04837nam 2200601Ia 450 991046201620332120200520144314.01-55563-334-X(CKB)2670000000278141(EBL)3405008(SSID)ssj0001101324(PQKBManifestationID)11985904(PQKBTitleCode)TC0001101324(PQKBWorkID)11067121(PQKB)11369699(MiAaPQ)EBC3405008(Au-PeEL)EBL3405008(CaPaEBR)ebr10619579(OCoLC)923391120(EXLCZ)99267000000027814120080816d2007 uy 0engur|n|---|||||txtccrPetroleum engineering handbook[electronic resource] Volume IVProduction operations engineering /Larry W. Lake, editor-in-chief ; Joe Dunn Clegg, editorRichardson, TX Society of Petroleum Engineers20071 online resource (909 p.)Description based upon print version of record.1-55563-118-5 Includes bibliographical references and indexes.""Foreword""; ""Preface""; ""Contents""; ""1 - Inflow and Outflow Performance""; ""1.1 The Production System""; ""1.2 Reservoir Inflow Performance""; ""1.3 Wellbore Flow Performance""; ""1.4 Flow Through Chokes""; ""1.5 Systems Analysis""; ""1.6 Summary""; ""Nomenclature""; ""SI Metric Conversion Factors""; ""2 - Completion Systems""; ""2.1 Introduction""; ""2.2 Packers""; ""2.3 Methods of Conveyance""; ""2.4 Metallurgy""; ""2.5 Elastomers""; ""2.6 ISO and API Standards""; ""2.7 Packer Rating Envelopes""; ""2.8 Flow-Control Accessories""; ""2.9 Subsurface Safety Systems""""2.10 Cased-Hole Applications""""2.11 Multilateral Completions""; ""2.12 Operational Well Modes""; ""2.13 Impact of Length and Force Changes to the Tubing String""; ""2.14 Combination Tubing/Packer Systems""; ""Nomenclature""; ""Glossary""; ""SI Metric Conversion Factors""; ""3 - Tubing Selection, Design, and Installation""; ""3.1 Introduction""; ""3.2 Oilfield Tubing""; ""3.3 API/ISO Tubing Requirements""; ""3.4 Tubing Design Factors""; ""3.5 Tubing Inspection""; ""3.6 Tubing Handling""; ""3.7 Coiled Tubing""; ""Nomenclature""; ""SI Metric Conversion Factors""; ""4 - Perforating""""4.1 Flow Path""""4.2 Definitions""; ""4.3 Perforating History""; ""4.4 Perforating Methods""; ""4.5 Basic Perforating Design�Variables of Flow Through a Perforation""; ""4.6 Temperature Effect""; ""4.7 Basic Perforating Design�What Is Necessary for the Optimum Flow Path""; ""4.8 Improving Flow Capacity""; ""4.9 Cement and Casing Damage""; ""4.10 Perforating Multiple Strings and Thick Cement""; ""4.11 Perforating for Different Stimulations""; ""4.12 Perforating in Highly Deviated Wells""; ""4.13 Perforating Equipment""; ""4.14 Limited Penetration Charges""; ""4.15 Pipe Cutoff Methods""""SI Metric Conversion Factors""""5 - Sand Control""; ""5.1 Causes of Sand Production""; ""5.2 Consequences of Sand Production""; ""5.3 Predicting Sand Production""; ""5.4 Sand-Control Techniques""; ""5.5 Gravel-Pack Design""; ""5.6 Slotted Liners and Wire-Wrapped Screens""; ""5.7 Gravel-Pack Completion Equipment and Service Tools""; ""5.8 Well Preparation for Gravel Packing""; ""5.9 Gravel Placement Techniques""; ""5.10 Prepacking the Perforations""; ""5.11 Openhole Gravel Packing""; ""5.12 Sand Control in Horizontal and Long-Throw Highly-Deviated Wells""; ""Nomenclature""""SI Metric Conversion Factors""""6 - Formation Damage""; ""6.1 Introduction""; ""6.2 Quantifying Formation Damage""; ""6.3 Determination of Flow Efficiency and Skin""; ""6.4 Formation Damage vs. Pseudodamage""; ""6.5 Drilling-Induced Formation Damage""; ""6.6 Formation Damage Caused by Completion and Workover Fluids""; ""6.7 Damage During Perforating and Cementing""; ""6.8 Formation Damage Caused by Fines Migration""; ""6.9 Formation Damage Caused by Swelling Clays""; ""6.10 Formation Damage in Injection Wells""; ""6.11 Formation Damage Resulting From Paraffins and Asphaltenes""""6.12 Formation Damage Resulting From Emulsion and Sludge Formation""Petroleum engineeringHandbooks, manuals, etcPetroleum industry and tradeElectronic books.Petroleum engineeringPetroleum industry and trade.Lake Larry W854717Clegg Joe Dunn920107Society of Petroleum Engineers (U.S.)MiAaPQMiAaPQMiAaPQBOOK9910462016203321Petroleum engineering handbook2063958UNINA