Handbook of large turbo-generator operation and maintenance

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Bibliographische Detailangaben
Hauptverfasser:	Klempner, Geoff (VerfasserIn), Kerszenbaum, Isidor (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Hoboken, New Jersey John Wiley and Sons, Inc. [2018]
Ausgabe:	Third edition
Schriftenreihe:	Wiley-IEEE Press
Schlagworte:	Turbogenerators TECHNOLOGY & ENGINEERING / Mechanical Turbogenerator
Online-Zugang:	DE-1050
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505	8		\|a Handbook of Large Turbo-Generator Operation and Maintenance; Contents; Preface; Acknowledgments; Part I: Theory, Construction, and Operation; Chapter 1: Principles of Operation of Synchronous Machines; 1.1 Introduction to Basic Notions on Electric Power; 1.1.1 Magnetism and Electromagnetism; 1.1.2 Electricity; 1.2 Electrical-Mechanical Equivalence; 1.3 Alternating Current (ac); 1.4 Three-Phase Circuits; 1.5 Basic Principles of Machine Operation; 1.5.1 Faraday's Law of Electromagnetic Induction; 1.5.2 Ampere-Biot-Savart's Law of Electromagnetic-Induced Forces
505	8		\|a 1.5.3 Lenz's Law of Action and Reaction1.5.4 Electromechanical Energy Conversion; 1.6 The Synchronous Machine; 1.6.1 Background; 1.6.2 Principles of Construction; 1.6.3 Rotor Windings; 1.6.4 Stator Windings; 1.7 Basic Operation of the Synchronous Machine; 1.7.1 No-Load Operation; 1.7.2 Motor Operation; 1.7.3 Generator Operation; 1.7.4 Equivalent Circuit; 1.7.5 Machine Losses; Additional Reading; Chapter 2: Generator Design and Construction; 2.1 Stator Core; 2.1.1 General Construction Features; 2.1.2 Insulated versus Noninsulated Cores; 2.1.3 Cores Built with Consolidated ''Donutś́
505	8		\|a 2.1.4 Robotic versus Hand Core Stacking2.1.5 Core Stacking Pressure and Tightness; 2.2 Stator Frame; 2.2.1 General Construction Features; 2.2.2 Caged Core Design; 2.2.3 Grounding of Stator Frames; 2.3 Flux and Armature Reaction; 2.4 Electromagnetics; 2.5 End-Region Effects and Flux Shielding; 2.5.1 Stator Core-End Copper Flux Shields/Screens; 2.5.2 Stator Core-End Flux Shunts; 2.5.3 Combination Stator Core-End Flux Screens and Flux Shunts; 2.5.4 Stator Core-End Packet Stepping; 2.5.5 Stator Core-End Tooth Slitting; 2.5.6 Keybar Shorting Straps; 2.6 Stator Core and Frame Forces
505	8		\|a 2.7 Stator Windings2.7.1 Stator Winding Configuration and Installation Overview; 2.7.2 Overview of Stator Winding Design Considerations; 2.7.3 Fundamental Concepts; 2.7.4 Winding Structure; 2.7.5 Winding Specific Layouts; 2.7.6 Basic Formulae; 2.7.7 Conductor Bar Construction; 2.8 Stator Winding Wedges; 2.9 End-Winding Support Systems; 2.10 Stator Terminal Connections; 2.11 Rotor Forging; 2.12 Rotor Winding; 2.13 Rotor Winding Slot Wedges; 2.14 Amortisseur (Damper) Winding; 2.15 Retaining Rings; 2.16 Bore Copper and Terminal Connectors; 2.17 Slip/Collector Rings and Brush Gear
505	8		\|a 2.18 Rotor Couplings2.19 Rotor Turning Gear; 2.20 Bearings; 2.21 Air and Hydrogen Cooling; 2.21.1 Basic Cooling Arrangements; 2.22 Rotor Fans; 2.23 Hydrogen Containment; 2.23.1 Journal-Type Hydrogen Seals; 2.23.2 Thrust Collar-Type Hydrogen Seals; 2.24 Hydrogen Coolers; 2.25 Air Coolers; 2.26 Water-Cooled Rotors; References; Chapter 3: Generator Auxiliary Systems; 3.1 Lube-Oil System; 3.2 Hydrogen Cooling System; 3.3 Seal-Oil System; 3.4 Stator Cooling Water System; 3.4.1 System Components; 3.4.2 Stator Cooling Water Chemistry; 3.4.3 Stator Cooling Water System Conditions; 3.5 Exciter Systems
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Datensatz im Suchindex

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author	Klempner, Geoff Kerszenbaum, Isidor
author_facet	Klempner, Geoff Kerszenbaum, Isidor
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contents	Handbook of Large Turbo-Generator Operation and Maintenance; Contents; Preface; Acknowledgments; Part I: Theory, Construction, and Operation; Chapter 1: Principles of Operation of Synchronous Machines; 1.1 Introduction to Basic Notions on Electric Power; 1.1.1 Magnetism and Electromagnetism; 1.1.2 Electricity; 1.2 Electrical-Mechanical Equivalence; 1.3 Alternating Current (ac); 1.4 Three-Phase Circuits; 1.5 Basic Principles of Machine Operation; 1.5.1 Faraday's Law of Electromagnetic Induction; 1.5.2 Ampere-Biot-Savart's Law of Electromagnetic-Induced Forces 1.5.3 Lenz's Law of Action and Reaction1.5.4 Electromechanical Energy Conversion; 1.6 The Synchronous Machine; 1.6.1 Background; 1.6.2 Principles of Construction; 1.6.3 Rotor Windings; 1.6.4 Stator Windings; 1.7 Basic Operation of the Synchronous Machine; 1.7.1 No-Load Operation; 1.7.2 Motor Operation; 1.7.3 Generator Operation; 1.7.4 Equivalent Circuit; 1.7.5 Machine Losses; Additional Reading; Chapter 2: Generator Design and Construction; 2.1 Stator Core; 2.1.1 General Construction Features; 2.1.2 Insulated versus Noninsulated Cores; 2.1.3 Cores Built with Consolidated ''Donutś́ 2.1.4 Robotic versus Hand Core Stacking2.1.5 Core Stacking Pressure and Tightness; 2.2 Stator Frame; 2.2.1 General Construction Features; 2.2.2 Caged Core Design; 2.2.3 Grounding of Stator Frames; 2.3 Flux and Armature Reaction; 2.4 Electromagnetics; 2.5 End-Region Effects and Flux Shielding; 2.5.1 Stator Core-End Copper Flux Shields/Screens; 2.5.2 Stator Core-End Flux Shunts; 2.5.3 Combination Stator Core-End Flux Screens and Flux Shunts; 2.5.4 Stator Core-End Packet Stepping; 2.5.5 Stator Core-End Tooth Slitting; 2.5.6 Keybar Shorting Straps; 2.6 Stator Core and Frame Forces 2.7 Stator Windings2.7.1 Stator Winding Configuration and Installation Overview; 2.7.2 Overview of Stator Winding Design Considerations; 2.7.3 Fundamental Concepts; 2.7.4 Winding Structure; 2.7.5 Winding Specific Layouts; 2.7.6 Basic Formulae; 2.7.7 Conductor Bar Construction; 2.8 Stator Winding Wedges; 2.9 End-Winding Support Systems; 2.10 Stator Terminal Connections; 2.11 Rotor Forging; 2.12 Rotor Winding; 2.13 Rotor Winding Slot Wedges; 2.14 Amortisseur (Damper) Winding; 2.15 Retaining Rings; 2.16 Bore Copper and Terminal Connectors; 2.17 Slip/Collector Rings and Brush Gear 2.18 Rotor Couplings2.19 Rotor Turning Gear; 2.20 Bearings; 2.21 Air and Hydrogen Cooling; 2.21.1 Basic Cooling Arrangements; 2.22 Rotor Fans; 2.23 Hydrogen Containment; 2.23.1 Journal-Type Hydrogen Seals; 2.23.2 Thrust Collar-Type Hydrogen Seals; 2.24 Hydrogen Coolers; 2.25 Air Coolers; 2.26 Water-Cooled Rotors; References; Chapter 3: Generator Auxiliary Systems; 3.1 Lube-Oil System; 3.2 Hydrogen Cooling System; 3.3 Seal-Oil System; 3.4 Stator Cooling Water System; 3.4.1 System Components; 3.4.2 Stator Cooling Water Chemistry; 3.4.3 Stator Cooling Water System Conditions; 3.5 Exciter Systems
ctrlnum	(OCoLC)1045873392 (DE-599)BVBBV045095929
discipline	Elektrotechnik / Elektronik / Nachrichtentechnik
edition	Third edition
format	Electronic eBook
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series2	Wiley-IEEE Press
spelling	Klempner, Geoff Verfasser aut Handbook of large turbo-generator operation and maintenance Geoff Klempner, Isidor Kerszenbaum Third edition Hoboken, New Jersey John Wiley and Sons, Inc. [2018] 1 Online-Ressource txt rdacontent c rdamedia cr rdacarrier Wiley-IEEE Press Handbook of Large Turbo-Generator Operation and Maintenance; Contents; Preface; Acknowledgments; Part I: Theory, Construction, and Operation; Chapter 1: Principles of Operation of Synchronous Machines; 1.1 Introduction to Basic Notions on Electric Power; 1.1.1 Magnetism and Electromagnetism; 1.1.2 Electricity; 1.2 Electrical-Mechanical Equivalence; 1.3 Alternating Current (ac); 1.4 Three-Phase Circuits; 1.5 Basic Principles of Machine Operation; 1.5.1 Faraday's Law of Electromagnetic Induction; 1.5.2 Ampere-Biot-Savart's Law of Electromagnetic-Induced Forces 1.5.3 Lenz's Law of Action and Reaction1.5.4 Electromechanical Energy Conversion; 1.6 The Synchronous Machine; 1.6.1 Background; 1.6.2 Principles of Construction; 1.6.3 Rotor Windings; 1.6.4 Stator Windings; 1.7 Basic Operation of the Synchronous Machine; 1.7.1 No-Load Operation; 1.7.2 Motor Operation; 1.7.3 Generator Operation; 1.7.4 Equivalent Circuit; 1.7.5 Machine Losses; Additional Reading; Chapter 2: Generator Design and Construction; 2.1 Stator Core; 2.1.1 General Construction Features; 2.1.2 Insulated versus Noninsulated Cores; 2.1.3 Cores Built with Consolidated ''Donutś́ 2.1.4 Robotic versus Hand Core Stacking2.1.5 Core Stacking Pressure and Tightness; 2.2 Stator Frame; 2.2.1 General Construction Features; 2.2.2 Caged Core Design; 2.2.3 Grounding of Stator Frames; 2.3 Flux and Armature Reaction; 2.4 Electromagnetics; 2.5 End-Region Effects and Flux Shielding; 2.5.1 Stator Core-End Copper Flux Shields/Screens; 2.5.2 Stator Core-End Flux Shunts; 2.5.3 Combination Stator Core-End Flux Screens and Flux Shunts; 2.5.4 Stator Core-End Packet Stepping; 2.5.5 Stator Core-End Tooth Slitting; 2.5.6 Keybar Shorting Straps; 2.6 Stator Core and Frame Forces 2.7 Stator Windings2.7.1 Stator Winding Configuration and Installation Overview; 2.7.2 Overview of Stator Winding Design Considerations; 2.7.3 Fundamental Concepts; 2.7.4 Winding Structure; 2.7.5 Winding Specific Layouts; 2.7.6 Basic Formulae; 2.7.7 Conductor Bar Construction; 2.8 Stator Winding Wedges; 2.9 End-Winding Support Systems; 2.10 Stator Terminal Connections; 2.11 Rotor Forging; 2.12 Rotor Winding; 2.13 Rotor Winding Slot Wedges; 2.14 Amortisseur (Damper) Winding; 2.15 Retaining Rings; 2.16 Bore Copper and Terminal Connectors; 2.17 Slip/Collector Rings and Brush Gear 2.18 Rotor Couplings2.19 Rotor Turning Gear; 2.20 Bearings; 2.21 Air and Hydrogen Cooling; 2.21.1 Basic Cooling Arrangements; 2.22 Rotor Fans; 2.23 Hydrogen Containment; 2.23.1 Journal-Type Hydrogen Seals; 2.23.2 Thrust Collar-Type Hydrogen Seals; 2.24 Hydrogen Coolers; 2.25 Air Coolers; 2.26 Water-Cooled Rotors; References; Chapter 3: Generator Auxiliary Systems; 3.1 Lube-Oil System; 3.2 Hydrogen Cooling System; 3.3 Seal-Oil System; 3.4 Stator Cooling Water System; 3.4.1 System Components; 3.4.2 Stator Cooling Water Chemistry; 3.4.3 Stator Cooling Water System Conditions; 3.5 Exciter Systems Turbogenerators TECHNOLOGY & ENGINEERING / Mechanical bisacsh Turbogenerator (DE-588)4186463-3 gnd rswk-swf Turbogenerator (DE-588)4186463-3 s 1\p DE-604 Kerszenbaum, Isidor Verfasser aut Erscheint auch als Online-Ausgabe 978-1-119-39068-8 Erscheint auch als Druck-Ausgabe, Cloth 978-1-119-38976-7 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Klempner, Geoff Kerszenbaum, Isidor Handbook of large turbo-generator operation and maintenance Handbook of Large Turbo-Generator Operation and Maintenance; Contents; Preface; Acknowledgments; Part I: Theory, Construction, and Operation; Chapter 1: Principles of Operation of Synchronous Machines; 1.1 Introduction to Basic Notions on Electric Power; 1.1.1 Magnetism and Electromagnetism; 1.1.2 Electricity; 1.2 Electrical-Mechanical Equivalence; 1.3 Alternating Current (ac); 1.4 Three-Phase Circuits; 1.5 Basic Principles of Machine Operation; 1.5.1 Faraday's Law of Electromagnetic Induction; 1.5.2 Ampere-Biot-Savart's Law of Electromagnetic-Induced Forces 1.5.3 Lenz's Law of Action and Reaction1.5.4 Electromechanical Energy Conversion; 1.6 The Synchronous Machine; 1.6.1 Background; 1.6.2 Principles of Construction; 1.6.3 Rotor Windings; 1.6.4 Stator Windings; 1.7 Basic Operation of the Synchronous Machine; 1.7.1 No-Load Operation; 1.7.2 Motor Operation; 1.7.3 Generator Operation; 1.7.4 Equivalent Circuit; 1.7.5 Machine Losses; Additional Reading; Chapter 2: Generator Design and Construction; 2.1 Stator Core; 2.1.1 General Construction Features; 2.1.2 Insulated versus Noninsulated Cores; 2.1.3 Cores Built with Consolidated ''Donutś́ 2.1.4 Robotic versus Hand Core Stacking2.1.5 Core Stacking Pressure and Tightness; 2.2 Stator Frame; 2.2.1 General Construction Features; 2.2.2 Caged Core Design; 2.2.3 Grounding of Stator Frames; 2.3 Flux and Armature Reaction; 2.4 Electromagnetics; 2.5 End-Region Effects and Flux Shielding; 2.5.1 Stator Core-End Copper Flux Shields/Screens; 2.5.2 Stator Core-End Flux Shunts; 2.5.3 Combination Stator Core-End Flux Screens and Flux Shunts; 2.5.4 Stator Core-End Packet Stepping; 2.5.5 Stator Core-End Tooth Slitting; 2.5.6 Keybar Shorting Straps; 2.6 Stator Core and Frame Forces 2.7 Stator Windings2.7.1 Stator Winding Configuration and Installation Overview; 2.7.2 Overview of Stator Winding Design Considerations; 2.7.3 Fundamental Concepts; 2.7.4 Winding Structure; 2.7.5 Winding Specific Layouts; 2.7.6 Basic Formulae; 2.7.7 Conductor Bar Construction; 2.8 Stator Winding Wedges; 2.9 End-Winding Support Systems; 2.10 Stator Terminal Connections; 2.11 Rotor Forging; 2.12 Rotor Winding; 2.13 Rotor Winding Slot Wedges; 2.14 Amortisseur (Damper) Winding; 2.15 Retaining Rings; 2.16 Bore Copper and Terminal Connectors; 2.17 Slip/Collector Rings and Brush Gear 2.18 Rotor Couplings2.19 Rotor Turning Gear; 2.20 Bearings; 2.21 Air and Hydrogen Cooling; 2.21.1 Basic Cooling Arrangements; 2.22 Rotor Fans; 2.23 Hydrogen Containment; 2.23.1 Journal-Type Hydrogen Seals; 2.23.2 Thrust Collar-Type Hydrogen Seals; 2.24 Hydrogen Coolers; 2.25 Air Coolers; 2.26 Water-Cooled Rotors; References; Chapter 3: Generator Auxiliary Systems; 3.1 Lube-Oil System; 3.2 Hydrogen Cooling System; 3.3 Seal-Oil System; 3.4 Stator Cooling Water System; 3.4.1 System Components; 3.4.2 Stator Cooling Water Chemistry; 3.4.3 Stator Cooling Water System Conditions; 3.5 Exciter Systems Turbogenerators TECHNOLOGY & ENGINEERING / Mechanical bisacsh Turbogenerator (DE-588)4186463-3 gnd
subject_GND	(DE-588)4186463-3
title	Handbook of large turbo-generator operation and maintenance
title_auth	Handbook of large turbo-generator operation and maintenance
title_exact_search	Handbook of large turbo-generator operation and maintenance
title_full	Handbook of large turbo-generator operation and maintenance Geoff Klempner, Isidor Kerszenbaum
title_fullStr	Handbook of large turbo-generator operation and maintenance Geoff Klempner, Isidor Kerszenbaum
title_full_unstemmed	Handbook of large turbo-generator operation and maintenance Geoff Klempner, Isidor Kerszenbaum
title_short	Handbook of large turbo-generator operation and maintenance
title_sort	handbook of large turbo generator operation and maintenance
topic	Turbogenerators TECHNOLOGY & ENGINEERING / Mechanical bisacsh Turbogenerator (DE-588)4186463-3 gnd
topic_facet	Turbogenerators TECHNOLOGY & ENGINEERING / Mechanical Turbogenerator
work_keys_str_mv	AT klempnergeoff handbookoflargeturbogeneratoroperationandmaintenance AT kerszenbaumisidor handbookoflargeturbogeneratoroperationandmaintenance

Handbook of large turbo-generator operation and maintenance

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