BSc in Petroleum Engineering

The BSc in Petroleum Engineering program is accredited by the Engineering Accreditation Commission (EAC) of ABET, , under the commission鈥檚 General Criteria and Program Criteria for Petroleum and Similarly Named Engineering Programs.

The BSc in Petroleum Engineering program has a modern and well-balanced curriculum that emphasizes not only petroleum engineering fundamentals but also the business processes applied to reach optimal engineering solutions for field development and operations.

This program is uniquely defined by well-equipped, state-of-the-art modern laboratory and computer facilities and access to local operating companies. The content of our courses, projects, and assignments are selected to help prepare graduates to launch their oil industry careers as willing and eager contributors. Students are well equipped with skills and knowledge of basic engineering and science, fundamental understandings of reservoir, well, and production and surface facilities.

Students are well equipped with skills and knowledge of basic engineering and science, fundamental understandings of reservoir, well operation, production and surface facilities as well as AI/ML applications.

Program Enrolment and Degree Data

Number of Enrolled Students
TERM	COUNT
Spring 2024	32
Fall 2023	26
Fall 2022	21
Fall 2021	37
Fall 2020	47
Fall 2019	83
Fall 2018	162

Number of Graduates
Academic Year	Count
2024	1
2023	5
2022	5
2021	18
2020	16
2019	37
2018	76

Program Educational Objectives

The BSc in Petroleum Engineering aims to produce graduates who would be able to:

Demonstrate highest levels of technical competencies, ethical commitments, and social responsibilities to serve the current and future needs of the society.
Develop and establish themselves as competent professional Engineers in the oil and gas Industry to support energy sustainability at large.
Engage in life-long learning and/or undertake graduate studies to contribute to knowledge creation and innovation.

Student Outcomes (Program Learning Outcomes)

Students graduating with a BSc in Petroleum Engineering degree will attain the following:

(1)	An ability to identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics.
(2)	An ability to apply engineering design to produce solutions that meet specified needs with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors.
(3)	An ability to communicate effectively with a range of audiences.
(4)	An ability to recognize ethical and professional responsibilities in engineering situations and make informed judgments, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts.
(5)	An ability to function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives.
(6)	An ability to develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions.
(7)	An ability to acquire and apply new knowledge as needed, using appropriate learning strategies.

Program Facilities

The Petroleum Engineering Program laboratories include:

Analytical Instrument Laboratory
Core Preparation Laboratory
Drilling Fluids Laboratory
Drilling Simulation Laboratory
Fluid Properties Laboratory
Rock Mechanics Laboratory
Rock Properties Laboratory
Production and Facilities Laboratory

Professional Chapters

The Petroleum Engineering program is supported by a student chapter of the Society of Petroleum Engineers (SPE). Activities of the SPE student chapter are broadly divided into technical and social functions. Major technical activities include sponsoring students to conferences and Education Weeks organized annually by SPE in conjunction with major oil and gas conferences in the region, field trips, company visits, and technical presentations delivered by industry professionals. Students also participate in regional and international student paper contests where they can showcase their research skills, competing with other students for honors. Social activities include the annual Sports Day, dinners, dhow cruises, visits to other chapters, etc.

Degree Requirements

To be recommended for graduation with a BSc in Petroleum Engineering degree, students must satisfactorily complete the courses in the specified categories as set out below. The categories cover听the University General Education Requirements听 (GER, 48 credits), Program Additional Math/Science Requirements (17 credits),听Petroleum Engineering Core Requirements (59 credits),听and Technical Electives Requirements (6 credits).听The normal length of the program is 130 credits.

Additional Math/Sciences Requirements (17 credits)

To satisfy the Program Additional Math/Science Requirements, the BSc in Petroleum Engineering requires the following Math/Sciences courses in addition to the Math/Sciences required in GER: CHEM115, PHYS121, MATH111, and MATH112. The BSc. In Petroleum Engineering requires different math/sciences courses for a total of 17 credits.

	General Chemistry II	4 cr.
	Differential Equations	3 cr.
	Calculus III	3 cr.
	University Physics II	4 cr.
	Earth System Science	3 cr.

Petroleum Engineering Core Requirements (59 credits)

	Thermodynamics	3 cr.
	Reservoir Rock Properties	3 cr.
	Reservoir Fluid Properties	3 cr.
	Statics and Mechanics of Materials	3 cr.
	Fluid Mechanics and Heat Transfer	3 cr.
	Well Logging	3 cr.
	Reservoir Characterization	3 cr.
	Drilling Engineering I	3 cr.
	Drilling Engineering II	3 cr.
	Reservoir Engineering I	3 cr.
	Well Testing	3 cr.
	Completion and Work Over	3 cr.
	Petroleum Economics and Risk Analysis	4 cr.
	Reservoir Engineering II	4 cr.
	Production Engineering	3 cr.
	Senior Design Project I	3 cr.
	Senior Design Project II	3 cr.
	Sedimentology	4 cr.
	Petroleum Engineering Internship	1 cr.
	Petroleum Engineering Internship	1 cr.

Petroleum Engineering Technical Electives (6 credits)

The following is a sample list of courses that will satisfy the technical electives of the BSc in Petroleum Engineering. Students must select a total of 6 credits from this list. Technical electives must be at 300-level or 400-level and at most three credits may be Undergraduate Research or Research Topics. Additional courses may be approved by the department as technical electives.

	Well Treatment	3 cr.
	Horizontal and Multilateral Well Technology	3 cr.
	Underbalanced Drilling Technology	3 cr.
	Pressure Control	3 cr.
	Natural Gas Engineering	3 cr.
	Surface Production Facilities	3 cr.
	Production Enhancement	3 cr.
	Petroleum Related Rock Mechanics	3 cr.
	Undergraduate Research	3 cr.
	Or
	Undergraduate Research
	Research Topics in Petroleum Engineering	3 cr.
	Or
	Research Topics in Petroleum Engineering	3 cr.
	Special Topics in Petroleum Engineering	3 cr.
	Or
	Special Topics in Petroleum Engineering	3 cr.

Course Description of Petroleum Engineering听

PEEG 218 听听听听听听听听听听听听听听听听听听听听听听听听听听听 Reservoir Rock Properties (2-3-3)

Prerequisite:听听听听听 ENGR 111

Theoretical introduction to basic rock properties and their core-based measurements determined by conventional and special core analysis. It will be discussed how to obtain reliable core analysis data and the specific topics include porosity, permeability, Darcy鈥檚 law with applications/limitations, saturations, wettability, capillary pressure, relative permeability, resistivity, compressibility and the effect of stresses on rock mechanical properties. Laboratory experiments will reinforce concepts discussed in the classroom.

PEEG 219 听听听听听听听听听听听听听听听听听听听听听听听听听听听 Reservoir Fluid Properties (2-3-3)

Prerequisite:听听听听听 PEEG240 (or MEEN 240), CHEM 116

The theoretical and laboratory parts of this course cover the basic characterization of reservoir fluids, their properties, their determination and their measurement. Topics covered include phase behaviour, density, saturation pressures, gas-oil ratios, shrinkage, oil and gas formation factors, viscosity and the compositional analysis of oil, gas, and brine.

PEEG 252 听听听听听听听听听听听听听听听听听听听听听听听听听听听 Statics and Mechanics of Materials for PE (3-0-3)

Prerequisite:听听听听听 MATH 112; PHYS 121

A combined course of Statics and Strength of Materials for petroleum engineering. Forces, force couples, resultants, free body diagrams, equations of equilibrium and internal/external forces are first covered in statics and then applied to problems of stress analysis and deformations in deformable bodies under axial, torsional, bending and combined loading in the mechanics of materials part. Stress tensor is introduced and the significance of elastic parameters is highlighted. Stress transformation equations, experimental methods of measuring rock strength, and failure criteria are also discussed.

PEEG 302 听听听听听听听听听听听听听听听听听听听听听听听听听听听 Fluid Mechanics and Heat Transfer (3-0-3)

Prerequisite:听听听听听 PEEG 240 or MEEN 240

This course introduces the principles of momentum transfer and overall mass, energy and momentum balances including an introduction to multiphase flow in pipes. Topics also include the principles of steady-state and unsteady-state heat transfer. Specific applications such as measurement of fluid flow, pumps, gas-moving equipment, prediction of pressure drop in pipes, restrictions and manifold systems, heat exchangers, and thermal gradient and heat transfer in oil and gas wells are stressed.

PEEG 314 听听听听听听听听听听听听听听听听听听听听听听听听听听听 Well Logging (3-0-3)

Prerequisite: 听听听听 PEEG 218, PHYS 122

Co-requisite: 听听听听 PEEG 322

This course provides an introduction to the various well logging methods, tools and their principles of operation with emphasis on the relationship between measurements and reservoir petrophysical properties. Conditions and limitations for applications of various logs are discussed.听 Graphical and analytical methods used to determine formation composition, contents, and its potential for production are developed and applied to create graphs and log traces, and determine reservoir parameters.

PEEG 315 听听听听听听听听听听听听听听听听听听听听听听听听听听听 Reservoir Characterization (2-3-3)

Prerequisites:听听听 PEEG 219, PEEG 314, PGEG 311

Students learn how to integrate geological, geophysical, petrophysical and engineering data, using geostatistical tools and workflows, to characterize the reservoir and build a 3D static model, to be used in subsequent reservoir simulation studies. They will also learn how to use Petrel software to load, process, interpret and visualize the reservoir in three-dimensions and carry out uncertainty analysis on volumetrics using Monte Carlo simulation.

PEEG 322 听听听听听听听听听听听听听听听听听听听听听听听听听听听 Drilling Engineering I (2-3-3)

Prerequisite:听听听听听 PEEG 252

Co-requisite: 听听听听 PEEG 314

This is an introductory level drilling course which introduces rotary drilling process and basic drilling rig components to the students who have no prior knowledge on oil well drilling technology. Hands on laboratory testing of drilling fluids will be covered. At the end of the course the students should be able to assess formation pressures and fracture strengths; design mud programs and casing shoe depths; design basic components of a drilling rig to meet a given and be familiar with popular drilling problems.

PEEG 326 听听听听听听听听听听听听听听听听听听听听听听听听听听听 Drilling Engineering II (2-3-3)

Prerequisites:听听听 PEEG 302; PEEG 322

This is an advanced level drilling course designed for students who have prior knowledge of drilling fundamentals. The course covers a range of topics from casing and cementing technology, hydraulics, directional drilling, and well control. Upon completing this course, the students should be able to select casing grades for a given well data, formulate, design and analyze cementing operations as well as directional drilling data analysis. Hands on practical sessions on drilling simulators will be covered.

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PEEG 331 听听听听听听听听听听听听听听听听听听听听听听听听听听听 Reservoir Engineering I (3-0-3)

Prerequisite:听听听听听 PEEG 218; PEEG 219; PEEG 302

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This course presents the students with material balance, the derivation and application of zero-dimension reservoir models for practical reservoir management and performance prediction. The subject of oil or gas initial and remaining reserve will be covered, in relation with initial hydrocarbon in place through the concept of unit recovery, recovery efficiency and recovery factor. The course will also present the different types of hydrocarbon reservoirs, with their possible oil and gas drive mechanisms.

PEEG 336 听听听听听听听听听听听听听听听听听听听听听听听听听听听 Well Testing (3-0-3)

Prerequisites:听听听 PEEG 331, PEEG 314, MATH 206

This course covers theoretical development of flow equations governing well testing in oil and gas wells. Line source analytical solutions of flow equations will be covered concentrating on semi-log analysis and type-curve matching. The principle of superposition will also be discussed. Production capacity of a well and pressure derivative analysis will be introduced.

PEEG 341 听听听听听听听听听听听听听听听听听听听听听听听听听听听 Completion and Workover (3-0-3)

Prerequisite:听听听听听 PEEG 322

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The course presents different well completions and workover techniques in a comprehensive method. The well completions for varying field conditions are discussed, including technical and economic considerations. Downhole components and design of tubing string for most types of well are discussed. The methods of opening the formation with the wellbore for production are detailed with types of perforation techniques. Workover procedures including remedial cementing, well stimulation methods are taught with required design procedures.

PEEG 360 听听听听听听听听听听听听听听听听听听听听听听听听听听听 Petroleum Economics & Risk Analysis (4-0-4)

Prerequisite:听听听听听 HUMA 150

The objective is to develop students鈥� expertise in the area of economics and risk/uncertainty analysis and their relation to decision making processes in the petroleum industry. It introduces students to the concept of business economics implemented in the modern petroleum industry. This approach improves students鈥� skills in utilizing all available information about the project and related economic influences in depicting a realistic projection of the project worth and the chances of business success.

PEEG 391听听听听听听听听听听听听听听听听听听听听听听听听听听听听 Independent Study I (From 1 to 3)

Prerequisite:听听听听听 Junior standing and approval of the department

This course gives an upper level undergraduate student the opportunity to participate in an individual or group project, study, or research activity under the supervision of a faculty member.听 A formal report is required.

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PEEG 394听听听听听听听听听听听听听听听听听听听听听听听听听听听听 Research Topics in Petroleum Engineering (rom 1-3 credits)

Prerequisite:听听听听听 Junior standing and approval of the department

The course focuses on research-driven topics. A student can take multiple Research Topics courses with different content for credit subject to program approval.

PEEG 395听听听听听听听听听听听听听听听听听听听听听听听听听听听听 Special Topics in Petroleum Engineering (from 1-3 credits)

Prerequisites:听听听 Junior standing and Topic Specific

This course mainly deals with new trends in petroleum engineering and emerging technologies. Course is repeatable if title and content differ.

PEEG 420 听听听听听听听听听听听听听听听听听听听听听听听听听听听 Well Treatment (3-0-3)

Prerequisites: 听听 PEEG 341; Senior standing

This course discusses the causes of production impairment and methods of improving well productivity using established well treatment methodologies. Two important area of a production system will be covered, the near wellbore formation (formation damage issues) and the production system (wellbore to separator, flow assurance issues). Topics include loss of productivity due to formation damage, asphaltene, wax and inorganic solid deposition along with detail mitigation methods. The course will also cover chemical based treatment methods to control/shut-off excessive water and gas production and injection water profile control. A significant part of the course will focus on diagnosis of problem, selection and application of chemicals, tools and hardware and designing specific well treatment operations.听

PEEG 423 听听听听听听听听听听听听听听听听听听听听听听听听听听听 Horizontal and Multilateral Well Technology (3-0-3)

Prerequisite: 听听听听 PEEG 326

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This is a comprehensive course designed to familiarize petroleum-engineering students with the benefits and design of horizontal and multilateral wells. The topics covered include key details of drilling and completion of horizontal and multilateral wells, such as planning, drilling, surveying, tubular selection, failure analysis, cutting transport, hole-stability, cementing, centralizer spacing, etc. Students work on design examples and utilize an industry software package.

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PEEG 424 听听听听听听听听听听听听听听听听听听听听听听听听听听听 Underbalanced Drilling Technology (3-0-3)

Prerequisite: 听听听听 PEEG 326

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This course is designed to familiarize students with the five popular UBD techniques. These are Air/Natural Gas Drilling, Mist Drilling, Foam Drilling, Gasified Liquid Drilling and Flow Drilling. Benefits and limitations of each technique along with the design principles and operational procedures are discussed. Common problems pertinent to each technique and recommended procedures are also discussed.

PEEG 425 听听听听听听听听听听听听听听听听听听听听听听听听听听听 Pressure Control (3-0-3)

Prerequisite: 听听听听 PEEG 326

This course is designed to introduce fundamental well control principles, procedures and control equipment to the students who have completed their basic drilling engineering courses. Students will learn concepts of formation pressure, static and dynamic well bore pressures; primary and secondary well control, shut in procedures; kick circulation procedures; well control equipment and alleviate kick circulation problems. Students will also have hands on training and an IWCF-type practical exam on the PI Drilling Simulators.

PEEG 434 听听听听听听听听听听听听听听听听听听听听听听听听听听听 Reservoir Engineering II (4-0-4)

Prerequisite:听听听听听 PEEG 315; PEEG 331; MATH 206

Key reservoir parameters required to calculate recovery factor, mobilization, sweep efficiencies, fractional flow analysis, and heterogeneity interaction and their influence on recovery factor are fully covered. General principles relating to SCAL properties and volumetric sweep that should be considered in planning secondary recovery, EOR and IOR processes are reviewed. Introduction to reservoir simulation principles is also discussed.

PEEG 437 听听听听听听听听听听听听听听听听听听听听听听听听听听听 Natural Gas Engineering (3-0-3)

Prerequisite: 听听听听 PEEG 331

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This course covers gas reservoirs rock and fluid Properties, including Darcy and non-Darcy flow phenomena near gas wells. Gas reserves estimation using linearized MBE and Decline Curve Analysis will be evaluated. Decline curves analysis of Arps and Fetkovich will be studied. Gas flow and gas well testing to evaluate reservoir characteristics will be covered, considering the pressure solution, p² solution, real gas pseudo pressure solution of the gas transient flow equation. Deliverability of gas wells will be determined using multi-rate draw down testing, flow after flow testing, isochronal testing, and modified isochronal testing. Prediction of future performance and ultimate recovery form gas reservoirs will be studied.听听

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PEEG 442 听听听听听听听听听听听听听听听听听听听听听听听听听听听 Surface Production Facilities (3-0-3)

Prerequisite:听听听听 PEEG 302

This course covers the description, applications, design, analysis, and operational issues of surface production facilities. Topics include Wellhead choke, 2-phase, and 3-phase separation, emulsion treatment, desalting, oil stabilization, water treatment, gas dehydration and sweetening, and storage.听 Principles governing the flow of oil, gas, and water in the surface production system will be covered.听 Surface production problems (corrosion and environmental) and safety issues are also included.

PEEG 445 听听听听听听听听听听听听听听听听听听听听听听听听听听听 Production Enhancement (3-0-3)

Prerequisites: 听听 PEEG 341, PEEG 443

This course discusses the causes of production impairment and methods of improving well productivity. Topics include loss of productivity due to formation damage, solids deposition, excessive water and gas production, and bottlenecks in the production system; and production enhancement by matrix treatments, remedial cementing and production profile control.听 De-bottlenecking of the production system through Nodal analysis of the production system is also covered.

PEEG 447 听听听听听听听听听听听听听听听听听听听听听听听听听听听 Production Engineering (3-0-3)

Prerequisites: 听听 PEEG 331, PEEG 341

This course utilizes the Total System Analysis technique for the design and performance analysis of the production system starting from the reservoir through the wellbore to the production separator. Topics include inflow performance relationships (IPR), vertical lift performance (VLP) for multiphase flow in vertical and inclined pipes, overall well performance evaluation considering various nodes within the production system.听 Artificial lift techniques of gas lift and electrical submersible pumps (ESP) are also taught. The course also includes surface production facilities for handling and separation of oil, gas, and water.

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PEEG 456 听听听听听听听听听听听听听听听听听听听听听听听听听听听 Petroleum Related Rock Mechanics (3-0-3)

Prerequisites: 听听 PEEG 252

Rock mechanics principles and topics such as nature of rock, rock deformability and rock stress, engineering properties of rocks from laboratory testing, and the effect of factors such as pore pressure, temperature and time on rock behavior are covered. Rock strength and failure and mathematical approaches to stress-strain analysis in rocks will be discussed together with applications such as borehole stability analysis and reservoir compaction.

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PEEG 491听听听听听听听听听听听听听听听听听听听听听听听听听听听听 Independent Study I (From 1 to 3)

Prerequisite:听听听听听 Approval of department and senior standing

This course gives an upper level undergraduate student the opportunity to participate in an individual or group project, study, or research activity under the supervision of a faculty member.听 A formal report is required.

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PEEG 494听听听听听听听听听听听听听听听听听听听听听听听听听听听听 Research Topics in Petroleum Engineering (From 1-3)

Prerequisite:听听听听听 Senior standing and approval of the department

The course focuses on research-driven topics. A student can take multiple Research Topics courses with different content for credit subject to program approval.

PEEG 495听听听听听听听听听听听听听听听听听听听听听听听听听听听听 Special Topics in Petroleum Engineering (from 1-3 credits)

Prerequisites:听听听 Senior standing and Topic Specific

This course mainly deals with new trends in petroleum engineering and emerging technologies. Course is repeatable if title and content differ.

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PEEG 497 听听听听听听听听听听听听听听听听听听听听听听听听听听听 Senior Design Project I (3-0-3)

Prerequisites: 听听 PEEG 322, PEEG 315, PEEG 336, PEEG 360

Co-requisites: 听听 PEEG 434, PEEG 447

This is the first course in a sequence of two courses; Design Project I (DP I) and Design Project II (DP II). DP I covers up to Drilling & Completion design and the rest is covered in DP II (PEEG 498). This is a team-based design project pertaining to field development plan of a hydrocarbon reservoir, incorporating realistic design constraints, and engineering ethics. The steps involve reservoir description and volumetric evaluations, development planning, drilling and completion design, estimation of fluid production rates, surface facility design, and economic analysis.听 A reservoir management and surveillance strategy for long term production sustenance is also included.听

PEEG 498听听听听听听听听听听听听听听听听听听听听听听听听听听听听 Senior Design Project II (3-0-3)

Prerequisites: 听听 PEEG 497

Petroleum Engineering Design Project II (PEEG 498) is a continuation of PEEG-497. After completing the first 3 modules, i.e. reservoir description and volumetric evaluations, development planning, drilling and completion design, students are required to complete the remaining three modules, namely, reservoir development and management strategies, designing an oil, gas and water separation and processing facilities and finally perform a comprehensive economic analysis of the project, with due consideration of the realistic engineering constraints, as well as the issues relating to safety and ethics in oilfield operations.

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Academic Year 2023-2024

Year	Fall	Credits	Spring	Credits
Year 1	ENGL 101 Academic English I	3 cr	ENGL 102 Academic English II	3 cr
	MATH 111 Calculus I	4 cr	MATH 112 Calculus II	4 cr
	CHEM 115 General Chemistry I	4 cr	PHYS 121 University Physics I	4 cr
	GENS 101 Grand Challenges	4 cr	CHEM 116 General Chemistry II	4 cr
	GENS 100 Academic Development & Success	1 cr	听	听
Summer	听	听	听	听
Year 2	COSC 114 Introduction to Computing-Python	4 cr	MATH 206 Differential Equations	3 cr
	PHYS 122 University Physics II	4 cr	PEEG 219 Reservoir Fluid Properties	3 cr
	MATH 231 Calculus III	3 cr	EPSS 200听Earth System Science	3 cr
	PEEG 218 Reservoir Rock Properties	3 cr	PEEG 252 Statics and Mechanics of Materials听	3 cr
	MEEN 240 Thermodynamics	3 cr	PEEG 302 Fluid Mechanics and Heat Transfer	3 cr
	听	听	COSC 202 Data Science and AI	3 cr
Summer	BUSS 150 Introduction to Economics	3 cr	听	听
Year 3	BUSS 322 Fundamentals of Innovation and Entrepreneurship	3 cr	PEEG 315 Reservoir Characterization	3 cr
	EPSS 305 Sedimentology	4 cr	PEEG 326 Drilling Engineering II	3 cr
	PEEG 314 Well Logging	3 cr	PEEG 336 Well Testing	3 cr
	PEEG 322 Drilling Engineering I	3 cr	PEEG 341 Completion and Work over	3 cr
	PEEG 331 Reservoir Engineering I	3 cr	PEEG 360 Petroleum Economics & Risk Analysis	4 cr
	听	听	GENS 300 Career Preparation	1 cr
Summer	PEEG 399 Petroleum Engineering Internship	1 cr	听	听
Year 4	GENS 400 Enhancing Employability and Job Readiness	1 cr	Technical Elective	3 cr
	PEEG 434 Reservoir Engineering II	4 cr	HUMA XXX Islamic/Arabic Studies Elective	3 cr
	Technical Elective	3 cr	HUMA XXX UAE Studies Elective	3 cr
	PEEG 447 Production Engineering	3 cr	PEEG 498 Senior Design Project II	3 cr
	PEEG 497 Senior Design Project I	3 cr	听	听
Summer	PEEG 399 Petroleum Engineering Internship	1 cr	听	听
Total Credit Hours				130

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星空传媒

Degree Requirements

Additional Math/Sciences Requirements (17 credits)

Petroleum Engineering Core Requirements (59 credits)

Petroleum Engineering Technical Electives (6 credits)