degree:Bachelor's degreeYear/Term:2./SpringEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:4ECTS Credit:6Lecturers:Content Of Course:Definition of Numerical Methods and disclosure of especially use in engineering applications,Error analysis in numerical methods, analytical solutions of linear and nonlinear equations system solutions, approximation methods, interpolation, linear regression, numerical integration.Objectives of the Course:Numerical methods used in engineering and science, language, logic and mathematics teaching, Science, industry and society in a very large area composed of numerical methods for solving problems is to teach howRecommended Resources:R. Tapramaz, 2002, Say?sal ??zümleme, Literatür yay?nc?l?k, ISBN: 0130126411.Nahit Kumbasar, 1992, Bilgisayar Programlar? ile Say?sal Hesap, TMMOB In?aat Mühendisleri Odas? Yay?n?.Curtis F. Gerald and Patrick O. Wheatley, 2004, 0-321-13304-8, Addison Wesley Publishing Company, ISBN:0-321-13304-.?.Uzun, 2004, 4. Nümerik Analiz, beta yay?nlar?, ISBN: 9754869529.Chaapra, S., C., Canale, R., P., 2003, Mühendisler i?in say?sal y?ntemler, Literatür Kitabevi, ISBN:0130126411.Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: Differential Equations (02040301) course has passed with CC NOTE:Course Code:Course Name:02040402StrengthDegree:Bachelor's degreeYear/Term:2./SpringEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:3ECTS Credit:5Lecturers:Content Of Course:Entrance, The concept of stress, Stress and strain under axial loading, Torsion, Simple bending, Transverse loading, Stress and strain transformations, Design based on the strength of beams and shafts, With integration of the beam deflection in the presence Finding moment field method, Energy methods, Columns.Objectives of the Course:The basic concepts and applications of mechanical strength of the branches to identify, Rigid bodies and deformable bodies within the context of engineering problems to teach mathematical modeling, Physical problems with the mathematical formulation (in the framework of Statics and Strength) establish a link between Other engineering courses provide basic knowledge To provide engineering perspectiveRecommended Resources:A Textbook of Strength of Materials Dr. R. K. Bansal, Laxmi Publications, 1 Haz 2010 - 1106 sayfa S. Timoshenko ve D. H. Young (?eviren ?. Kayan), Müh. Mekani?i, ?T?, ?n?aat Fak. Mat.,1990.?. Kayan, Cisimlerin Mukavemeti, ?T?, ?n?aat Fak. Matbaas?, 1992M. Hakk? Omurtag, Statik ve Mukavemet, IT?, 2002Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: Engineering Mechanics (02040303) course has passed with CC NOTE:Course Code:Course Name:02040403ThermodynamicDegree:Bachelor's degreeYear/Term:2./SpringEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:3ECTS Credit:5Lecturers:Content Of Course:Introduction and Basic Concepts, Thermodynamics and Energy, Zeroth Law of Thermodynamics, Energy Conversion and General Energy Analysis, Properties of Pure Substances, Energy Analysis of Closed Systems, For the Mass and Energy Analysis of Control Volumes, Second Law of Thermodynamics, Heat Engines, Refrigerators and Heat Pumps, Carnot Cycle, The increase of entropy and entropy principle, Exergy: A Measure of Work PotentialObjectives of the Course:Teach the principles of thermodynamics related to energy conversion. In order to obtain the relationship between the thermodynamic properties of pure substances with phase shifts to teach and to teach the use of thermodynamic properties tables The first law of thermodynamics together with the principle of conservation of energy and the first law to be applied to the closed and open systems to teach Performance of engineering systems in order to determine the theoretical limits the concept of entropy and the second law of thermodynamics energy during the transition to teach along with the irreversibility The basic concepts of thermodynamics to analyze the practical engineering problems to teachRecommended Resources:M.J. Moran ve H.N. Shapiro, 2008, Fundamentals of Engineering Thermodynamics, John Wiley&Sons.Y.A. ?engel, M.A. Boles, 2008, Termodinamik, Mühendislik Yakla??m?yla, Güven Bilimsel.K.Wark ve D.E. Richards, 1999, Thermodynamics, McGraw-Hill.R.T. Balmer, West Publ., 1990, Thermodynamics, St Paul.W.Z. Black ve G. Hartley, 1985, Thermodynamics, Harper and Row.Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: noneNOTE:Course Code:Course Name:02040404Rock PropertiesDegree:Bachelor's degreeYear/Term:2./SpringEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:3ECTS Credit:5Lecturers:Content Of Course:Basic physical properties of the porous media; porosity, permeability, saturation, and electrical properties.Rock / fluid interactions; wettability, relative permeability and capillary pressure,Fluid flow in porous media: Darcy's equation for incompressible and compressible fluid is derived,Layer system of linear and radial flow equations.In layered systems of linear and radial flow equations.Proof of rock properties in a specific title.Objectives of the Course:To provide basic information about the properties of reservoir rocks, Reservoir behavior and clarify the effect of rock properties on the performance, Production and injection well describe the effect of rock properties on the performance, Petroleum, natural gas and geothermal systems to emphasize the importance of engineering in the design of rock properties, Existing tools and oil, natural gas, and geothermal reservoir rock properties required for engineering studies to measure or to provide for students to understand.Recommended Resources:Fj?r, E., Holt, M.R., Horsrud, P., Raaen A.M., Risnes, R., 2008. Petroleum related rock mechanics, Elsevier, 2nd edition, 491p.Ulusay, R., G?k?eo?lu, C. Ve Binal, A., 2005, Kaya Mekani?i Laboratuvar Deneyleri; JMO Yay?n No: 58, 161 s., Ankara.Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: noneNOTE:Course Code:Course Name:02040405Fluid PropertiesDegree:Bachelor's degreeYear/Term:2./SpringEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:3ECTS Credit:5Lecturers:Content Of Course:Hydrocarbon phase behavior of systems, For ideal and real gases and liquids laws, Vapor-liquid equilibrium (VLE), Five reservoir fluid phase behavior and physical properties, Properties of the dry gas, The wet properties of gases, Black petroleum properties Reservoir fluid analysis; gas-liquid equilibrium.Objectives of the Course:Petroleum and natural gas to provide information about the formation and chemistry, Basic hydrocarbons and hydrocarbon reservoir fluid phase behavior and to inform students, Used for modeling gas-liquid equilibrium models to explain the real and the ideal, Five different reservoir fluids to explain to students To determine hydrocarbon fluid properties show experimental and correlational methods.Recommended Resources:William D. McCain Jr., 1990. The Properties of Petroleum Fluids, 2nd Edition,? PennWell Books, 548p.Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: noneNOTE:Course Code:Course Name:02040406Subsurface GeologyDegree:Bachelor's degreeYear/Term:2./SpringEducation Type:Theoretical CoursesEducation Language:TurkishType:Technical electiveNational Credit:3ECTS Credit:4Lecturers:Content Of Course:Use of the subsurface geology and the principles interests.The program implemented in the underground geology studies.Drilling studies, laboratory studies, correlation studies, preparation of maps and cross sections underground.Objectives of the Course:Groundwater facies maps, structure contour maps, seismic sections review and well logs (SP, R: resistivity, G gamma, N: neutron) interpretation methods to teach, borehole data, seismic data and well-log data using the underground geology, rocks spread underground, faults, folds, as do structures, these structures due to salt, oil, natural gas, such as the location and geometry is to examine the economic formations.Recommended Resources:Sonel, N., 2001, Petrol ve Yer alt? Jeolojisi: A.?. Yay?nlar?Dirik, K. 2006. Yeralt? jeolojisi ders notlar?Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: noneNOTE:Course Code:Course Name:02040407Material ScienceDegree:Bachelor's degreeYear/Term:2./SpringEducation Type:Theoretical CoursesEducation Language:TurkishType:Technical electiveNational Credit:3ECTS Credit:4Lecturers:Content Of Course:Materials science and engineering, classification of materials, atomic structure, periodic table, atomic and molecular bonds and the interest of basic material properties, crystal structure and crystal geometry, solidification, gas, liquid, solid amorphous and polycrystalline structures and the effects of material properties, metallographic examination for (microstructure) sample preparation and imaging, Diffusion in solids and industrial applications, mechanical properties and tests; Diffusion in solids and industrial applications, mechanical properties and testing, the general relationship between material properties and manufacturing processes, plastic, ceramic and composite materials structure and properties of Strength mechanisms, the grain reduction, cold forming, solid solution, and the second phases, to gain strength, equilibrium diagrams, basic electrical and magnetic properties of materials, optical and thermal properties of materialsObjectives of the Course:Examination of issues related to materials science and basic information on a variety of applicationsRecommended Resources:Egemen, Avcu, Introduction to Materials Science Lecture Notes ?zgül Kele? Lecture NotesEvaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: noneNOTE:V. SEMESTERCourse Code:Course Name:02040501Reservoir Engineering - IDegree:Bachelor's degreeYear/Term:3./FallEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:3ECTS Credit:4Lecturers:Content Of Course:Pushing mechanisms of hydrocarbon reservoirs, classification and determination of the amount of the reserve, widely used material balance equations are derived for different pushing mechanisms and implementation in reservoir engineering, Volumetric water balance equation to be used in a variety of pushing mechanisms disclosure The uncertainty of reserve estimates on the digitization.Objectives of the Course:Analytical thinking and reasoning to solve problems with improve their ability to reservoir engineering through Integrated Physics, mathematics, and engineering sciences the application of geo-sciences, In the presence of uncertainty and lack of knowledge and economic assessments, the main reservoir management decisions to improve the students' ability.Recommended Resources:Craft B.C., Hawkins, M.F., (1959) Applied Petroleum Reservoir Engineering, Prentice Hall Inc., New Jersey.Amyx, J. W., Bass, Jr. D. M and Whiting, R. L., 1960, Petroleum Reservoir Engineering-Physical Properties, McGraw-Hill.Slider, H. C., 1976, Practical Petroleum Reservoir Engineering Methods, PennWell, ISBN:0878140611.Calhoun, Jr J. C., 1976, Fundamentals of Reservoir Engineering, University of Oklahoma Press, ISBN:0806113898.Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: Rock Properties(02040404) andFluid Properties (02040405) courses have passed with CC NOTE:Course Code:Course Name:02040502Drilling Engineering - IDegree:Bachelor's degreeYear/Term:3./FallEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:3ECTS Credit:5Lecturers:Content Of Course:Identification of drilling engineering equipment and tools and functions to given The drilling of a well that is used for the solution of problems encountered in drilling engineering basic principles, concepts and models to teach, Important concepts from fundamental scientific principles to develop and explain with examples, Drilling action and operation procedures to the main system, Drilling fluid, pump operation and make recommendations on issues such as choice of drill for drilling cost equations are derived and analyzed.Objectives of the Course:Rotary drilling equipment and operational procedures, drilling cost analysis, the functions of drilling fluids, cement and cement placement techniques, cement job design, selection of drilling fluid and drilling bits assess students,Factors influencing wear and drilling speed drill, drilling optimization, casing and casing strings, directional drilling and directional control, is to introduce the environmental effects of drilling.Recommended Resources:Bourgoyne, A.T. et al, 1991, Applied Drilling Engineering, SPE Textbook Series, Vol.2, SPE.Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: Introduction to Fluid Mechanics (02040304) and Strength (02040402) courses have passed with CCNOTE:Course Code:Course Name:02040503Production Engineering - IDegree:Bachelor's degreeYear/Term:3./FallEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:3ECTS Credit:4Lecturers:Content Of Course:Production of the basic principles of engineering and the basic components of the production system, Artificial lift methods, Reservoir flow performance: fluid flow in porous media, and usage efficiency index, Vogel's method and flow efficiency, Fetkovitch method and the estimated future reservoir performance, The basic principles of flow in the pipes, multiphase flow in pipes and pressure drop that occurs during multiphase flow calculation methods, Wellhead and choke performance prediction methods. Well tubing design optimized for different geometries. Production rate decline curve.Objectives of the Course:Basic information give about production engineering, production systems and artificial lift systems,To inform students about fluid flow in porous media,Vogel and Fetkovitch with methods current and future prediction of reservoir flow performance, Single and multi-phase flow in pipes for students to comprehend in detail, Wellhead, choke and tubing performance for different geometries to introduce the concepts and tubing design, production decline curve is to give an overview of theRecommended Resources:Beggs, H.D., 2008, Production Optimization Using Nodal Analysis 2nd Edition, OGCI Publications, ISBN:0930972147.Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: noneNOTE:Course Code:Course Name:02040504Petroleum and Natural Gas GeologyDegree:Bachelor's degreeYear/Term:3./FallEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:3ECTS Credit:5Lecturers:Content Of Course:Entrance,Petroleum spill,Petroleum and natural gas facilities,Petroleum in the underground geology maps,The origin of oil,The formation of oil,Petroleum geology and ?rtükaya? the main chamber,Migration of oil and gas,Petroleum traps, oil exploration methods, petroleum and natural gas deposits in Turkey,Natural gas formations in Turkey and in the world, since the use of reserves in the past,The presence of underground, underground behavior,Natural gas compression, and storage of reserve estimates,Gas-well deliverability tests. Natural gas properties; Migration of natural gas, petroleum and natural gas deposits in Turkey.Objectives of the Course:Petroleum and natural gas in source rocks, reservoir rocks economic migration and changes in medicine accumulate in the trap of creating reserves in the fields of geological concepts necessary to teach students.In Petroleum and natural gas exploration and geological methods and techniques required to teach in the operation.Recommended Resources:Sonel, N., 1985, Petrol Jeolojisi: A.?. Yay?nlar?, No:141, 243 s.K?ksoy, M., 1985, Yak?tlar Jeolojisi: H.?. Yay?nlar?, 208 s.G?ksu, E., 1983, Petrol Jeolojisi: ?.T.?. Yay?nlar?, 183 s.Tissot, B. P, Welte, D. H. 1984; Petroleum Formation and Occurrence, Springer Verlag, 699 p., New York.Hunt, J.M. 1996; Petroleum Geochemistry and Geology, W.H. Freeman&Company, 743 p., New York.Katz, D.L., and Lee, R.L., 1990, Natural Gas Engineering: Production and Storage, McGraw-Hill Pub. Co.Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: noneNOTE:Course Code:Course Name:02040505Statistical Methods for EngineeringDegree:Bachelor's degreeYear/Term:3./FallEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:3ECTS Credit:4Lecturers:Content Of Course:Basic statistical concepts for engineers, Normal distribution, Hypothesis testing, Sampling methods, Statistical analysis of business performance data, The use of statistical program, Experimental design in product and process designObjectives of the Course:The purpose of this course, the solution of engineering problems in statistical methods for the analysis of the data collected to examine and illustrate the application of this method are computerizedRecommended Resources:Montomery, D. C., 2003, Applied Statistics And Probability For Engineers, John Wiley&Sons Inc.Walpole, R. E., Myers, R. H., Myers, S. L. & Yee, K., 2002, Probability and Statistics for Engineers and Scientists (7th edition), Prentice-Hall Inc.Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: NoneNOTE:Course Code:Course Name:02040506Offshore Drilling TechniqueDegree:Bachelor's degreeYear/Term:3./FallEducation Type:Theoretical CoursesEducation Language:TurkishType:Technical electiveNational Credit:3ECTS Credit:5Lecturers:Content Of Course:Differences between land and sea operations to reveal. The main difference between land and offshore drilling.Risks related to reveal the Occupational Safety and marine operations Connected or dynamically positioned offshore drilling machines. Boat Operations. Jack-up (fixed-legged platform), submersibles (semi-submerged) offshore drilling units, the drillship (ship) drilling units. Offshore well testing equipment and production techniques. Offshore Issues to be considered when selecting drilling locations.Should be kept in offshore drilling equipment, materials, and spare parts.Objectives of the Course:To show the main difference between sea and land drilling to show, To introduce the equipment used, To teach types of offshore drilling and safety measures necessary.Recommended Resources:Robert F. Mitchell ed., 2007, Petroleum Engineering Handbook, Volume II: Drilling Engineering, SPE, ISBN: 978-1-55563-114-7,Bourgoyne, Millheim, Chenevert, Young, “Applied Drilling Engineering”, SPE Textbook series, Vol-2.Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: NoneNOTE:Course Code:Course Name:02040507Petroleum Geophysics and SeismicityDegree:Bachelor's degreeYear/Term:3./FallEducation Type:Theoretical CoursesEducation Language:TurkishType:Technical electiveNational Credit:3ECTS Credit:5Lecturers:Content Of Course:Identification of the formation of petroleum, identification the process followed in petroleum exploration, Geophysical methods used in petroleum exploration identification and interpretation of samples geophysical studies carried out,Idenfication of seismic method,Varieties and spreads of seismic waves, field studies, energy sources, the data collection methods, geophone, data processing and interpretation techniques,The seismic reflection technique, Idenfication Seismic Velocity, Seismic Modeling and migration, Idenfication of magnetic method,magnetic method application in petroleum exploration,Idenfication of gravity method, gravity method application in petroleum explorationObjectives of the Course:To give information to students with geophysical methods in petroleum exploration petroleum exploration and purposes;Exploration and investigation steps; geophysical methods applied and examples; 2 and 3 dimensional seismic studies ;Recommended Resources:1.Ziolkowski, A., 1984, Deconvolution: International Human Resources Development Corporation, 175 p.2.Robinson, E. A., 1978, Multichannel Time Series Analysis with Digital Computer Programs: Holden-Day, 298 p.3.Al-Sadi, H. N., 1982, Seismic Exploration: Birkhauser Verlag, Basel, Boston, Stuttgart, 215 p.4.Sengbush, R. L., 1983, Seismic Exploration Methods: International Human Resources Development Corporation, Boston, 296 p.5.Evans B. J., 1997, A Handbook for Seismic Data Acquisition: Geophysical Monograph Series, Society of Exploration Geophysicists, 305 p.6.Sonel, N, 2000; Petrol Aramalar?nda Jeofiziksel Y?ntemler Ders Notu, A.?.M.F., Ankara. ?oruh, C., 1984; 7.Yans?mal? Sismikte Temel Kavramlar, TPAO Yay?nlar?. 8.Y?lmaz, ?., 1987, Seismic Data Processing: Society of Exploration Geophysicists, 526 p. 9.Kurtulu?,C.,2010. Sismik Ara?t?rmalar. Kocaeli ?niversitesi Mühendislik Fakültesi, Jeofizik Mühendisli?i 10.Silvia, M. T., Robinson, A. E., 1979, Deconvolution of Geophysical Time Series in the Exploration for Oil and Natural Gas, 251 p.1 11.Trilobet, J. M., 1979, Seismic Applications of Homomorphic Signal Processing: Prentice-Hall, Inc., 195 p. 12.Kanasewich, E. R., 1981, Time Sequence Analysis in Geophysics: The Univetsity of Alberta Press, 480 p. 13.Mesko, A., 1984, Digital Filtering Applications in Geophysical Exploration for Oil: John Wiley and Sons, 636 p. 14.Claerbout, J. F., 1985, Fundamentals of Geophysical Data Processing: Blackwell Scientific Publications, 274 p. 15.Dix C. H., 1981, Seismic Prospecting for Oil: International Human Resources Development Corporation, Boston, 422 p.Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: NoneNOTE:VI. SEMESTERCourse Code:Course Name:02040601Reservoir Engineering - IIDegree:Bachelor's degreeYear/Term:3./SpringEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:3ECTS Credit:5Lecturers:Content Of Course:In the calculations, error analysis. Identification of reservoir parameters. Reservoir pressure, porosity, permeability average techniques. Fluid flow in the reservoir: Unstable flow, quasi-steady flow and steady flow principles. Approximate solutions to fluid flow problems. Oil wells for pressure performance. Diffusivity equation and solution to the problems of the two-well applications. Extinct injection flow rate and liquid-filled reservoirs. Selected exercises and problemsObjectives of the Course:To give related to reservoir engineering concepts, equations, instruments and analysis methods,Numerical reasoning abilities to the increasing problems in reservoir engineering,Mathematics, physics, earth sciences, and engineering sciences that contains information on how to use the capabilities of the increasing in reservoir engineering problemsIn reservoir engineering to prepare students for more advanced courses.Recommended Resources:Bradley, H.B., 1987. Petroleum Engineering Handbook, Society of Petroleum Engineers, Richardson, TXCraft, B.C., Hawkins, M.: Applied Petroleum Reservoir Enginering, Prentice Hall, New Jersey, 1991.Dake, L.P.: The Practice of Reservoir Engineering, Elsevier, 1994.Hagoort, J.: Fundamentals of Gas Reservoir Engineering, Elsevier, Amsterdam, 1988.Kumar, S.: Gas Production Engineering, Gulf Publishing Company, Houston, 1987.Satman A.: Advanced Reservoir Engineering-Course Notes, ?.T.?., 1999.Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: Reservoir Engineering - 1 (02040501) course has passed with CCNOTE:Course Code:Course Name:02040602Drilling Engineering - 2Degree:Bachelor's degreeYear/Term:3./SpringEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:3ECTS Credit:5Lecturers:Content Of Course:Entrance, drilling methods, formation of identification, protection pipes, the recovery in drilling, drilling tools and supplies, drilling fluids, in drilling wells deviation, equipment for drilling wells, developing drilling wells, drilling applications, injection methods,formation tests and applications. Drilling optimization; rules and assumptions, and the optimum drilling program. Drilling fluids; tasks, choices, types, planning, and field-tested features. Diagnostic tests; identifying potential problems and their causes. Pilot tests; Alternative mud treatment. Clay chemistry; drilling clays, water binding mechanism, physical characteristics, the effect of salt and pH. Water-based muds; dispersive lower solids muds, sludges dispersive, formulation, maintenance, chemical additives, chemical removal of pollutants, filtration-concentration-stage control. Inhibitive water based muds; slurries of calcium lignosulfonate mud, salt, mud, formulation, maintenance and improvement. Oil-based muds; formulation, additives, maintenance and improvement. Cement design.Objectives of the Course:To introduce underground drilling fluid in the well and the hydraulic forces To introduce protection tube design, which is used in the design of casing strings specific conditions and procedures, To tell coiled tubing and underbalanced drilling as well as new emerging technologies and applications.Recommended Resources:New Technique Evaluates Drilling Mud Lupricants, Worl Oil, Alford, S.E., 1976Sondaj Tekni?i, G?ktekin, A., 1983.Sondaj Bilgisi Ders Notlar?, Güzel, A., 1996, 1. Bask?.Su Kuyular?n?n A??lmas? ve ??letilmesi, Sorunlar ve ??zümleri, Akp?nar, K., 1999.Bourgoyne, A.T. et al, 1986, Applied Drilling Engineering, SPE Textbook Series, Vol.2, SPE, ISBN:1555630014.James L. Lummus and J.J. Azar, 1986, Drilling Fluids Optimization: A Practical Field Approach, Penn Well Books, ISBN:0878143068.Altun, G., 2002, Drilling Fluids Lab, Course Notes, ITU Petroleum and Natural Gas Engineering.Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: Drilling Engineering - 1 (02040502) course has passed with CCNOTE:Course Code:Course Name:02040603Production Engineering - 2Degree:Bachelor's degreeYear/Term:3./SpringEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:3ECTS Credit:5Lecturers:Content Of Course:Fundamentals of artificial lift methods.Sucker-rod pump equipment and designs, dinanometr analysis card.Gas lift and designs,Hydraulic pump equipment and designs; electric submersible pump equipment and designs. Petroleum and natural gas surface equipment and designs.Objectives of the Course:To promote underground and aboveground equipment for petroleum and natural gas production and design of production systems to gain the ability to perform.Recommended Resources:Craft, B.C., Holden, W.R., Graves, E.D., 1962, Well Design, Prentice-Hall Inc.Brown, K., 1967, Gas Lift Theory and Practice, Prentice-Hall.Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: Production Engineering - 1 (02040503) course has passed with CCNOTE:Course Code:Course Name:02040604Directional Drilling TechniqueDegree:Bachelor's degreeYear/Term:3./SpringEducation Type:Theoretical CoursesEducation Language:TurkishType:Technical electiveNational Credit:3ECTS Credit:5Lecturers:Content Of Course:Directional drilling applications and limitations. Terminology, well targeted and well path planning objectives: Calculations and data collection. MWD (Measurements While Drilling). Groundwater well drilling equipment: drilling tools and methods of diversion. Drilling motors, drill bits, and BHAs (Bottom Hole Assembly). Well head operations. Directional drilling, reservoir during design considerations. Drilling and surface location requirements. Torque and drag (torque and drag) models. Types of horizontal wells and planning. Login gain, core and completion techniques. Well-stability (wellbore stability) issues and well cleaning requirements.Objectives of the Course:To teach directional drilling equipment applications, the planning, the necessary calculations, equipment and the problems encountered.Recommended Resources:J. A. Short., 1993. Introduction to Directional and Horizontal Drilling, PennWell Books, Tulsa, OKBourgoyne, A.T. et al, 1986, Applied Drilling Engineering, SPE Textbook Series, Vol.2,SPE, ISBN:1555630014.Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: NoneNOTE:Course Code:Course Name:02040605Unconventional Petroleum GeologyDegree:Bachelor's degreeYear/Term:3./SpringEducation Type:Theoretical CoursesEducation Language:TurkishType:Technical electiveNational Credit:3ECTS Credit:5Lecturers:Content Of Course:Unconventional petroleum definition, origin, composition and storage conditions. Geology, mineralogy and geochemistry. Examples of Turkey and the world. Acquisition methods, retorting technologies and developments in the world. Environmental impacts of unconventional oil technology.Objectives of the Course:- Geology of conventional oil systems-Battery shales- Tarred sand- CBM- Describe Unconventinal petroleum technologies and their applicationsRecommended Resources:Unconventional Petroleum Geology, Caineng Zou, 2013, Yen, T.F. and Chilingarian, G.V., 1976. Oil Shale, Elsevier SPC, 305p.Yen, T.F., 1976. Science and Technology of Oil Shale, Ann Arbor, Mich., Ann Arbor Science Publishers, Inc.,?232p.Lee, S., 1991. Oil Shale Technology. CRC Press, 261 p.Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: NoneNOTE:Course Code:Course Name:02040606Vocational Foreign LanguageDegree:Bachelor's degreeYear/Term:3./SpringEducation Type:Theoretical CoursesEducation Language:TurkishType:Technical electiveNational Credit:3ECTS Credit:5Lecturers:Content Of Course:General grammar rules, -Translated from English to Turkish professional techniques, -English language training, translation and writing techniques to be considered in the -Article writing rules and practices.Objectives of the Course:Petroleum and Natural Gas in various fields of engineering students in the English language to describe the course, students learn the provision of technical terms in English, English listening and the ability to gain self-expression. Professional issues that may enter into correspondence terminology and grammar of English dialogue and the creation of infrastructure. The ability to obtain information by reading professional literature development. Students of the importance of their profession adopting a global, international communication comprehend the importance of awareness in professional lifeRecommended Resources:Petroleum I, V. Evans, J. Dooley, S. Alireza HaghighatLecturers notesEvaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: NoneNOTE:Course Code:Course Name:02040607Petroleum Engineering ResearchDegree:Bachelor's degreeYear/Term:3./SpringEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:3ECTS Credit:5Lecturers:Content Of Course:A research activity of one semester duration on selected topics in petroleum and natural gas engineering. Each student, as a member of project group is assigned a project topic which involves experimental and/or mathematical modeling (analytical or numerical) studies.Objectives of the Course:At the end of this course, the student will:-learn to conduct experimental and/or numerical studies in groups-focus on different areas of petroleum engineering-enhance problem solving skill-develop understanding of importance of team work-emphasize the importance of life-long learningRecommended Resources:Textbooks recommended by project advisors for different specific topics of research.sExperimental set-up and equipments for different specific topics of experimental research.:Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: noneNOTE:VII. SEMESTERCourse Code:Course Name:02040701Natural Gas EngineeringDegree:Bachelor's degreeYear/Term:4./FallEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:3ECTS Credit:4Lecturers:Content Of Course:Natural gas formations in Turkey and in the world, since the use of reserves in the past. Phase behavior of gases, physical and thermodynamic properties. The water content of the natural gas heating value and hydrates. Of gas flow in pipes and wells and measurements. Compressed natural gas, reserve estimates and storage. Gas-well deliverability tests.Objectives of the Course:To teach the main component of natural gas properties and the behavior, To gain estimates of gas reserves, production, storage, natural gas transportation and engineering calculations the necessary conceptual and mathematical backgroundRecommended Resources:Lee, J., and Wattenberger, R.A., 1996, Gas Reservoir Engineering, SPE Textbook Vol. 5, SPE, ISBN:1555630731.Katz, D.L., and Lee, R.L., 1990, Natural Gas Engineering : Production and Storage, McGraw-Hill Pub.Co., ISBN:0070333521.Advanced Reservoir Management and Engineering Tarek Ahmed, Nathan Meehan Gulf Professional Publishing 2011 978-0123855480Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: NoneNOTE:Course Code:Course Name:02040702Well Logging and Formation EvaluationDegree:Bachelor's degreeYear/Term:4./FallEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:3ECTS Credit:5Lecturers:Content Of Course:Basic concepts. Resistivity logs; SP log normal and lateral logs, laterolog, induction logs, mikrorezistivit logs. Other logs; Gamma-ray log, density log, neutron log and sonic log. Investigation of the near wellbore. Electrical, radioactive and acoustic properties of underground rocks, Assessment of the quality and quantity of electrical and other logs. Determination of porosity and lithology. Combined log graph analysis techniques. Gas-containing formation evaluation.Objectives of the Course:Drilling, production and reservoir engineering to obtain the necessary data will be analyzed to inform people about how well logs.Recommended Resources:Well loggin and formation evaluation, Toby Darling, Gulf Professional PublishingFundamentals of well-log interpretation, O.Serra, Elsevier Science PublisherYal??n Pekiner,? Kuyu Loglar? Tekni?iyle Yeralt?n?n Ke?fi,Se?kin Yay?nc?l?kBassiouni, Z., 1994, Theory, Measurement and Interpretation of Well Logs, SPE, ISBN:1555630561.Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: Rock Properties (02040404) and Fluid Properties (02040405) courses have passed with CCNOTE:Course Code:Course Name:02040703Well CompletionDegree:Bachelor's degreeYear/Term:4./FallEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:3ECTS Credit:4Lecturers:Content Of Course:Well completion methods. Formation pollution. Hydraulic fracturing operations are planned. Hydraulic fracturing fluids and filling materials. Fracturing pressure analysis. The productivity of hydraulically fractured wells. Design pickling operation; acid-rock reaction, acid etching method. Sprains, protection pipe fitting and sprains, production of a series of pipe buckling. Perforation and squeeze cementing. Sand control.Objectives of the Course:After drilling the well to be produced or repaired as optimized processes, equipment and procedures designed to promote, managing to acquire such capabilities.Recommended Resources:Craft, B.C., Holden, W.R., Graves, E.D., 1962, Well Design, Prentice-Hall Inc..Bassiouni, Z., 1994, Theory, Measurement and Interpretation of Well Logs, SPE, ISBN:1555630561.Well Completion and Servicing D. Perrin, M. Caron, G. Gaillot Editions Technip Paris 1999 ISBN: 271080765-3Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: NoneNOTE:Course Code:Course Name:02040704Geothermal EngineeringDegree:Bachelor's degreeYear/Term:4./FallEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:3ECTS Credit:5Lecturers:Content Of Course:Geothermal energy is produced and the types of geothermal systems. Environmental impacts of geothermal energy. Mineral deposition in geothermal waters. Direct and indirect use of geothermal energy. Electricity from geothermal energy production cycles. Central heating systems with geothermal energy. Industrial use of geothermal energy. Corrosion in geothermal loop. Marketing and economics of geothermal energy.Objectives of the Course:Our country can be considered a potentially important future energy and geothermal energy production, which will play an important role in business promotion and teaching techniques, teach the use of these technologies in power engineering.Recommended Resources:Serpen, U., 2000, Jeotermal Enerji, Petrol Mühendisleri Odas?.Serpen, U., 2009, Jeotermal Enerji Ders Notlar?, ITU Petroleum and Natural Gas Engineering Department.Gupta, H., Roy, S., “Geothermal Energy: An Alternative Resource for 21st Century” Elsevier, 280 p. (2007) Huenges E. “Geothermal Energy Systems, Exploration, Development and Utilization”, Wiley-VCH, 464 p (2010)Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: NoneNOTE:Course Code:Course Name:02040706Drilling Fluids EngineeringDegree:Bachelor's degreeYear/Term:4./FallEducation Type:Theoretical CoursesEducation Language:TurkishType:Technical electiveNational Credit:3ECTS Credit:4Lecturers:Content Of Course:Preparation of drilling fluids. Drilling fluid during the drilling of factors. Clay slurry to obtain the desired properties and use of the polymer. Applying drilling fluid to the treatment of water chemistry. API and non-water based mud water based mud tests. Evaluation of the drilling fluid in the record information. Drilling fluid causes contamination of detection and determination of therapeutic applications. Drilling requirements and environmental concerns will be preferred against the non-water based drilling fluid systems are selected. Non-water based drilling fluid system applications.Objectives of the Course:To inform about the basic functions of drilling fluids, To inform the main task of drilling fluid that is necessary for the fulfillment of the features to determine whether the appropriate test methods used, To inform different wells to provide features that are required in the conditions attached to the drilling fluid additives, To inform the main factors in the selection of drilling fluid.Recommended Resources:Robert F. Mitchell ed., 2007, Petroleum Engineering Handbook, Volume II: Drilling Engineering, SPE, ISBN: 978-1-55563-114-7Bourgoyne, A.T. et al, 1986, Applied Drilling Engineering, SPE Textbook Series, Vol.2,SPE, ISBN:1555630014Ryen Caenn, HCH Darley, George R. Gray, 2011, Composition and Properties of Drilling and Completion Fluids, Gulf Professional Publishing; 6 edition, ISBN: 978-0123838582Petroleum Engineering Handbook, Volume II: Drilling Engineering Edited by: Robert F. Mitchell Society of Petroleum Engineers 2007 ISBN:978-1-55563-114-7Altun, G., 2002, Drilling Fluids Lab, Course Notes, ITU Petroleum and Natural Gas Engineering.James L. Lummus and J.J. Azar, 1986, Drilling Fluids Optimization: A Practical Field Approach, Penn Well Books, ISBN:0878143068.Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: NoneNOTE:Course Code:Course Name:02040707Simulation of GeosystemsDegree:Bachelor's degreeYear/Term:4./FallEducation Type:Theoretical CoursesEducation Language:TurkishType:Technical electiveNational Credit:3ECTS Credit:4Lecturers:Content Of Course:Define input and simulation, modeling concepts. The selection of the reservoir rock and fluid properties. Compilation of data for reservoir simulation. Reservoir flow equations. Finite difference method for solving equations and flow. The selection of block sizes and the time interval, wells to be placed in the cell, regression and history matching problem. Production performance estimates. Sample applications. Using the analogy of the solution reservoir engineering problems.Objectives of the Course:Give basic information about simulation and modeling,To teach basic petrol and natural gas engineering analysis tools such simulation modeling and analysis techniques.Recommended Resources:M. Onur, 2004, PET428E Simulation of Geosystems Course Notes, ITU Petroleum and Natural Gas Engineering.Mattax, C.C, and Dalton, R.L., 1990, Reservoir Simulation, SPE, ISBN:1555630286.Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: NoneNOTE:Course Code:Course Name:02040708Well ImprovementDegree:Bachelor's degreeYear/Term:4./FallEducation Type:Theoretical CoursesEducation Language:TurkishType:Technical electiveNational Credit:3ECTS Credit:4Lecturers:Content Of Course:Acidification: Carbonate and sandstone pickling. Diverting additives: History and application. Cracking: Hydraulic cracking principles, cracking process planning (data collection), fluid design, perforation design, fault design, cracking design. Re-fracturing. Crack pickling.Objectives of the Course:To inform about well improvement methods.Recommended Resources:1.Bourgoyne, A.T. et al, 1986, Applied Drilling Engineering, SPE Textbook Series, Vol.2,SPE, ISBN:15556300142. Ryen Caenn, HCH Darley, George R. Gray, 2011, Composition and Properties of Drilling and Completion Fluids, Gulf Professional Publishing; 6 edition, ISBN: 978-0123838582 3. Robert F. Mitchell ed., 2007, Petroleum Engineering Handbook, Volume II: Drilling Engineering, SPE, ISBN: 978-1-55563-114-7Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: NoneNOTE:Course Code:Course Name:02040709Reservoir GeomechanicsDegree:Bachelor's degreeYear/Term:4./FallEducation Type:Theoretical CoursesEducation Language:TurkishType:Technical electiveNational Credit:3ECTS Credit:4Lecturers:Content Of Course:Analyzing stress-strain, formation pressure, analyzing and calculation of the strain at the field, characterization of fracture rock, fault stability analysis, compaction and subsidence, geomechanics of fractured reservoir, hydraulic fracture, rock fluid interactionObjectives of the Course:Description of earth crust environment, and understanding their mechanical behaviour.Recommended Resources:1. 2. Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: NoneNOTE:Course Code:Course Name:02040710Environmental Control in Petroleum Engineering ApplicationsDegree:Bachelor's degreeYear/Term:4./FallEducation Type:Theoretical CoursesEducation Language:TurkishType:Technical electiveNational Credit:3ECTS Credit:4Lecturers:Content Of Course:Petroleum engineering environmental control policies. The impact of drilling and production activities. environmental transport of oil waste. planning for environmental protection. No waste disposal methods. rehabilitation of contaminated sites.Objectives of the Course:The aim of course, petroleum drilling, production and detection is the environmental problems that may occur during transport and elimination of the subjects examined.Recommended Resources:??nar, ?. ?evre kirlili?i ve kontrolü, 2013. Nobel Akademik Yay?nc?l?k. Ankara, 2013. Reis, J,C. Environmental Control in Petroleum Engineering, 1996. Gulf Publishing Company. Houston, Texas.Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: NoneNOTE:Course Code:Course Name:02040711Energy EngineeringDegree:Bachelor's degreeYear/Term:4./FallEducation Type:Theoretical CoursesEducation Language:TurkishType:Technical electiveNational Credit:3ECTS Credit:4Lecturers:Content Of Course:Energy Sources, Foss?l Fuels, Renewable Energy Sources, W?nd Energy, Solar Energy, Geothermal Energy, Wave, Tidal Power, Biomass And Technology, Hydraul?c Energy, Nuclear Energy, Energy Eff?c?ency, Energy Eff?c?ency In Bu?ld?ngs Energy Eff?c?ency In IndustryObjectives of the Course:To have sufficient knowledge and experience in energy engineering and its fields; Knowing knowledge and experience, using modern techniques and engineering tools to evaluate energy related problems; To use effectively in the fields of energy processes, energy production, medicine, industry and environment-related applications for the benefit of society; Gain the consciousness of professional and ethical responsibilitiesRecommended Resources:Introduction to energy engineering, ESM-103, Ankara-2014Energy Eff?c?ency CoursesEvaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: NoneNOTE:Course Code:Course Name:02040712Petroleum Technical PresentationsDegree:Bachelor's degreeYear/Term:4./FallEducation Type:Theoretical CoursesEducation Language:TurkishType:Technical electiveNational Credit:3ECTS Credit:4Lecturers:Content Of Course:Preparation of a written technical paper proposal on a subject related to petroleum technology and an oral presentation of the proposal in a formal technical conference format; oral presentations are judged by petroleum industry professionals at the departmental student paper contest held during the same academic year.Objectives of the Course:Evaluating outstanding presentation techniques Systematically transferring the current developments in the area or one’s own work to other groups in and out of the area; in written, oral and visual forms.Recommended Resources:1.Robert M. Woelfle, "A New Guide For Better Technical Presentation", U.S., IEEE Publications, 1992.2.Trochim, W.M.K., Research Methods Knowledge Base. Cornell University, 2001.3.Chivers, Barbara Shoolbred, Michael, Student's guide to presentations, Sage Publications, Incorporated, 2007.4. Solomon, M., O’Rourke, J., Canavor, N. and Meirowitz, C., The Truth About Perfecting Your Presentation Skills. FTPress Delivers, Upper Saddle River, NJ.,2011. 5.Andrwe Bradbury, ?eviri: H.El?i, "Ba?ar?l? Sunum Teknikleri", Kaizen Yay?nc?l?k, Ekim 2006. Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: NoneNOTE:Course Code:Course Name:02040713Petroleum LegislationDegree:Bachelor's degreeYear/Term:4./FallEducation Type:Theoretical CoursesEducation Language:TurkishType:Technical electiveNational Credit:3ECTS Credit:4Lecturers:Content Of Course:Historical development of petroleum legislation. General principles in petroleum law. Rules and regulations in the Middle Eastern countries.Objectives of the Course:To give students information about rules and regulations of petroleum law at different petroleum producing countries.Recommended Resources: Methods: Midterm exam: 40%; Final: 60%Prerequisite: NoneNOTE:VIII. SEMESTERCourse Code:Course Name:02040801Petroleum and Natural Gas Engineering DesignDegree:Bachelor's degreeYear/Term:4./SpringEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:4ECTS Credit:8Lecturers:Content Of Course:Petroleum and Natural Gas Engineering Department students use the knowledge gained in undergraduate education, for gaining a comprehensive design experience, from the selection of a suitable project until the completion of an application that includes all stages. In this course, an oil / natural gas or geothermal system or a process on these issues in the design of open-ended projects are dealt with, personally or with the help of a team of students to try to solve the problem.Objectives of the Course:To give students with an oil / gas / geothermal engineering problems in the context of experience in all stages of design to have the opportunity To develop creativity of students To instill group work with the team awareness, Contribute to the professional and ethical development, To gain students experience in making oral and written presentations.Recommended Resources:Bardley, H.B., 1987, Petroleum Engineering Handbook, 3rd edition, SPE, ISBN:1555630103.Leffel, Jr., C.S. and Eisenberg, R., 1977, Geothermal Handbook, The John Hopkins University Publications.Ryen Caenn, HCH Darley, George R. Gray, 2011, Composition and Properties of Drilling and Completion Fluids, Gulf Professional Publishing; 6 edition, ISBN: 978-0123838582Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: Resevoir Engineering-1 (02040501), Production Engineering-1 (02040503), Drilling Engineering-2 (02040602) and Well Logging and Formation Evaluation (02040702 at least three of the courses to be passed (CC)NOTE:Course Code:Course Name:02040802Worker Health and SafetyDegree:Bachelor's degreeYear/Term:4./SpringEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:2ECTS Credit:3Lecturers:Content Of Course:The historical development of the Occupational Health and Safety, Work accidents and occupational diseases and the costs, the concept of job security, job security importance of the work in terms of labor productivity, the the basic elements of job security, sources of danger, the concept of occupational health. OHS management, establishment of OHS policies, planning studies in the field of OHS, work-related accidents and incidents investigation, measuring again, accident analysis, field inspections. ensure continuous improvement in occupational health, to reduce the loss of labor, show that the provision of management commitment, provide motivation, an overview of occupational health, risk management planning, AS OHS management program. Training and qualification, preparedness and emergency response, performance measurement, monitoring and measurement.Objectives of the Course:To teach students the importance of occupational health and safety show how to make improvements in these areas, To minimize work-related accidents in the oil industry provide learning approach. Prevention of occupational accidents and occupational diseases in the workplace be given importance, on worker safety and health at work to gain the ability to follow legal regulations.Recommended Resources:???i Sa?l??? ve Güvenli?i, Necdet Akyüz OHSAS 18000Statutes and regulations on the issue.Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: NoneNOTE:Course Code:Course Name:02040803Petroleum and Natural Gas EconomicsDegree:Bachelor's degreeYear/Term:4./SpringEducation Type:Theoretical CoursesEducation Language:TurkishType:CompulsoryNational Credit:3ECTS Credit:5Lecturers:Content Of Course:An overview of petroleum and natural gas economy.Basic concepts.Profitability measures, repayment plan, RR analysis, the NPV analysis.Definition of risks and uncertainties.Decision analysis, decision tree analysis, estimate the expected monetary value.Petroleum and natural gas exploration risk analysis methods; binomial, multinomial and hypergeometric methods.In developed regions, the evaluation of the expected discovery.Appreciation uncertainty of the value of risky investments.Objectives of the Course:To evaluate petroleum and natural Gas Engineers projects to be made. To ensure risk assessment to be made that the level of risk for petrol and natural gas investments Also give the opportunity to decision analysis.Recommended Resources:Newendorp, P.D. and Schuyler, J.R., 2000, Decision Analysis for Petroleum Exploration, Pennwell Pub. Co., ISBN:0966440110.McCray, A.W., 1975, Petroleum Evaluations and Economic Decisions, Prentice-Hall Inc., ISBN:0136622135.Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: NoneNOTE:Course Code:Course Name:02040804Emerging Technologies in Drilling EngineeringDegree:Bachelor's degreeYear/Term:4./SpringEducation Type:Theoretical CoursesEducation Language:TurkishType:Technical electiveNational Credit:3ECTS Credit:5Lecturers:Content Of Course:Managed Pressure Drilling. Underbalanced Drilling. The advanced technology used in drilling equipment carried. Real Time Drilling Centres. Torque and drag calculations. The pressure in the formation of high temperature and high drilling of the wells. Made?? the drilling as casing using.Objectives of the Course:To give students in the latest technologies developed for drilling engineering, teaching techniques can work as a drilling engineer in the international market level. Recommended Resources:J. J. Azar, G. R. Samuel, 2007, Drilling Engineering, Pennwell Corp, ISBN: 978-1593700720Bernt S. Aadnoy, 1997, Modern Well Design, Gulf Publishing Company, ISBN: 978-0884154839Robert F. Mitchell ed., 2007, Petroleum Engineering Handbook, Volume II: Drilling Engineering, SPE, ISBN: 978-1-55563-114-7Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: NoneNOTE:Course Code:Course Name:02040805Pipeline Design and Risk AnalysisDegree:Bachelor's degreeYear/Term:4./SpringEducation Type:Theoretical CoursesEducation Language:TurkishType:Technical electiveNational Credit:3ECTS Credit:5Lecturers:Content Of Course:Pipeline design elements. Selection passageway. Natural gas and liquid transmission pipeline. Gas compressors, cooling and liquid pumps. Liquid and gas pipe lines, hydraulic and transient flow behavior. Pipeline mechanical design, material selection, and standards. Pipeline construction, to commissioning, maintenance and operation. Disruptive potential threats to pipeline integrity. SI Units, Temperature, Pressure and the Ideal Gas Law, Fluid Properties, Fluid Flow and Reynolds Number, Newtonian fluid, the viscosity, and Units, Non-Newtonian fluids, Laminar Flow and Momentum Balance, Turbulent Flow, Friction Factor, Energy Conservation, friction losses, flow Measurement, Fourier's Law, thermal conductivity, heat transfer and energy equation, the heat transfer mechanisms: conduction, convection, radiation, Fick's Laws of gases, liquids and solids Diffusion, Fluid Systems Mass Transfer.Objectives of the Course:To comprehend elements of pipelines, design, construction and operational principles, To provide in particular hydrocarbon fluid-conducting mechanical and hydraulic design of pipelines, testing and evaluation methods for engineering calculations and standards, To equip them with technical information pipeline design, construction, operation and integrity of the stages of environmental threats due to deformation of consciousness in order to solve problems.Recommended Resources:Y. A. Cengel, R.H. Turner, 2004, Fundamentals of Thermal-Fluid Science 2nd Ed., McGraw-Hill Companies, ISBN:0072976756,Mohitpour, M., Golshan, H., and Murray, A., 2003, Pipeline Design and Construction, ASME (American Society of Mechanical Engineers) Press, ISBN:0791802027.Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: NoneNOTE:Course Code:Course Name:02040806Well Pressure Test AnalysisDegree:Bachelor's degreeYear/Term:4./SpringEducation Type:Theoretical CoursesEducation Language:TurkishType:Technical electiveNational Credit:3ECTS Credit:5Lecturers:Content Of Course:Well Test Analysis Basics. Test types and well pressure testing methodology. Diffusivity equation and its solutions. Semi-log analysis and curve-fitting analysis. Pressure-derivative analysis. Well damage and wellbore storage effects. Overlap (superposition) principle. Reduced pressure buildup tests and analysis. Variable or multi-flow tests. The concept of the radius of the active wells. Well test analysis for fractured wells. The test to be considered in designing and design considerations.Objectives of the Course:Reservoirs in industry and well system commonly used to assess general and well test data to the basic information, Unsteady flow in porous media equations and their applications indicate that identifies, Traditional and modern well test analysis methods provide information about Fluid flow in reservoirs and wells and reservoir performance prediction problems, basic and integrated use of Earth science knowledge to skills, Students will encounter problems in reservoir engineering solutions that will help equip you with the necessary information well test design.Recommended Resources:M. Onur, 2004, 02040467E Well Test Analysis Course Notes, ITU Petroleum and Natural Gas Engineering Department.D. Bourdet, 2003, Well Test Analysis:The Use of Advanced Interpretation Model, Elsevier Science, ISBN:0444509682Eaurlougher, R. C. Jr. (1977). Advances in Well Test Analysis, (second printing), Monograph Volume 5, Society of Petroleum Engineers of AIME, Dallas, TX, USA.Kamal, M. et al. (2009). Transient Well Testing, SPE Monograph 23, SPE Richardson, TX, USAEvaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: NoneNOTE:Course Code:Course Name:02040807LPG Technology and IndustryDegree:Bachelor's degreeYear/Term:4./SpringEducation Type:Theoretical CoursesEducation Language:TurkishType:Technical electiveNational Credit:3ECTS Credit:5Lecturers:Content Of Course:Trading history of LPG (liquefied petroleum gas) and use of LPG in Turkey and in the worldLPG properties, phase behavior, production, storage and cylinder filling facilities, land and sea transport. Bottled, bulk and LPG as vehicle fuel consumption. LPG against menace and fire protection measures. Turkey's LPG sector and the market. LPG operations, and for the use of business legislation, laws and standards. LPG filling stations, storage facilities and technical trip.Objectives of the Course:To provide the basic features of LPG, production, storage, transport, use, hazards, sectors, processes, and information about laws and regulations for the useRecommended Resources:McCain, W.D.Jr., 1990, The Properties of Petroleum Fluids, 2nd edition, PennWell Publishing Co., ISBN:0878143351Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: NoneNOTE:Course Code:Course Name:02040808Well MechanicsDegree:Bachelor's degreeYear/Term:4./SpringEducation Type:Theoretical CoursesEducation Language:TurkishType:Technical electiveNational Credit:3ECTS Credit:4Lecturers:Content Of Course:Newtonian and non-Newtonian fluid flow within the pipe. Rheological models. Hydraulic program design. Bending and buckling analysis of array elements in the fluid effects. Classic sprain. Well trajektor forecast. Torque and Drag analysis.Objectives of the Course:Drilling wells, hydraulic and mechanical processing of the basic issues of principle, Fluid mechanics and basic processing of drilling fluid meanwhile, Hydraulic and mechanical drilling operations to be designed taking into account details of the teaching done.Recommended Resources:1.Lubinski A., “Developments in Petroleum Engineering”, Vol.1-2, Gulf Publishing Co., ier G.W., Aziz K., “The Flow of Complex Mixtures in Pipes”, Robert E.Krieger Publishing Co., 19723.A.T. Bourgoyne, M.E: Chenevert, K.K. Millheim, F.S. Young, Applied Drilling Engineering, SPE 1991Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: NoneNOTE:Course Code:Course Name:02040809Underground Gas StorageDegree:Bachelor's degreeYear/Term:4./SpringEducation Type:Theoretical CoursesEducation Language:TurkishType:Technical electiveNational Credit:3AKTS Kredisi:5Lecturers:Content Of Course:Current state of natural gas and underground storage facilities in Turkey and in the world. Properties and transportation of natural gas. Reasons for storage in underground. The need for the underground storage in Turkey. Degree-day method for predicting the gas consumption of the residential sector. Surface and underground storage methods. Storage in porous media, aquifers, and salt domes. Design of storage and its modeling. Management of underground storage fields in Turkey. Current research topics on underground storage.Objectives of the Course:-To present the current state of natural gas and underground storage facilities in Turkey and in the world, -To introduce the needs for storage and the prediction of the residential gas demand by using the Degree-Day method, world, -To study the properties of natural gas and the gas flow in pipelines, wellbores and porous media, -To discuss the static and dynamic wellbore pressure profiles and the ways to model them, -To teach the gas well tests and inflow performance relationship, -To discuss the classification of underground storage methods, -To introduce the design of the underground storage facility and its modeling approaches, -To inform about the management of underground storage facilities in Turkey.Recommended Resources:1.Katz, D.L., et al., (1959). Handbook of Natural Gas Engineering, McGraw-Hill.2.Gas Storage, Society of Petroleum Engineers, Reprint Series No. 50, Richardson, TX. 3.Satman, A., (2010). Underground Storage of Natural Gas, ITU Petroleum and Natural Gas Engineering Department. 4.Gas Storage, Society of Petroleum Engineers, Reprint Series No. 50, Richardson, TX. Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: NoneNOTE:Course Code:Course Name:02040810Reservoir CharacterizationDegree:Bachelor's degreeYear/Term:4./SpringEducation Type:Theoretical CoursesEducation Language:TurkishType:Technical electiveNational Credit:3ECTS Credit:5Lecturers:Content Of Course:Reservoir heterogeneity; Reservoir modelling in the presence of heterogeneities; Classification of measured data types (static and dynamic); Use of Geostatistics in reservoir characterization; Principles of Statistics (descriptive and inferential statistics); Spatial relationships-estimation and modelling (random function model, regionalized random variables, variogram estimation, variogram modelling and cross-variograms, anisotropy in the variogram); Estimation variance; Kriging (simple, ordinary, universal, and co-kriging techniques); Unconditional and conditional simulation; Applications with some case studies; Introduction to reservoir characterization based on dynamic (well test pressure and production) data (Bayes's theorem and flow simulation).Objectives of the Course:-To learn the types of data used in reservoir characterization, -To learn the fundamentals of geostatistics, -To learn how various statistical measures could be used to model spatial relations,-To learn spatial covariance and variogram models, -To learn the various kriging methods,-To learn geostatistical simulation, -To learn history matching techniques.Recommended Resources:1.Lake, L. W., Carrol, H.B. Jr. (1986). Reservoir Characterization, Academic Press, Orlando.2. Jensen, L.J., Lake., L. W., Corbett, P.W.M., Goggin, D.J. (1997). Statistics for Petroleum Engineers and Geoscientists, Prentice Hall, Englewood Cliffs3.Isaaks, H. E., Srivastava, R. M. (1989). An Introduction to Applied Geostatistics, Oxford University Press, New York.4.Cressie, N. A. C. (1991). Statistics for Spatial Data, John Wiley & Sons, Inc., New York.5.Journel, A. G., Huijbregths, CH. J. (1978). Mining Geostatistics, Academic Press, New York.6.Journel, A. G. (1989). Fundamentals of Geostatistics in Five Lessons, American Geophysical Union, Washington, D. C.7.De Marsily, C. (1986). Quantitative Hydrogeology, Academic Press, New York. 8.Goovaerts, P. (1997). Geostatistics for Natural Resources Evaluation, Oxford University Press, Inc.,New York.Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: NoneNOTE:Course Code:Course Name:02040811Enhanced Petroleum Recovery MethodsDegree:Bachelor's degreeYear/Term:4./SpringEducation Type:Theoretical CoursesEducation Language:TurkishType:Technical electiveNational Credit:3ECTS Credit:5Lecturers:Course Content:Enhanced oil recovery (EOR) methods and affecting factors. Chemical methods (polymer, alkaline and alkaline polymer, micellar polymer injection). High pressure gas methods (carbon dioxide and hydrocarbon gas injection). Thermal methods (steam injection and in-situ combustion). Method related properties of injection and reservoir fluids and reservoir rocks. Field experiences and operating problems.Objectives of the Course:Delivering the methods and affecting factors of enhanced oil recovery (EOR), the method dependent properties of injected fluids, reservoir fluids, and reservoir rocks; - Providing the chemical and physical interaction between the injected fluids and reservoir fluid and rocks, selecting and testing of injection chemicals, and field experiences in chemical methods; - Providing the physical interaction between the injected gases and reservoir fluid and rocks, miscible and immiscible recovery mechanisms, and field experiences in high pressure gas injection methods; - Providing the thermal properties of injection fluid and reservoir fluid and rocks, recovery mechanisms, calculations for method design and aopplication, operational and field experiences in thermal methods.Recommended Resources:1. Sorbie, K. S. (1991). Polymer-Improved Oil Recovery. Blackie and Son Co. Glasgow, U.K. 2. Jarrell, P. M. et al. (2002). Practical Aspects of CO? Flooding. Henry L. Doherty Memorial Fund of AIME, Society of Petroleum Engineers, Richardson, Texas, U.S.A. 3. Green, D. W. and Willhite, G. P. (1998). Enhanced Oil Recovery. Soc. of Petroleum Engineers, Richardson, Texas, USA. 4. Sorbie, K. S. (1991). Polymer-Improved Oil Recovery. Blackie and Son Co. Glasgow, U.K. 5. Lake, L. W. (1989). Enhanced Oil Recovery. Prentice Hall Publishing Co., Englewood Cliffs, New Jersey, USA. 6. Stalkup, F.I., Jr. (1983). Miscible Displacement. Monograph Vol. 8, Soc. of Petroleum Engineers, Richardson, Texas, USA. 7. Pratts, M. (1982). Thermal Recovery. Monograph Vol. 7, Society of Petroleum Engineers, Richardson, Texas, USA. 8. Shah, D.O., and Schechter, R.S. (1977). Improved Oil Recovery by Surfactant and Polymer Flooding. Academic Press, Inc., New York, New York, USA.Evaluat?on Methods: Midterm exam: 40%; Final: 60%Prerequisite: NoneNOTE: ................
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