Gas Sweetening And Processing Field Manual
Although the processing of natural gas is in many respects less complicated than the processing and refining of crude oil, it is equally as necessary before its use by end users. The actual process used to separate oil from natural gas, as well as the equipment that is used, can vary widely. Gas Sweetening and Processing Field Manual provides engineers with the ability to Although the processing of natural gas is in many respects less complicated than the processing and refining of crude oil, it is equally as necessary before its use by end users. The actual process used to separate oil from natural gas, as well as the equipment that is used, can vary widely.
Find Gas Sweetening and Processing Field Manual by Arnold, Ken; Stewart, Maurice at Biblio. Army ocs study guide for history. Uncommonly good collectible and rare books from uncommonly. The actual process used to separate oil from natural gas, as well as the equipment that is used, can vary widely. Gas Sweetening and Processing Field Manual.
Gas Sweetening and Processing Field Manual provides engineers with the ability to understand and select the most efficient and cost effective method to fit their individual needs. Designed for engineers, technologists, and operations personnel involved in the design and operation of gas processing facilities, the book starts with an explanation of the terms and theories used throughout the industry. This is followed by clear and rigorous exposition of sweetness processes such as Solid Bed Adsorption, Chemical Solvents, Physical Solvents, Distillation, and Gas Permeation.
Exercises appear at the conclusion of each chapter with hints in addition to full solutions. Other topics include Design Procedure, Design Examples, Problems and Practical Solutions, Value of NGL Components, Liquid Recovery Process, Absorption/Lean Oil Process, Joule-Thomson, Refrigeration and Cryogenic (Expansion Turbine) Plants. Chapters involving applications cover Direct Conversion of H2S to Sulfur, Removal of H2S to Meet Pipeline Qualities, Removal of CO2 to Meet Pipeline Qualities and Selection Charts. Engineers and process designers will find this text a valuable guide to gas sweetening process and equipment, both in terms of its application to efficient and cost effective operations. It will prove particularly useful to readers who want a 'quick reference' guide to field operations and procedures as well as those readers who wish to increase their knowledge of best practices.
Rigorous exposition of all natural gas sweetness processes Equipment and process trouble-shooting techniques Tips for diagnosing and solving equipment and process problems Exercises appear at the conclusion of each chapter.
Front Cover; Gas Sweetening and Processing Field Manual; Copyright; Contents; Part 1: Gas Sweetening; Processing natural gas; Introduction; Natural Gas Processing; Oil and Condensate Removal; Water Removal; Glycol Dehydration; Solid-Desiccant Dehydration; Separation of NGLs; NGL Extraction; Absorption Method; Cryogenic Expansion Process; NGL Fractionation; Sulfur and Carbon Dioxide Removal; Gas Sweetening Plant; Acid gas considerations; Acid Gases; Sour Gas; Sweet Gas; Gas Sales Contracts Limit Concentration of Acid Compounds; CO2; H2S; Partial Pressure; NACE RP 0186; Sweetening processes. Solid bed processesGeneral Process Description; Iron Sponge Process; Application; Regeneration; Hydrate Considerations; Sulfa-Treat Process; Application; Molecular Sieve Process; Regeneration; Mechanical Degradation; Application; Zinc Oxide Process; Process; Bed Considerations; Application; Chemical solvent processes; General Process Description; Regeneration; Most Common Chemical Solvents; Amine Processes; Amine Considerations; Process Description; Methyldiethanolamine (MDEA); Monoethanolamine (MEA) Systems; General Discussion; Regeneration; Disadvantages; Reclaimer; Corrosion Considerations. Foam ConsiderationsMicro-fiber Filter Separator; Blanket Gas System; MEA Losses; Summary; Diethanolamine (DEA) Systems; General Discussion; Reclaimer; Solution Concentration and Solution Loading; Amine Losses; Diglycolamine (DGA) Systems; General Discussion; Solution Concentration and Solution Loading; Advantages; Diisopropanolamine (DIPA) Systems; General Discussion; Advantages; Methyldiethanolamine (MDEA) Systems; General Discussion; CO2/H2S Ratio; Solution Concentration and Solution Loading; Advantages; Inhibited Amine Systems; General Discussion; Hot Potassium Carbonate Systems.
General DiscussionProcess Description; Performance; Dead Spot Considerations; Corrosion Considerations; Proprietary Carbonate Systems; Specialty Batch Chemical Solvents; General Discussion; Process Description; Performance; Sulfa-Check; Concentration Considerations; Bubble Flow; Disposal of Oxidizing Solution; Physical solvent processes; General Process Description; Fluor Solvent Process; Sulfinol Process; Acid Gas Loadings; Features of the Sulfinol Process Include; Design Considerations; Foam Considerations; Factors to Consider Before Selecting a Treating Process; Selexol Process. Rectisol ProcessDirect conversion processes; General Process Description; Stretford Process; General Discussion; Process Description; IFP Process; General Discussion; Process Description; Ratio of H2S to SO2; LO-CAT; General Discussion; Process Description; Operating Considerations; Sulferox; Claus; General Discussion; Process Description; Tail Gas Treating; General Discussion; Sulfa-Check; General Discussion; Distillation process; Ryan-Holmes Distillation Process; General Discussion; Process Description; Three-Column System; Four-Column System; Two-Column System; Gas permeation process.
Membranes Summary: Although the processing of natural gas is in many respects less complicated than the processing and refining of crude oil, it is equally as necessary before its use by end users. The actual process used to separate oil from natural gas, as well as the equipment that is used, can vary widely.
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Gas Sweetening and Processing Field Manual provides engineers with the ability to understand and select the most efficient and cost effective method to fit their individual needs. Designed for engineers, technologists, and operations personnel involved in the design and operation of gas processing facilit.