Transmission Pipeline Calculations and Simulations Manual
Auteur : Menon E. Shashi
Part One: Gas and Petroleum Data TablesPart Two: Gas Pipelines1. Gas properties. 2. Pressure drop formulas. 3. Heat transfer between gas and surrounding medium. Joule-Thompson effect. 4. Size pipelines for specified throughput and pressures. Calculate MAOP and Hydrotest Pressures. 5. Calculate the locations and HP of compressor stations on long distance pipelines. 6. Pressure and temperature profile of natural gas pipelines. 7. Determine the line pack volume in gas pipelines. 8. Model gas pipelines with multiple compressor stations. Part Three: Liquids and Petroleum Pipelines 9. Liquid properties. 10. Liquid pressure versus liquid head.11. Pressure drop formulas. 12. Effect of Drag Reduction Agent in improving pipeline flow rate. 13. Batching different products in a pipeline. 14. Sizing pipelines for specified flow rate and pressure limitations.15. The optimum location of pump stations for hydraulic balance on long distance pipelines. 16. Calculate the horsepower required at each pump station for given throughput. 17. Centrifugal pumps.
Pipeline engineers, pipeline construction engineers, project managers, maintenance engineers, contractors, supervisors, inspectors, operators, equipment suppliers, inspection and quality engineers, pipeline design engineers
- Case studies are based on the author’s personal field experiences
- Component to system level coverage
- Save time and money designing pipe routes well
- Design and verify piping systems before going to the field
- Increase design accuracy and systems effectiveness
Date de parution : 01-2015
Ouvrage de 612 p.
15x22.8 cm
Thèmes de Transmission Pipeline Calculations and Simulations Manual :
Mots-clés :
Adiabatic process; Affinity laws; ASME 31.4; ASME 31.8; Axial stress; Barlow's equation; Base units; Batches; Batching; Brake HP; Buried pipes; Capital costs; Centrifugal pumps; Class locations; Codes; Colebrook-White; Compressibility factor; Compression ratio; Compressor stations; Compressor versus loops; Constant speed; Density; Derived units; Discharge coefficients; Discharge temperature; DOT 192; DOT 195; DRA; Economic analyses; Energy equation; Equivalent diameter; Equivalent length; Flow measurements; Flow meters; Flow nozzle; Flow regimes; Friction factor; Frictional heating; Gravity; Gravity effect; Heat transfer coefficient; Hoop stress; HP required; Hydraulic balance; Hydraulic horsepower (HP); Isothermal flow; Isothermal process; Line fill; Line pack; Locating pumps; Loops; Maintenance costs; MAOP; Mass; Material grade; Minor losses; Motor HP; NPSH; Optimum pipe size; Orifice meter; Parallel compressors; Parallel pipes; Parallel pumps; PD pumps; Pipeline expansion; Polytropic process; Present value; Pressure; Pressure drop equations; Pressure gradient; Pressure limitation; Pump stations; Reynolds number; Series compressors; Series pipes; Series pumps; Standards; Station location; Stress; Tariff calculations; Thermal conductivities; Thermal effects; Thermal flow; Transmission factor; Transportation costs; Valves; Vapor pressure; Variable speed; Velocity; venturi meters; venturi tubes; Viscosity; Viscosity effect; Volume