Practical Power System Protection
Date: 06 May 2011, 20:11
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Plant operators, electricians, field technicians and engineers will gain a practical understanding of the role and workings of power system protection systems from this work. An understanding of power systems and their optimized management will increase plant efficiency and performance as well as increasing safety levels. This book provides both the underpinning knowledge and basic calculations needed to understand, specify, use and maintain power protection systems, and the practical techniques required on a daily basis. After studying this book you will have an excellent knowledge of the principles of protection. You will also have a better understanding of the possible problems likely to arise in day-to-day work with power protection systems. Key areas of knowledge and expertise developed will include: * Fundamentals of electrical power protection and applications * Different fault types * Perform simple fault and design calculations * Practical knowledge of protection system components * Apply relay settings * Improve the safety of your site with the knowledge gained * Increase plant efficiency, performance and safety levels by developing your understanding of power system protection * Gain a practical knowledge of the engineering challenges of power system protection: fault types, component types, relay settings, etc. * Coverage includes both the fundamentals and the basic fault and design calculations needed to specify, use and maintain power protection systems Review "...gives the reader a working knowledge to understand how many of today's protection systems operate." - IEEE Electrical Insulation Magazine, 2006 Contents Preface 1 Need for protection 1.1 Need for protective apparatus 1.2 Basic requirements of protection 1.3 Basic components of protection 1.4 Summary 2 Faults, types and effects 2.1 The development of simple distribution systems 2.2 Fault types and their effects 3 Simple calculation of short-circuit currents 3.1 Introduction 3.2 Revision of basic formulae 3.3 Calculation of short-circuit MVA 3.4 Useful formulae 3.5 Cable information 3.6 Copper conductors 4 System earthing 4.1 Introduction 4.2 Earthing devices 4.3 Evaluation of earthing methods 4.4 Effect of electric shock on human beings 5 Fuses 5.1 Historical 5.2 Rewireable type 5.3 Cartridge type 5.4 Operating characteristics 5.5 British standard 88:1952 5.6 Energy 'let through' 5.7 Application of selection of fuses 5.8 General 'rules of thumb' 5.9 Special types 5.10 General 5.11 IS-limiter 6 Instrument transformers 6.1 Purpose 6.2 Basic theory of operation 6.3 Voltage transformers 6.4 Current transformers 6.5 Application of current transformers 6.6 Introducing relays 6.7 Inverse definite minimum time lag (IDMTL) relay 7 Circuit breakers 7.1 Introduction 7.2 Protective relay-circuit breaker combination 7.3 Purpose of circuit breakers (switchgear) 7.4 Behavior under fault conditions 7.5 Arc 7.6 Types of circuit breakers 7.7 Comparison of breaker types 8 Tripping batteries 8.1 Tripping batteries 8.2 Construction of battery chargers 8.3 Maintenance guide 8.4 Trip circuit supervision 8.5 Reasons why breakers and contactors fail to trip 8.6 Capacity storage trip units 9 Relays 9.1 Introduction 9.2 Principle of the construction and operation of the electromechanical IDMTL relay 9.3 Factors influencing choice of plug setting 9.4 The new era in protection - microprocessor vs electronic vs traditional 9.5 Universal microprocessor overcurrent relay 9.6 Technical features of a modern microprocessor relay 9.7 Type testing of static relays 9.8 The future of protection for distribution systems 9.9 The era of the IED 9.10 Substation automation 9.11 Communication capability 10 Coordination by time grading 10.1 Protection design parameters on medium- and low-voltage networks 10.2 Sensitive earth fault protection 11 Low-voltage networks 11.1 Introduction 11.2 Air circuit breakers 11.3 Moulded case circuit breakers 11.4 Application and selective coordination 11.5 Earth leakage protection 12 Mine underground distribution protection 12.1 General 12.2 Earth-leakage protection 12.3 Pilot wire monitor 12.4 Earth fault lockout 12.5 Neutral earthing resistor monitor (NERM) 13 Principles of unit protection 13.1 Protective relay systems 13.2 Main or unit protection 13.3 Back-up protection 13.4 Methods of obtaining selectivity 13.5 Differential protection 13.6 Transformer differential protection 13.7 Switchgear differential protection 13.8 Feeder pilot-wire protection 13.9 Time taken to clear faults 13.10 Recommended unit protection systems 13.11 Advantages of unit protection 14 Feeder protection cable feeders and overhead lines 14.1 Introduction 14.2 Translay 14.3 Solkor protection 14.4 Distance protection 15 Transformer protection 15.1 Winding polarity 15.2 Transformer connections 15.3 Transformer magnetizing characteristics 15.4 In-rush current 15.5 Neutral earthing 15.6 On-load tap changers 15.7 Mismatch of current transformers 15.8 Types of faults 15.9 Differential protection 15.10 Restricted earth fault 15.11 HV overcurrent 15.12 Buchholz protection 15.13 Overloading 16 Switchgear (busbar) protection 16.1 Importance of busbars 16.2 Busbar protection 16.3 The requirements for good protection 16.4 Busbar protection types 17 Motor protection relays 17.1 Introduction 17.2 Early motor protection relays 17.3 Steady-state temperature rise 17.4 Thermal time constant 17.5 Motor current during start and stall conditions 17.6 Stalling of motors 17.7 Unbalanced supply voltages 17.8 Determination of sequence currents 17.9 Derating due to unbalanced currents 17.10 Electrical faults in stator windings earth faults phase-phase faults 17.11 General 17.12 Typical protective settings for motors 18 Generator protection 18.1 Introduction 18.2 Stator earthing and earth faults 18.3 Overload protection 18.4 Overcurrent protection 18.5 Overvoltage protection 18.6 Unbalanced loading 18.7 Rotor faults 18.8 Reverse power 18.9 Loss of excitation 18.10 Loss of synchronization 18.11 Field suppression 18.12 Industrial generator protection 18.13 Numerical relays 18.14 Parallel operation with grid 19 Management of protection 19.1 Management of protection 19.2 Schedule A 19.3 Schedule B 19.4 Test sheets Index PassWord: www.freebookspot.com
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