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.