code | PR03 |
ST Date | End Date | venue | fees | request |
---|---|---|---|---|
21/4/2018 | 25/4/2018 | Shenzhen | call us | |
25/8/2018 | 29/8/2018 | Hong Kong | call us | |
21/10/2018 | 25/10/2018 | Shenzhen | call us |
Course Outline:
Ø Gas Reservoirs Types and Phase Diagram
§ Composition of Natural Gas
§ Phase Behavior
§ The Ideal Gas
§ Boyle's Law.
Ø Properties of Natural Gases.
§ Properties of Gaseous Mixtures
§ Behavior of Real Gases
§ Compressibility of Natural Gases
§ Viscosity of Natural Gases
§ Gas Formation Volume Factor and Expansion Factor
§ Water Vapor Content of Natural Gas
§ Two-Phase Systems
Ø Gas Reservoir Performance.
§ Gas Reservoirs
§ Calculating Gas in Place by Volumetric Method
§ Calculation of Unit Recovery from Volumetric Gas Reservoirs
§ Production Decline Curves
§ Gas Field Development
§ Deliverability
§ Predicting Reservoir Performance
§ Optimum Development Patterns
Ø Gas Well Performance
Ø Static and Flowing Bottom-Hole Pressure
Ø Static Bottom-Hole Pressure
Ø Flowing Bottom-Hole Pressure.
Ø Gas Condensate Reservoirs.
§ Vapor-Liquid Equilibrium's
§ Gas-Condensate Testing and Sampling
§ Condensate System Behavior in The Single-Phase Region in
§ The Two-Phase Region
§ Reservoir Performance Prediction.
Ø Deliverability Testing of Gas Wells.
§ Horizontal Flow Equations
§ Non-Darcy Flow
§ Gas Well Deliverability Tests
§ Better Method for Analyzing Isochronal Test Data
§ Jons – Blount - Glanze Method
§ European Method
Ø Transient Testing of Gas Wells
§ Transient Flow of Real Gases Through Porous Media
§ The Constant Terminal Rate Solution
§ Application of Real Gas Flow Equation
§ Average Reservoir Pressure.
Ø Separation Optimization.
§ Separation and Processing
§ Introduction
§ Gas and Liquid Separation
§ Dehydration of Natural Gas.
Accommodation
Ø Accommodation is not included in course fees
Ø Accommodation can be arranged by at the time of booking.