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Reflecting the changes to the all-important short circuit calculations in three-phase power systems according to IEC 60909-0 standard, this new edition of the practical guide retains its proven and unique concept of explanations, calculations and real-life examples of short circuits in electrical networks. It has also been completely revised and expanded by 20% to include the standard-compliant prevention of short circuits in electrical networks for photovoltaics and wind energy. By understanding the theory any software allows users to perform all the necessary calculations with ease so they…mehr
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Reflecting the changes to the all-important short circuit calculations in three-phase power systems according to IEC 60909-0 standard, this new edition of the practical guide retains its proven and unique concept of explanations, calculations and real-life examples of short circuits in electrical networks. It has also been completely revised and expanded by 20% to include the standard-compliant prevention of short circuits in electrical networks for photovoltaics and wind energy. By understanding the theory any software allows users to perform all the necessary calculations with ease so they can work on the design and application of low- and high-voltage power systems. This book is a practitioner's guide intended for students, electrical engineers, engineers in power technology, the electrotechnical industry, engineering consultants, energy suppliers, chemical engineers and physicists in industry.
Produktdetails
- Produktdetails
- Verlag: Wiley-VCH Verlag GmbH & Co. KGaA
- Seitenzahl: 312
- Erscheinungstermin: 10. November 2017
- Englisch
- ISBN-13: 9783527803385
- Artikelnr.: 52560812
- Verlag: Wiley-VCH Verlag GmbH & Co. KGaA
- Seitenzahl: 312
- Erscheinungstermin: 10. November 2017
- Englisch
- ISBN-13: 9783527803385
- Artikelnr.: 52560812
Ismail Kasikci is Professor at the University of Applied Sciences Biberach, Germany. His main research area is electrical energy supply, design of electrical installations of buildings, solar electricity, wind power generation, building integrated renewables, design and protection of distribution power system, smart grids, solar and wind power, connectivity requirements, focused on the IEC/EN and VDE regulations. Ismail Kasikci received his Bachelor in electrical and electronics engineering from the Technical University Darmstadt and his PhD from the University of Brunel, United Kingdom. He published 17 books in German, English and Turkish and more than 64 international scientific publications. He is a member by VDE and IEEE. He is Associated Editor of the international Journal of Power and Energy Systems by ACTA press in the States and Canada. Since 2005 he is a member of the German norm group, K221 [IEC TC 64 (VDE 0100)]. He has more than 18 years of professional experience in planning and design of electrical power systems. He plays since 1994 an active role in Turkey for educational purposes and in the regulation of IEC and EN. Within the scope of the EU Erasmus program he gives lectures at the University of Pamukkale and Ege University in the field of Electric Power Systems, Grounding and Protection.
TERMS AND DEFINITIONS Time Behavior of the Short Circuit Current Short Circuit Path in the Positive-Sequence System Classification of Short Circuit Types Methods of Short Circuit Calculation Calculating with Reference Variables GENERAL INFORMATION ABOUT IEC 60 909 THE SIGNIFICANCE OF IEC 60 909 SUPPLY NETWORKS Calculation Variables for Supply Networks Lines Supplied from a Single Source Radial Networks Ringnetworks Meshed Networks NETWORK TYPES FOR THE CALCULATION OF SHORT CIRCUIT CURRENTS Low Voltage Network Types Medium Voltage Network Types SYSTEMS UP TO 1 KV TN Systems Calculation of Fault Currents TT Systems IT Systems Transformation of the Network Types Described to Equivalent Circuit Diagrams NEUTRAL POINT TREATMENT IN THREE-PHASE NETWORKS Networks with Isolated Free Neutral Point Networks with Grounding Compensation Networks with Low Impedance Neutral Point Treatment IMPEDANCES OF THREE-PHASE OPERATIONAL EQUIPMENT Network Feed-Ins Synchronous Machines Transformers Short Circuit Current on the Secondary Side Voltage Regulating Transformers Cables and Overhead Lines Short Circuit Current Limiting Asynchronous Machines Consideration of Capacitors and Non-Rotating Loads Consideration of Static Converters IMPEDANCE CORRECTIONS Correction Factor KG for Generators Correction Factor KKW for Power Plant Block Correction Factor KT for Transformers with Two and Three Wind THE METHOD OF SYMMETRICAL COMPONENTS Symmetrical Components Impedances of Symmetrical Components CALCULATION OF SHORT CIRCUIT CURRENTS Three-Pole Short Circuits Two-Pole Short Circuits with Contact to Ground Two-Pole Short Circuit Without Contact to Ground Single-Pole Short Circuits to Ground Peak Short Circuit Current Ip Symmetrical Breaking Current Ia Steady State Short Circuit Current Ik MOTORS IN THREE-PHASE NETWORKS Short Circuits At the Terminals of Asynchronous Motors Motor Groups Supplied from Transformers with Two Windings Motor Groups Supplied from Transformers with Different Nominal Voltages MECHANICAL AND THERMAL SHORT CIRCUIT STRENGTH Mechanical Short Circuit Current Strength Thermal Short Circuit Current Strength Limitation of Short Circuit Currents CALCULATIONS FOR SHORT CIRCUIT STRENGTH Short Circuit Strength for Medium Voltage Switchgear Short Circuit Strength for Low Voltage Switchgear EQUIPMENT FOR OVERCURRENT PROTECTION Short Circuit Currents in DC Systems Resistances of Line Sections Current Converters Batteries Capacitors DC Motors PROGRAMS FOR THE CALCULATION OF SHORT CIRCUIT CURRENTS EXAMPLES: CALCULATION OF SHORT CIRCUIT CURRENTS Example 1: Radial Network Example 2: Proof of Protective Measures Example 3: Connection Box to Service Panel Example 4: Transformers in Parallel Example 5: Connection of a Motor Example 6: Calculation for a Load Circuit Example 7: Calculation for An Industrial System Example 8: Calculation of Three-Pole Short Circuit Current and Peak Short Circuit Current Example 9: Meshed Network Example 10: Supply to a Factory Example 11: Calculation with Impedance Corrections Example 12: Connection of a Transformer Through An External Network and a Generator Example 13: Motors in Parallel and Their Contributions to the Short Circuit Current Example 14: Proof of the Stability of Low Voltage Systems Example 15: Proof of the Stability of Medium and High Voltage Systems Example 16: Calculation for Short Circuit Currents with Impedance Corrections Example 17: Calculation with Per-Unit Magnitudes
TERMS AND DEFINITIONS Time Behavior of the Short Circuit Current Short Circuit Path in the Positive-Sequence System Classification of Short Circuit Types Methods of Short Circuit Calculation Calculating with Reference Variables GENERAL INFORMATION ABOUT IEC 60 909 THE SIGNIFICANCE OF IEC 60 909 SUPPLY NETWORKS Calculation Variables for Supply Networks Lines Supplied from a Single Source Radial Networks Ringnetworks Meshed Networks NETWORK TYPES FOR THE CALCULATION OF SHORT CIRCUIT CURRENTS Low Voltage Network Types Medium Voltage Network Types SYSTEMS UP TO 1 KV TN Systems Calculation of Fault Currents TT Systems IT Systems Transformation of the Network Types Described to Equivalent Circuit Diagrams NEUTRAL POINT TREATMENT IN THREE-PHASE NETWORKS Networks with Isolated Free Neutral Point Networks with Grounding Compensation Networks with Low Impedance Neutral Point Treatment IMPEDANCES OF THREE-PHASE OPERATIONAL EQUIPMENT Network Feed-Ins Synchronous Machines Transformers Short Circuit Current on the Secondary Side Voltage Regulating Transformers Cables and Overhead Lines Short Circuit Current Limiting Asynchronous Machines Consideration of Capacitors and Non-Rotating Loads Consideration of Static Converters IMPEDANCE CORRECTIONS Correction Factor KG for Generators Correction Factor KKW for Power Plant Block Correction Factor KT for Transformers with Two and Three Wind THE METHOD OF SYMMETRICAL COMPONENTS Symmetrical Components Impedances of Symmetrical Components CALCULATION OF SHORT CIRCUIT CURRENTS Three-Pole Short Circuits Two-Pole Short Circuits with Contact to Ground Two-Pole Short Circuit Without Contact to Ground Single-Pole Short Circuits to Ground Peak Short Circuit Current Ip Symmetrical Breaking Current Ia Steady State Short Circuit Current Ik MOTORS IN THREE-PHASE NETWORKS Short Circuits At the Terminals of Asynchronous Motors Motor Groups Supplied from Transformers with Two Windings Motor Groups Supplied from Transformers with Different Nominal Voltages MECHANICAL AND THERMAL SHORT CIRCUIT STRENGTH Mechanical Short Circuit Current Strength Thermal Short Circuit Current Strength Limitation of Short Circuit Currents CALCULATIONS FOR SHORT CIRCUIT STRENGTH Short Circuit Strength for Medium Voltage Switchgear Short Circuit Strength for Low Voltage Switchgear EQUIPMENT FOR OVERCURRENT PROTECTION Short Circuit Currents in DC Systems Resistances of Line Sections Current Converters Batteries Capacitors DC Motors PROGRAMS FOR THE CALCULATION OF SHORT CIRCUIT CURRENTS EXAMPLES: CALCULATION OF SHORT CIRCUIT CURRENTS Example 1: Radial Network Example 2: Proof of Protective Measures Example 3: Connection Box to Service Panel Example 4: Transformers in Parallel Example 5: Connection of a Motor Example 6: Calculation for a Load Circuit Example 7: Calculation for An Industrial System Example 8: Calculation of Three-Pole Short Circuit Current and Peak Short Circuit Current Example 9: Meshed Network Example 10: Supply to a Factory Example 11: Calculation with Impedance Corrections Example 12: Connection of a Transformer Through An External Network and a Generator Example 13: Motors in Parallel and Their Contributions to the Short Circuit Current Example 14: Proof of the Stability of Low Voltage Systems Example 15: Proof of the Stability of Medium and High Voltage Systems Example 16: Calculation for Short Circuit Currents with Impedance Corrections Example 17: Calculation with Per-Unit Magnitudes