ENHANCED OIL RECOVERY PROCESSES



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ENHANCED OIL RECOVERY PROCESSES Miscible, Chemical, and Thermal Instructor Dr. Maria A. Barrufet Petroleum Engineering Department Texas A&M University e-mail: maria.barrufet@pe.tamu.edu Contact Information: 979.845.0314 Office: Rooms 407B Richardson Building Office Hours: By appointment and Chat Hour TBD Course Description: Fundamentals and theory of enhanced oil recovery; polymer flooding, surfactant flooding, miscible gas flooding and steam flooding; application of fractional flow theory; strategies and displacement performance calculations. Prerequisites: PETE 323. ADMINISTRATIVE PROCEDURES Class Schedule TBD Grading: Your final grade in PETE 609 is based on your individual performance and your participation as a team member. All students are expected to participate in class. Your participation is important to the success of the course as much of the learning will occur in collaboration with your classmates. The homework assignments and threaded discussions are ways you can demonstrate you have mastered lesson objectives, and will help prepare you for the exam. All assignments should be completed on schedule. The following is the grading policy GRADING SUMMARY PETE 609 Assessment Paper Reviews 10% Participation & Homework 10% Mid-Term Examination TBA 40% Final Project Written Report @ Oral Presentation 40% Percentage GUIDELINES FOR PAPER REVIEW

2 It should take no more than one page to summarize a typical paper. Some papers may require more; use your own judgment. Learn to be concise and to state briefly the essential ideas communicated. USUAL ORGANIZATION OF A REVIEW (adapted from Dr. John Lee) Authors, title. Use the SPE standard reference style. (You can find it in the SPE Guide to Publications, which is on the web at http://www.spe.org) Problem. Briefly, describe the problem the authors are trying to solve. Solution. Describe the solution the authors propose. Did they propose a specific method to recover additional oil, do they discuss data required, limitations, do they analyze performance? What is it? Value. Describe the value of the authors solution to the petroleum industry. Conclusions. Describe the conclusions the authors reached as a result of their analysis Approach. Describe what the authors did to validate their proposed solution. Limitations. List the limitations of the work. Is it applicable to only a certain type of reservoir or field? Application. How would you apply the knowledge provided in this paper? Critique. What questions did the authors leave unanswered? What could the authors have done to make the paper better? OBJECTIVES FOR REVIEWING PAPERS IN THIS CLASS To learn how to learn from papers (harder than textbooks, but more important in the long run) To learn how to identify the really important ideas in papers To learn how to summarize ideas concisely To learn how engineers with vastly different points of view think and how they approach problems and their solutions ACCESSING AND DOWNLOADING PAPERS Students on campus: Go to library.tamu.edu Search for SPE. Click the link to SPE. Look for your ID and Password in the lower part of the page. Follow the instructions for logging into the SPE library. If/when the password changes, the change will be posted on the library s SPE link. Distance-learning students: Log into My Portal on the library.tamu.edu Web site using your NetIDs (the same ID and password you use for WebCT). Any student can use My Portal to access the TAMU library---and the SPE library---from anywhere. In My Portal, you can set up My Journals so you do not have to search for SPE every time. All you have to do is click the book icon next to the link; this works for all the resources in the library. Once you link to SPE, it works the same as on campus.

3 Academic Integrity Syllabus Statement An Aggie does not lie, cheat, or steal or tolerate those who do. All syllabi shall contain a section that states the Aggie Honor Code and refers the student to the Honor Council Rules and Procedures on the web http://www.tamu.edu/aggiehonor It is further recommended that instructors print the following on assignments and examinations: On my honor, as an Aggie, I have neither given nor received unauthorized aid on this academic work. Signature of Student Americans with Disabilities Act (ADA) Policy Statement The following ADA Policy Statement (part of the Policy on Individual Disabling Conditions) was submitted to the UCC by the Department of Student Life. The policy statement was forwarded to the Faculty Senate for information. The Americans with Disabilities Act (ADA) is a federal antidiscrimination statue that provides comprehensive civil rights protection for persons with disabilities. Among other things, this legislation requires that all students with disabilities be guaranteed a learning environment that provides for reasonable accommodation of their disabilities. If you believe that you have a disability requiring an accommodation, please contact the Department of Student Life, Services for Students with Disabilities in Room 126 of the Koldus Building, or call 845-1637.

4 Course Contents General Module 1: General EOR - Reservoir Engineering Course Overview Definition of Reserves Environmental and Economics Aspects of EOR Methods Displacement Fundamentals Reservoir Engineering Concepts for EOR Introduction to Enhanced Oil Recovery Methods (EOR) Factors Affecting Oil Recovery Comparative Performance of Different EOR Methods Screening Criteria and Technical Constraints Definitions: Mobility Ratios, Sweeping Efficiencies, Recovery Efficiencies, Trapped Oil Saturation Phase Behavior and Fluid Properties Suggested Reading [1] : L, MAB [1] key for references at the end of the syllabus Module: 2 Miscible Processes General Overview of Solvent Methods Phase Behavior Fundamentals from: Pressure/Temperature and Pressure/Composition Diagrams Quantitative Representation of Phase Equilibria Processes: Gas Injection and Production Ternary Diagrams to Represent Gas Injection Processes: Miscible and Immiscible Processes Mechanisms of Oil Displacement. Diffusion and Dispersion Hydrocarbon Miscible Displacement First Contact Miscible Processes The Condensing-Gas Process The Vaporizing-Gas Process Minimum Miscibility Pressure (MMP) Carbon Dioxide Flooding Dissipation in Miscible Displacements Instability Phenomena (viscous fingering) Simulation Models as Reservoir Management Tools. Suggested Reading: L, S, MAB, R8, R18, AC, SPE Module 3: Chemical and Polymer Flooding Fractional Flow Theory Dissipation in Immiscible Displacements Applications of Fractional Flow in Oil Recovery Calculations Homogeneous Reservoirs: Buckley-Leverett. One-dimensional displacement Layered Reservoirs: Styles, Dykstra-Parsons and Johnson Methods. Improved Waterflooding Processes: Polymer Flooding Rheology of Polymer Solutions Polymer Adsorption and Retention Micellar-Polymer or Microemulsion Flooding Properties of Surfactants and Cosurfactants Surfactant-Brine-Oil Phase Behavior Performance Evaluation Determination of Residual Oil Saturation-Tracers Laboratory Tests for Chemical Floods

5 Suggested Reading: L, D, MAB, R24, AC, SPE Module 4: Thermal Processes Steam Injection Processes Cyclic and Continuous Steam Injection Thermal Properties of Fluids and Solids Steam Properties: Flow Rate and Quality Measurements. Temperature Effect on Reservoir and Fluid Properties Viscosity Reduction Thermal Expansion Oil Characterization for Thermal Reservoir Simulation Evaluation of Heat Losses Prediction of Steam Flood Performance Cyclic Steam Performance: Marx-Langenheim model. Steamflood Performance: Gomaa s Method. Correlations. Suggested Reading: MAB, MP, SPE Key to Main References: AC = Applied Enhanced Oil Recovery, Aurel Carcoana (1992) Prentice Hall D = Fundamentals of Reservoir Engineering, L. P. Dake (1978) - Elsevier IOCC = Improved Oil Recovery, Interstate Oil Compact Commission MAB = Class notes from Maria Antonieta Barrufet MP = Thermal Recovery, Michael Pratts, SPE Monograph #7 L = Enhanced Oil Recovery, Larry Lake (1989) Prentice Hall R8 = SPE Reprints No 8, Miscible Processes R18 = SPE Reprint No 18, Miscible Flooding R24 = SPE Reprints No 24 (I, and II), Surfactant/Polymer Chemical Flooding S = Miscible Displacement, Stalkup SPE Monograph #8 SPE = Various SPE papers to be announced

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