Gas Processing Fundamentals

Overview:

Introduction:

Gas processing involves the separation, purification, and treatment of raw natural gas to remove impurities and extract valuable components. It ensures the production of marketable gas and by-products such as natural gas liquids (NGLs). This training program covers the principles of gas processing, including gas treatment methods and key engineering considerations. It aligns with industry standards for natural gas conditioning, separation, and purification.

Program Objectives:

By the end of this program, participants will be able to:

• Explore the fundamental principles of natural gas processing and composition.

• Identify gas-liquid separation methodologies and system components.

• Discover key challenges in gas dehydration, mercury removal, and hydrate formation.

• Analyze the operational parameters influencing NGL recovery and hydrocarbon separation.

• Identify the principles of acid gas removal and gas sweetening processes.

Targeted Audience:

• Process Engineers.

• Petroleum and Production Engineers.

• Field Operators and Technicians.

• Company Staff in Gas Treatment and Processing.

• Managers and Government Officials Supervising Gas Processing Operations.

• Managers Planning or Developing Gas Processing Facilities.

Program Outline:

Unit 1:

Introduction to Natural Gas Processing:

• Fundamental principles of natural gas processing.

• Key engineering properties of natural gas.

• Overview on natural gas composition and phase behavior.

• Classification techniques of gas impurities and contaminants.

• Industry standards for gas processing.

Unit 2:

Gas-Liquid Separation Systems:

• Principles of gas-liquid separation.

• Types and design methods of separation systems.

• Process variables including pressure, temperature, flow, and level.

• Overview on instrumentation and measurement in gas processing.

• Control valves and actuators used in separation systems.

Unit 3:

Mercury Removal, Hydrate Formation, and Dehydration:

• Mercury contamination methods in natural gas and removal processes.

• Hydrate formation conditions and risk factors.

• Hydrate prevention and mitigation strategies.

• Water content estimation methods in gas streams.

• Overview on dehydration technologies and industry applications.

Unit 4:

Gas Dehydration, NGL Recovery, and Heavy Hydrocarbon Removal:

• Glycol dehydration principles and process mechanisms.

• Performance factors influencing TEG dehydration units.

• Troubleshooting and operational challenges in dehydration.

• Heavy hydrocarbon removal techniques.

• NGL recovery methods using LTS and turbo-expander systems.

Unit 5:

Sweetening Systems:

• Acid gas removal methods for H₂S and CO₂.

• Gas sweetening technologies and process selection.

• Membrane-based sweetening systems and performance factors.

• Risk management and safety considerations in gas processing.

• Problem-solving approaches in process optimization.