2001-2002 UAF Catalog
Degrees and Programs
School of Mineral Engineering
Department of Petroleum Engineering
Degrees: B.S., M.S.
Minimum Requirements for Degrees: B.S.: 134 credits; M.S.: 30-36 credits
Petroleum engineering offers a unique look at the challenging problems confronting the petroleum industry. This program requires an understanding of many disciplines including mathematics, physics, chemistry, geology and engineering science. Courses in petroleum engineering deal with drilling, formation evaluation, production, reservoir engineering, computer simulation and enhanced oil recovery.
The curriculum prepares graduates to meet the demands of modern technology while emphasizing, whenever possible, the special problems encountered in Alaska. Located in one of the largest oil-producing states in the nation, the UAF petroleum engineering department offers one of the most modern and challenging degree programs available.
The M.S. program is intended to provide the student with an advanced treatment of petroleum engineering concepts. Students may choose either a thesis or non-thesis option. A number of generous research and teaching assistantships are available.
An interdisciplinary doctoral degree program is offered with specialization in petroleum engineering for qualified students. Contact the graduate program coordinator or the petroleum engineering department for more information.
Petroleum Engineering -- B.S. Degree
1. Complete the general university requirements. (As part of the core curriculum requirements, complete: MATH 200X, CHEM 105X, CHEM 106X, and LS 101X.)
2. Complete the B.S. degree requirements. (As part of the B.S. degree requirements, complete: MATH 201X, PHYS 211X and PHYS 212X.)
3. Complete the following program (major) requirements:*
- ES 201 -- Computer Techniques (3 credits)
- ES 208 -- Mechanics (4 credits)
- ES 331 -- Mechanics of Materials (3 credits)
- ES 341 -- Fluid Mechanics (4 credits)
- ES 346 -- Basic Thermodynamics (3 credits)
- GE 261 -- General Geology for Engineers (3)
- or GEOS 101X -- The Dynamic Earth (4) (3-4 credits)
- GEOS 370 -- Sedimentary and Structural Geology for Petroleum Engineers (4 credits)
- PETE 103 -- Survey of Energy Industries (1 credit)
- PETE 205 -- Introduction to Petroleum Drilling and Productions (3 credits)
- PETE 301 -- Reservoir Rock and Fluid Properties (4 credits)
- PETE 302 -- Well Logging (3 credits)
- PETE 303W -- Reservoir Rock and Fluid Properties Laboratory (1 credit)
- PETE 407 -- Petroleum Production Engineering (3 credits)
- PETE 411W -- Drilling Fluids Laboratory (1 credit)
- PETE 421 -- Reservoir Characterization (3 credits)
- PETE 426 -- Drilling Engineering (3 credits)
- PETE 431 -- Natural Gas Engineering (2 credits)
- PETE 456 -- Petroleum Evaluation and Economic Decisions (3 credits)
- PETE 466 -- Petroleum Recovery Methods (3 credits)
- PETE 476 -- Petroleum Reservoir Engineering (3 credits)
- PETE 478 -- Well Test Analysis (2 credits)
- PETE 481W -- Well Completions and Stimulation Design (3 credits)
- PETE 487W,O -- Petroleum Project Design (2 credits)
- PETE 489 -- Reservoir Simulation (2 credits)
- Engineering elective** (3 credits)
4. Complete the following program (major) requirements:
- Technical elective*** (3 credits)
- MATH 202X -- Calculus (4 credits)
- MATH 302 -- Differential Equations (3 credits)
5. Complete the Fundamentals of Engineering Exam (as approved by the Board of Architects, Engineers and Land Surveyors).
- MATH 310 -- Numerical Analysis (3 credits)
6. Minimum credits required (134 credits)
* Student must earn a C grade or better in each course.
** As approved by advisor (e.g. ME 416 or ES 307).
*** As approved by advisor (e.g. CE 603).
Petroleum Engineering -- M.S. Degree
1. Complete the following admission requirement:
a. Complete a B.S. degree in engineering or the natural sciences.
2. Complete the general university requirements.
3. Complete the master's degree requirements.
4. Complete the thesis or non-thesis requirements:
a. Complete 1 course from each of the following groups:
Group 1. Drilling and production courses:
- PETE 607 -- Advanced Production Engineering (3 credits)
- PETE 666 -- Drilling Optimization (3 credits)
- PETE 685 -- Non-Newtonian Fluid Mechanics (3 credits)
Group 2. Reservoir engineering/well test analysis/reservoir simulation courses:
- PETE 689 -- Multiphase Fluid Flow in Pipes (3 credits)
- PETE 610 -- Advanced Reservoir Engineering (3 credits)
- PETE 661 -- Applied Well Testing (3 credits)
- PETE 663 -- Applied Reservoir Simulation (3 credits)
Group 3. Enhanced oil recovery/waterflooding courses:
- PETE 683 -- Natural Gas Processing and Engineering (3 credits)
- PETE 630 -- Water Flooding (3 credits)
- PETE 662 -- Enhanced Oil Recovery (3 credits)
- PETE 665 -- Advanced Phase Behavior (3 credits)
Group 4. Engineering/technology courses:
- PETE 670 -- Fluid Flow Through Porous Media (3 credits)
- CE 603 -- Arctic Engineering (3 credits)
- PETE 680 -- Horizontal Well Technology (3 credits)
b. Complete the following:
- PETE 684 -- Computational Methods in Petroleum Engineering (3 credits)
- PETE 699 -- Thesis (6 credits)
c. Minimum credits required (30 credits)
- Elective courses* (12 credits)
a. Complete 1 course from each group in the thesis option. (12 credits)
b. Complete the following:
- PETE 698 -- Engineering Project (6 credits)
c. Minimum credits required (36 credits)
- Electives* (18 credits)
* Electives are chosen with approval of graduate advisory committee.
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Last modified March 22, 2001 by University Relations Web Developer.