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Course Criteria
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3.00 Credits
(3:3:0) Prerequisites: 3.50 GPA, consent of instructor, department approval. Least squares, solving first and second order partial differential equations; backward, central, forward difference solutions, matrix, Gaussian, Adams, Rung-Kutta solutions.
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3.00 Credits
(3:3:0) Prerequisites: 3.50 GPA, consent of instructor, department approval. Inflow performance relationships, well design, theory of the reservoir flow, flow restrictions, completion effects, multiphase phase flow, and use of computer programs for complex solutions.
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3.00 Credits
(3:3:0) Prerequisites: PETR 4303, 4407, 3.50 GPA, and consent of department. Topics include why horizontal, incremental cost, historical prospective, drilling change, completion modification, production difference, reservoir aspects, pressure transient, and analysis adjustment.
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3.00 Credits
(3:3:0) Prerequisites: PETR 4303, 3.50 GPA, and consent of department. Advanced study of production operations, well deliverability, inflow performance, gas lift design, production system analysis and optimization, downhole equipment and surface facilities design.
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3.00 Credits
(3:3:0) Prerequisites: 3.50 GPA, consent of instructor, department approval. Casing string plan; Tubing String plan. Inflow-tubing-and Flowline performance Relationships. Skin calculations for gravel pack, perforation completion, and formation damage. Nodal analysis of well flow. Acid stimulation¿matrix, wormhole, cavity and fractured. Borehole extension by hydraulic fracturing, abrasive/jet perforation with CT-unit, fish-bone type multilateral drain holes.
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3.00 Credits
(3:3:0) Prerequisites: 3.50 GPA, consent of instructor, department approval. Design of processing, transportation, distribution, and flow measurement systems; gas storage reservoirs, flow in porous media, tubing, and pipelines; phase behavior of gas condensates; and coal bed methane.
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3.00 Credits
(3:3:0) Prerequisites: 3.50 GPA, consent of instructor, department approval. Introduction to CFD software (simulator), OLGATM. Multi-phase flow vertical, inclined, horizontal conduits. Transient multiphase pipeline flow analysis. Comparison of CFD-steady-state flow and Empirical correlations for vertical and horizontal flows. Multiphase flow metering. Slug flow analysis in pipeline. Concept of flow assurance..
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3.00 Credits
(3:3:0) Prerequisites: 3.50 GPA, consent of instructor, department approval. Recovery prediction, tensor permeabilities, multiphase flow, drainage equations, flow potential, streamline-streamtube methods, injectivity, displacements in layered reservoirs, and line source solutions.
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3.00 Credits
(3:3:0) Prerequisites: 3.50 GPA, consent of instructor, department approval. Physics of petroleum reservoirs, unified mathematics approach to porous media, conservation equations, multiphase flow, transient analysis, wettability, capillary, imbibitions, and saturation paths.
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3.00 Credits
(3:3:0) Prerequisites: 3.50 GPA, consent of instructor, department approval. Advanced PVT and EOS characterization, tuning EOS by regression, gas condensate reservoirs, use of laboratory experiments and correlation to obtain PVT data, psuedoization and use of PVT programs.
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