Practical Onshore Gas Field Engineering
Auteur : Simpson David
Practical Onshore Gas Field Engineering delivers the necessary framework to help engineers understand the needs of the reservoir, including sections on early transmission and during the life of the well. Written from a reservoir perspective, this reference includes methods and equipment from gas reservoirs, covering the gathering stage at the gas facility for transportation and processing. Loaded with real-world case studies and examples, the book offers a variety of different types of gas fields that demonstrate how surface systems can work through each scenario. Users will gain an increased understanding of today?s gas system aspects, along with tactics on how to optimize bottom line revenue.
As reservoir and production engineers face many challenges in getting gas from the reservoir to the final sales point, especially as a result of the shale boom, a new demand for more facility engineers now exists in the market. This book addresses new challenges in the market and brings new tactics to the forefront.
Reservoir engineers; completion engineers; facilities engineers; natural gas plant managers
- Presents the full lifecycle of the gas surface facility, from reservoir to gathering and transmission
- Helps users gain experience through case studies that explain successes and failures on a variety of gas fields, including unconventional and shale
- Teaches how the surface gas facility system and equipment work individually, and as an integrated system
Date de parution : 07-2017
Ouvrage de 680 p.
15x22.8 cm
Thèmes de Practical Onshore Gas Field Engineering :
Mots-clés :
AGA fully turbulent gas flow equation; API gravity; Acid gas removal; Arch report; Beneficial use of produced water; Bidding; CBM plan of depletion; Cementing; Coal seam gas (CSG); Coalbed methane (CBM); Completions; Compressible flow; Compression ratios; Compressor capacity control; Compressor efficiency; Construction equipment; Conventional gas; Corrosion; Corrosion control; Credible scenarios; Cryogenic expansion; Deep well injection; Dehydration; Deliquification; Ditch; Drawings; Drilling; Dynamic compressor; D'Arcy Weisbach equation; EPC; Eductor; Ejector; Energy balance; Environmental assessment; Evaporation pond; Fluid friction; Gas equation of state; Gas measurement; Gas rate prediction; Hydraulic fracture stimulation (frac'ing); Hydrocarbon traps; Incompressible flow of a compressible fluid; Industrial cooling using produced water; Inspection; Isothermal gas flow equation; Lean oil absorption; Lease vs buy analysis; Liquid in gas systems; Liquid measurement; Logging; Logging while drilling; Major project results; Mass balance; Mud; NGL extraction; Nodal analysis; OCTG; Oil flooded screw compressor; Oil injected screw compressor; Oilfield units; Original gas in place (OGIP); Permeability; Pipe materials; Pipeline obstructions; Piping design code; Piping materials; Porosity; Positive displacement compressor; Pressure continuum; Pressure gradient; Pressure safety devices; Process control; Process safety management; Produced water; Produced water for irrigation; Produced water for wildlife; Production vessels; Purging air from a gas line; Reciprocating compressor; Reservoir fluids; Reservoir focus; Reservoir pressure; Reverse osmosis; Risk; Risk density; Safety plan; Scale; Separator configuration; Separator selection; Separator sizing; Specific gravity; Standard temperature and pressure (STP); Static testing; Sulfur removal; Supply chain management; Thermocompressor; Threatened and endangered species; Tight gas; Unconventional gas; Vacuum operations
