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200 14$aThe Fundamentals of Corrosion and Scaling for Petroleum & Environmental Engineers$b[electronic resource]
210   $aBurlington $cElsevier Science$d2013
215   $a1 online resource (253 p.)
300   $aDescription based upon print version of record.
311   $a1-306-13460-9 
311   $a1-933762-30-6 
327   $aFront Cover; The Planning Guide to Piping Design; Copyright Page; Dedication; Table of Contents; Foreword; Preface; List of Figures; List of Tables; CHAPTER 1. Before You Begin; 1.1 Introduction; 1.2 Standards; 1.3 Specifications; 1.4 Procedures; 1.5 Piping Execution Plan; 1.6 Conclusion; CHAPTER 2. Procedures; 2.1 Introduction; 2.2 Master Stick Files, Working Copies, and Inter-discipline Drawing Reviews (IDR); 2.3 Vendor Drawing Reviews; 2.4 Line Numbering; 2.5 Stress Analysis; 2.6 Model Reviews; 2.7 Checking; 2.8 Manhour Estimating and Manpower Planning; CHAPTER 3. Deliverables
327   $a3.1 Introduction3.2 Deliverables; CHAPTER 4. Detailed Design; 4.1 Introduction; 4.2 Contracting and Procurement Plan and Construction Execution Plan; 4.3 Modularized and Field Erected Piping Splits and CWP Boundaries; 4.4 Model Boundaries; 4.5 Shop and Field Material Splits; 4.6 Procurement Splits; 4.7 Issued For Bid and Bid Evaluations; 4.8 Equipment Coordinates and Elevations; 4.9 Module Design; 4.10 Module Numbering; 4.11 Drafting Practice; 4.12 Holds; 4.13 Project Binders and Lists; 4.14 Managing Standard Drawings; 4.15 Project Meetings; 4.16 Progress Monitoring
327   $a4.17 Design Change Notice (DCN)4.18 Field Change Notice (FCN); 4.19 Request For Information (RFI); CHAPTER 5. Shop Fabrication; 5.1 Introduction; 5.2 Kick-off Meetings; 5.3 Scopes of Work (SOW); 5.4 Instruction to the Fabricator; 5.5 Requests For Information (RFI); 5.6 Visits with the Fabricators; 5.7 Automatic Spool Generation; 5.8 Conclusion; CHAPTER 6. Field Construction; 6.1 Introduction; 6.2 Support From the Home Office; 6.3 Support in the Field; 6.4 Lessons Learned; 6.5 Safety; APPENDIX A: Abbreviations; Index
330   $aScale, or deposits, can build up in the wellbore tubulars and other downhole components, causing considerabledamage to the life of the well. Infrastructure provides the support for the wells system and with oil andgas consumption on the rise and transportation required to feed that demand, all petroleum and pipelineengineers must have accurate corrosion and scaling information. The Fundamentals of Corrosion and Scalingfor Petroleum and Environmental Engineers will provide the quick knowledge that engineers need to not onlyenhance the reliability of corrosion and scale contr
606   $aCorrosion and anti-corrosives
606   $aOil fields -- Equipment and supplies -- Corrosion
606   $aOil fields
606   $aOil fields$xEquipment and supplies$xCorrosion
606   $aCorrosion and anti-corrosives
606   $aMechanical Engineering$2HILCC
606   $aEngineering & Applied Sciences$2HILCC
606   $aMetallurgy & Mineralogy$2HILCC
615  4$aCorrosion and anti-corrosives.
615  4$aOil fields -- Equipment and supplies -- Corrosion.
615  4$aOil fields.
615  0$aOil fields$xEquipment and supplies$xCorrosion
615  0$aCorrosion and anti-corrosives
615  7$aMechanical Engineering
615  7$aEngineering & Applied Sciences
615  7$aMetallurgy & Mineralogy
676   $a622
676   $a622.33820284
676   $a622/.33820284
700   $aChilingar$b George V$0952803
701   $aMourhatch$b Ryan$0952804
701   $aAl-Qahtani$b Alzazi$0952805
801  0$bAU-PeEL
801  1$bAU-PeEL
801  2$bAU-PeEL
906   $aBOOK
912   $a996205197703316
996   $aThe Fundamentals of Corrosion and Scaling for Petroleum & Environmental Engineers$92154103
997   $aUNISA

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200 10$aSurface production operations$hVol. 2$iDesign of gas-     handling systems and facilities /$fKen Arnold, Maurice Stewart
205   $a2nd ed.
210   $aBurlington, Mass. $cElsevier$d1999, c1989
215   $a1 online resource (585 p.)
225 0 $aSurface production operations ;$v2
300   $aDescription based upon print version of record.
311   $a0-88415-822-5 
320   $aIncludes bibliographical index.
327   $aFront Cover; Surface Production Operations; Copyright Page; Contents; Acknowledgments; Preface; Chapter 1. Overview of Gas-Handling Facilities; Chapter 2. Heat Transfer Theory; Mechanisms of Heat Transfer; Process Heat Duty; Chapter 3. Heat Exchangers; Heat Exchangers; Shell-and-Hube Exchangers; Double-Pipe Exchangers; Plate-and-Frame Exchangers; Aerial Coolers; Fired Heater; Heat Recovery Units; Heat Exchanger Example Problem; Chapter 4. Hydrates; Determination of Hydrate Formation Temperature or Pressure; Condensation of Water Vapor; Temperature Drop Due to Gas Expansion
327   $aThermodynamic InhibitorsKinetic Inhibitors and Anti-Agglomerators; Chapter 5. LTX Units and Line Heaters; LTX Units; Line Heaters; Heat Duty; Fire-Tuibe Size; Coil Sizing; Standard Size Line Heaters; Line Heater Design Example Problem; Chapter 6. Condensate Stabilization; Partial Pressures; Multistage Separation; Multiple Flashes at Constant Pressure and Increasing Temperature; Cold Feed Distillation Tower; Distillation Tower with Reflux; Condensate Stabilizer Design; Trays and Packing; Condensate Stabilizer as a Gas Processing Plant; LTX Unit as a Condensate Stabilizer
327   $aChapter 7. Acid Gas TreatingGas Sweetening Processes; Process Selection; Design Procedures for Iron-Sponge Units; Design Procedures for Amine Systems; Example Problems; Chapter 8. Gas Dehydration; Water Content Determination; Glycol Dehydration; Glycol Dehydration Example; Solid Bed Dehydration; Dry Desiccant Design Example; Chapter 9. Gas Processing; Absorption/Lean Oil; Refrigeration; Choice of Process; Chapter 10. Compressors; Types of Compressors; Specifying a Compressor; Reciprocating Compressors-Process Considerations; Centrifugal Compressors-Surge Control and Stonewalling
327   $aCentrifugal Compressors Process ConsiderationsChapter 11. Reciprocating Compressors; Components; Cylinder Sizing; Rod Load; Cooling and Lubrication Systems; Pipe Sizing Considerations; Example Problem; Chapter 12. Mechanical Design of Pressure Vessels; Design Considerations; Inspection Procedures; Estimating Vessel Weights; Specification and Design of Pressure Vessels; Example Problem; Chapter 13. Pressure Relief; Relief Requirements; Type of Devices; Valve Sizing; Installation; Example Problems; Chapter 14. Safety Systems; Hazard Tree; Developing a Safe Process; Primary Defense
327   $aFailure Mode Effect Analysis-FMEAModified FMEA Approach; API Recommended Practice 14C; Manual Emergency Shutdown; Annunciation Systems; Function Matrix and Function Charts; Symbols; Hazards Analysis; Safety Management Systems; Safety Case and Individual Risk Rate; Chapter 15. Valves, Fittings, and Piping Details; Valve Types; Chokes; Piping Design Considerations; General Piping Design Details; Miscellaneous Piping Design Details; Chapter 16. Prime Movers; Reciprocating Engines; Gas Turbine Engines; Environmental Considerations; Chapter 17. Electrical Systems; Sources of Power
327   $aPower System Design
330   $aThis revised edition puts the most current information about gas-handling systems and facilities at your fingertips. The authors channeled their classroom and field experience into this volume, which features many new sections such as:* Heat recovery units* Kinetic inhibitors and anti-agglomerators* Trays and packing for distillation and absorption towers* Compressor valves* Foundation design considerations for reciprocating compressors* Pressure vessel issues and components * Nox reduction in engines and turbines* Safety management systemsThis book
517 3 $aDesign of gas-handling systems and facilities
606   $aNatural gas$xEquipment and supplies
606   $aGas wells$xEquipment and supplies
615  0$aNatural gas$xEquipment and supplies.
615  0$aGas wells$xEquipment and supplies.
676   $a665.5 21
676   $a665.7
700   $aArnold$b Ken$f1942-$01822332
701   $aStewart$b Maurice$0858236
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906   $aBOOK
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996   $aSurface production operations$94389297
997   $aUNINA