Gas Processing Handbook |link| (2024)

Without this handbook, engineers would rely on scattered vendor data or outdated textbooks. The Gas Processing Handbook provides a unified, peer-reviewed standard.

Every process calculation begins here. This section covers:

| Contaminant | Removal Method | Handbook Focus | | :--- | :--- | :--- | | | Amine gas treating (MEA, DEA, MDEA, formulated amines) | Solvent selection, circulation rate calculation, reboiler duty, corrosion control. | | Carbon Dioxide (CO₂) | Membrane separation, pressure swing adsorption (PSA), or amines | Selectivity trade-offs, methane slip, permeate recycle. | | Water Vapor (H₂O) | Glycol dehydration (TEG) or molecular sieves | Dew point depression charts, glycol regeneration stripping gas, BTEX emissions. | | Mercury (Hg) | Sulfur-impregnated carbon beds | Safety thresholds (0.01 µg/Nm³ for aluminum heat exchangers), spent bed disposal. | gas processing handbook

In the modern energy landscape, natural gas is often referred to as the "bridge fuel" connecting a carbon-intensive past to a renewable future. However, the gas that emerges from the wellhead is rarely ready for pipeline transmission or domestic use. It is a complex mixture of hydrocarbons, water vapor, hydrogen sulfide, carbon dioxide, and other contaminants.

: Utilizing membranes for selective gas separation. Without this handbook, engineers would rely on scattered

The is the silent partner in every natural gas plant—whether onshore in the Permian Basin, offshore in the North Sea, or a floating LNG facility. It distills decades of operational experience, thermodynamic science, and safety engineering into actionable knowledge.

Environmental regulations drive this section. This section covers: | Contaminant | Removal Method

Modern gas processing involves several distinct stages, each addressing specific chemical or physical requirements.

This is often the most dog-eared section of any physical handbook.