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Petroleum Engineering involves the technology of economically developing and producing subterranean reservoirs of oil, gas, steam, and hot water and designing underground waste disposal facilities. This technology relies on basic concepts of physics, chemistry, mathematics, geology, fluid mechanics, thermodynamics, and economics. Because more than 300 products are derived from petroleum, it has become a vital part of our everyday life. The petroleum industry is one of the largest and most prominent in the United States today, and the companies involved are dependent on the services of petroleum engineers to explore, discover, and produce oil and gas to meet energy needs.
The USC Viterbi School of Engineering's Petroleum Engineering program is one of the oldest in the country with considerable industry support and interaction. Its assets are numerous - the advantages of a relatively small, friendly program, combined with the University's impressive academic and research facilities; its proximity to major oil fields in California; and a quality education provided by experienced and nationally renowned faculty.
Students interested in Petroleum Engineering should have an interest in energy resources, earth sciences, geology, physics, chemistry, mathematics, computers, economics, engineering design, and management skills. In addition, the M.S. in Petroleum Engineering with a specialization in Smart Oilfield Technologies (SOFT) is also available online via DEN.
- Bachelor of Science in petroleum engineering (or other engineering, math or science with assigned deficiencies) from a regionally-accredited university with a cumulative GPA of at least 3.0 on a 4.0 scale
- Satisfactory scores on the general GRE are required (minimum combined score of 1000 quantitative and verbal)
- Statement of Purpose
- Two Letters of Recommendation
- International students whose first language is not English must submit TOEFL scores of at least:
- 250 or higher on the computer-based TOEFL
- 600 or higher on the paper-based TOEFL
- 100 or higher on the Internet-based TOEFL (iBT) with no less than 20 on each of the four individual sections
Deficiency Courses
Students without a B.S. in Petroleum Engineering must complete the prerequisite courses listed below before beginning the M.S. program. Units from these courses cannot be applied towards the degree. Other prerequisite courses are to be decided on a case-by-case basis upon consultation with the Program Director.
A minimum of 27 units is required for the M.S. in Petroleum Engineering degree.
- Required courses: 18 units
- Elective courses: 9 units
- A minimum cumulative GPA of 3.00 is required for graduation.
Deficiency Course Descriptions
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PTE411 - Introduction to Transport Processes in Porous Media
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3
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Units: 3
Course Description: Properties of porous rocks; capillary effect, single phase and multiphase flow through porous media; diffusion and dispersion, miscible displacement, heat transfer. Lecture, 3 hours. Not available for credit to Petroleum Engineering majors. Prerequisite: MATH 245, CHEM 105aL or CHEM 115aL, PHYS 151L, CE 309.
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PTE412x - Petroleum Reservoir Engineering
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3
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Units: 3
Course Description: Properties of reservoir fluids, volumetric and material balances for gas and oil reservoirs; reservoir modeling concepts. Lecture, 3 hours. Not available for credit to Petroleum Engineering majors.
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PTE461 - Formation Evaluation
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3
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Units: 3
Course Description: Concepts of petroleum geology, interpretation of downhole surveys and measurements including well logs, MWD, mud logs and samples. Corequisite: PTE 463L.
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Required Courses (18 units)
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PTE507 - Engineering and Economic Evaluation of Subsurface Reservoirs
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3
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Units: 3
Course Description: Studies, data and methods for estimating size of underground fluid deposits for predicting physical and economic behavior of designed flow schemes, and for quantifying uncertainty. Prerequisite: PTE 464L.
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PTE508 - Numerical Simulation of Subsurface Flow and Transport Processes
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3
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Units: 3
Course Description: Formulation and solution of the equations describing the underground flow of fluids through porous media. Includes mass (contaminant) transport in single and multiphase flow. Prerequisite: PTE 507 or graduate standing in engineering.
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PTE517 - Testing of Wells and Aquifers
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3
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Units: 3
Course Description: Principles of well testing; down hole device; Aquifer tests; slug tests; DST; pressure transient modeling in homogeneous and heterogeneous systems; parameter estimation; computer aided techniques.
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PTE531 - Enhanced Oil Recovery
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3
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Units: 3
Course Description: This course surveys current enhanced oil recovery processes, including water-flooding, miscible displacement, and thermal oil recovery. Prerequisite: PTE 507.
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PTE555 - Well Completion, Stimulation, and Damage Control
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3
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Units: 3
Course Description: This course reviews current practices related to well completion methods, wellbore stimulation, and damage control. Formation damage prevention and stimulation methods are emphasized. Prerequisite: graduate standing.
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PTE582 - Fluid Flow and Transport Processes in Porous Media
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3
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Units: 3
Course Description: Principles of single and multiphase flow through porous media; mechanisms of immiscible and miscible displacement; momentum, heat and mass transport in porous media.
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Electives (9 units)
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PTE502 - Advanced Reservoir Characterization
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3
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Units: 3
Course Description: Modern well logs from both open and cased holes, and methods for analyzing them to obtain information on reservoir rock properties and fluid saturations.
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| PTE511 -
Advanced Phase Behavior of Petroleum Reservoir Fluids |
3 |
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PTE514 - Drilling Engineering
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2
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Units: 2
Course Description: Rock mechanics; rotary drilling processes; bit selection; optimizing bit weight and rotational speed; well hydraulics and control; casing design and cementing; directional and offshore drilling.
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PTE542 - Carbonate Rocks
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2
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Units: 2
Course Description: Classification; porosity development; source rocks; wettability; capillary pressure curves; compressibility; surface areas; relative permeabilities; various petrophysical properties; formation evaluation; overpressures; thin section analysis.
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PTE545 - Corrosion Control in Petroleum Production
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2
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Units: 2
Course Description: Types of corrosion encountered in petroleum production; methods for practical control including use of inhibitors, coatings, and cathodic protection. Prerequisite: CHEM 430a.
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PTE572 - Engineering Geostatistics
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2
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Units: 2
Course Description: Use of geostatistical methods for exploration and development of mineral and petroleum resources, application of semivariogram, kriging, cokriging, nonlinear and parametric estimation and conditional stimulation. Prerequisite: graduate standing; knowledge of statistics or departmental approval.
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PTE578 - Advanced Production Engineering
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2
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Units: 2
Course Description: Principles of oil well and gas well production; design of artificial lift systems and surface operations; field problems of enhanced oil recovery operations.
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PTE581 - Environmental Technology in the Petroleum Industry
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3
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Units: 3
Course Description: This course examines engineering and scientific principles necessary for understanding, assessing, and remediating environmental problems in the petroleum industry including drilling, production, transportation and refining operations. Prerequisite: graduate standing.
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PTE586 - Intelligent and Collaborative Oilfield Systems Characterization and Management
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3
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Units: 3
Course Description: Review of soft computing methods such as neural networks, fuzzy logic, problematic reasoning in reservoir characterization, dynamic reservoir modeling, oilfield data integration and analysis of uncertainty in prediction. Limited to students with graduate standing. Recommended preparation: prerequisites for non-majors.
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PTE587 - Smart Completions, Oilfield Sensors and Sensor Technology
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3
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Units: 3
Course Description: Intelligent Wellbore completion, technology of subsurface and surface sensors, deployment and data acquisition, telemonitoring and feedback, reliability of sensors, data transmission, systems networks. Recommended preparation: prerequisites for non-majors.
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PTE588 - Smart Oilfield Data Mining
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3
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Units: 3
Course Description: Methods for oilfield data mining, data preparation mining images, prediction and knowledge discovery, subset selection, pattern recognition. Limited to students with graduate standing. Recommended preparation: prerequisites for non-majors.
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PTE589 - Advanced Oilfield Operations with Remote Immersive Visualization and Control
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3
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Units: 3
Course Description: Immersive subsurface and surface environments, web based monitoring and feedback, visualizing risk, unattended operation. Limited to students with graduate standing. Recommended preparation: prerequisites for non-majors.
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Please note that the courses above are those available via USC DEN. Additional course choices are available on campus. Please consult the department website for a complete list of options.
In order to evaluate any application for admission, application materials must be submitted by the deadlines listed:
June 15th Fall admission
October 1st Spring admission
Please complete the application and submit the following to the USC Office of Graduate Admission via the online application system by clicking here.
- Statement of Purpose
- The statement of purpose should describe succinctly your reasons for applying to the proposed program at the Viterbi School of Engineering, your preparation for this field of study, study interests, future career plans, and other aspects of your background and interests which may aid the admissions committee in evaluating your aptitude and motivation for graduate study.
- Two Letters of Recommendation
- Letters of recommendation should be from faculty or others (supervisors, professional colleagues, etc.) qualified to evaluate your potential for graduate study. They should be written on official letterhead.
Please arrange to have the following sent to the USC Office of Admission as a hard copy (USC Graduate Office of Admission, University Park Campus, Los Angeles, CA 90089-0915):
- Official Transcript(s) from all post-secondary schools you have attended, and official translations if they are not in English.
- General GRE scores (no older than 5 years). Official scores must be sent through ETS to the University of Southern California, ETS code 4852)
- TOEFL scores (required for international students)
NOTE: If you meet our minimum qualifications, you can get started BEFORE you are formally admitted to USC, as a "LIMITED" student! Click here for more information.
For the USC Petroleum Engineering Department:
Dr. Iraj Ershaghi
USC PTE Program Director, Professor, Director of PTTC,
Executive Director of USC CiSOFT
Tel: (213) 740-0321
Fax: (213) 740-0324
Email: ershaghi@usc.edu
For the USC Distance Education Network (DEN):
Ray Fujioka
Master's and Professional Programs [MAPP]
Tel: (213) 740-4488
Fax: (213) 821-0851
Email: info@den.usc.edu
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