Wiley India Pvt. Ltd, 2011. Softcover. New. Static reactive power compensators have evolved into a mature technology over the past two decades, becoming an integral part of modern elect… Plus…
Wiley India Pvt. Ltd, 2011. Softcover. New. Static reactive power compensators have evolved into a mature technology over the past two decades, becoming an integral part of modern electrical power systems. They are one of the key devices in flexible AC transmission systems (FACTS). Coordination of static compensators with other controllable FACTS devices promises, in addition to tremendously enhanced power system controllability, the extension of power transfer capability of existing transmission corridors to near their thermal capacities, thus curtailing or certainly delaying the need to invest in new transmission facilities. Introduction. · Background. · Electrical Transmission Networks. · Conventional Control Mechanisms. · Flexible ac Transmission Systems (FACTS). · Emerging Transmission Networks. Reactor-Power Control in Electrical Power Transmission Systems. · Reacrive Power. · Uncompensated Transmission Lines. · Passive Compensation. · Summary. Principles of Conventional Reactive-Power Compensators. · Introduction. · Synchronous Condensers. · The Saturated Reactor (SR). · The Thyristor-Controlled Reactor (TCR). · The Thyristor-Controlled Transformer (TCT). · The Fixed Capacitor-Thyristor-Controlled Reactor (FC-TCR). · The Mechanically Switched Capacitor-Thristor-Controlled Reactor (MSC-TCR). · The Thyristor-Switched capacitor and Reactor. · The Thyristor-Switched capacitor-Thyristor-Controlled Reactor (TSC-TCR). · A Comparison of Different SVCs. · Summary. SVC Control Components and Models. · Introduction · Measurement Systems. · The Voltage Regulator. · Gate-Pulse Generation. · The Synchronizing System. · Additional Control and Protection Functions. · Modeling of SVC for Power-System Studies. · Summary. Concepts of SVC Voltage Control. · Introduction · Voltage Control. · Effect of Network Resonances on the Controller Response. · The 2nd Harmonic Interaction Between the SVC and ac Network. · Application of the SVC to Series-Compensated ac Systems. · 3rd Harmonic Distortion. · Voltage-Controlled Design Studies. · Summary. Applications. · Introduction. · Increase in Steady-State Power-Transfer Capacity. · Enhancement of Transient Stability. · Augmentation of Power-System Damping. · SVC Mitigation of Subsychronous Resonance (SSR). · Prevention of Voltage Instability. · Improvement of HVDC Link Performance. · Summary. The Thyristor-Controlled SeriesCapacitor (TCSC). · Series Compensation. · The TCSC Controller. · Operation of the TCSC. · The TSSC. · Analysis of the TCSC. · Capability Characteristics. · Harmonic Performance. · Losses. · Response of the TCSC. · Modeling of the TCSC. · Summary. TCSC Applications. · Introduction. · Open-Loop Control. · Closed-Loop Control. · Improvement of the System-Stability Limit. · Enhancement of System Damping. · Subsynchronous Resonanace (SSR) Mitigation. · Voltage-Collapse Prevention. · TCSC Installations. · Summary. Coordination of FACTS Controllers. · Introduction · Controller Interactions. · SVC-SVC Interaction. · SVC-HVDC Interaction. · SVC-TCSC Interaction. · TCSC-TCSC Interaction. · Performance Criteria for Damping-Controller Design. · Coordination of Multiple Controllers Using Linear-Control Techniques. · Coordination of Multiple Controllers using Nonlinear-Control Techniques. · Summary. Emerging FACTS Controllers. · Introduction. · The STATCOM. · THE SSSC. · The UPFC. · Comparative Evaluation of Different FACTS Controllers. · Future Direction of FACTS Technology. · Summary. Appendix A. Design of an SVC Voltage Regulator. Appendix B. Transient-Stability Enhancement in a Midpoint SVC-Compensated SMIB System. Appendix C. Approximate Multimodal decomposition Method for the Design of FACTS Controllers. Appendix D. FACTS Terms and Definitions. Index. Printed Pages: 528., Wiley India Pvt. Ltd, 2011, 6<
Wiley India Pvt. Ltd, 2011. Softcover. New. Static reactive power compensators have evolved into a mature technology over the past two decades, becoming an integral part of modern elect… Plus…
Wiley India Pvt. Ltd, 2011. Softcover. New. Static reactive power compensators have evolved into a mature technology over the past two decades, becoming an integral part of modern electrical power systems. They are one of the key devices in flexible AC transmission systems (FACTS). Coordination of static compensators with other controllable FACTS devices promises, in addition to tremendously enhanced power system controllability, the extension of power transfer capability of existing transmission corridors to near their thermal capacities, thus curtailing or certainly delaying the need to invest in new transmission facilities. Introduction. · Background. · Electrical Transmission Networks. · Conventional Control Mechanisms. · Flexible ac Transmission Systems (FACTS). · Emerging Transmission Networks. Reactor-Power Control in Electrical Power Transmission Systems. · Reacrive Power. · Uncompensated Transmission Lines. · Passive Compensation. · Summary. Principles of Conventional Reactive-Power Compensators. · Introduction. · Synchronous Condensers. · The Saturated Reactor (SR). · The Thyristor-Controlled Reactor (TCR). · The Thyristor-Controlled Transformer (TCT). · The Fixed Capacitor-Thyristor-Controlled Reactor (FC-TCR). · The Mechanically Switched Capacitor-Thristor-Controlled Reactor (MSC-TCR). · The Thyristor-Switched capacitor and Reactor. · The Thyristor-Switched capacitor-Thyristor-Controlled Reactor (TSC-TCR). · A Comparison of Different SVCs. · Summary. SVC Control Components and Models. · Introduction · Measurement Systems. · The Voltage Regulator. · Gate-Pulse Generation. · The Synchronizing System. · Additional Control and Protection Functions. · Modeling of SVC for Power-System Studies. · Summary. Concepts of SVC Voltage Control. · Introduction · Voltage Control. · Effect of Network Resonances on the Controller Response. · The 2nd Harmonic Interaction Between the SVC and ac Network. · Application of the SVC to Series-Compensated ac Systems. · 3rd Harmonic Distortion. · Voltage-Controlled Design Studies. · Summary. Applications. · Introduction. · Increase in Steady-State Power-Transfer Capacity. · Enhancement of Transient Stability. · Augmentation of Power-System Damping. · SVC Mitigation of Subsychronous Resonance (SSR). · Prevention of Voltage Instability. · Improvement of HVDC Link Performance. · Summary. The Thyristor-Controlled SeriesCapacitor (TCSC). · Series Compensation. · The TCSC Controller. · Operation of the TCSC. · The TSSC. · Analysis of the TCSC. · Capability Characteristics. · Harmonic Performance. · Losses. · Response of the TCSC. · Modeling of the TCSC. · Summary. TCSC Applications. · Introduction. · Open-Loop Control. · Closed-Loop Control. · Improvement of the System-Stability Limit. · Enhancement of System Damping. · Subsynchronous Resonanace (SSR) Mitigation. · Voltage-Collapse Prevention. · TCSC Installations. · Summary. Coordination of FACTS Controllers. · Introduction · Controller Interactions. · SVC-SVC Interaction. · SVC-HVDC Interaction. · SVC-TCSC Interaction. · TCSC-TCSC Interaction. · Performance Criteria for Damping-Controller Design. · Coordination of Multiple Controllers Using Linear-Control Techniques. · Coordination of Multiple Controllers using Nonlinear-Control Techniques. · Summary. Emerging FACTS Controllers. · Introduction. · The STATCOM. · THE SSSC. · The UPFC. · Comparative Evaluation of Different FACTS Controllers. · Future Direction of FACTS Technology. · Summary. Appendix A. Design of an SVC Voltage Regulator. Appendix B. Transient-Stability Enhancement in a Midpoint SVC-Compensated SMIB System. Appendix C. Approximate Multimodal decomposition Method for the Design of FACTS Controllers. Appendix D. FACTS Terms and Definitions. Index. Printed Pages: 528., Wiley India Pvt. Ltd, 2011<
Wiley India Pvt. Ltd, 2011. Softcover. New. Static reactive power compensators have evolved into a mature technology over the past two decades, becoming an integral part of modern elect… Plus…
Wiley India Pvt. Ltd, 2011. Softcover. New. Static reactive power compensators have evolved into a mature technology over the past two decades, becoming an integral part of modern electrical power systems. They are one of the key devices in flexible AC transmission systems (FACTS). Coordination of static compensators with other controllable FACTS devices promises, in addition to tremendously enhanced power system controllability, the extension of power transfer capability of existing transmission corridors to near their thermal capacities, thus curtailing or certainly delaying the need to invest in new transmission facilities. Introduction. · Background. · Electrical Transmission Networks. · Conventional Control Mechanisms. · Flexible ac Transmission Systems (FACTS). · Emerging Transmission Networks. Reactor-Power Control in Electrical Power Transmission Systems. · Reacrive Power. · Uncompensated Transmission Lines. · Passive Compensation. · Summary. Principles of Conventional Reactive-Power Compensators. · Introduction. · Synchronous Condensers. · The Saturated Reactor (SR). · The Thyristor-Controlled Reactor (TCR). · The Thyristor-Controlled Transformer (TCT). · The Fixed Capacitor-Thyristor-Controlled Reactor (FC-TCR). · The Mechanically Switched Capacitor-Thristor-Controlled Reactor (MSC-TCR). · The Thyristor-Switched capacitor and Reactor. · The Thyristor-Switched capacitor-Thyristor-Controlled Reactor (TSC-TCR). · A Comparison of Different SVCs. · Summary. SVC Control Components and Models. · Introduction · Measurement Systems. · The Voltage Regulator. · Gate-Pulse Generation. · The Synchronizing System. · Additional Control and Protection Functions. · Modeling of SVC for Power-System Studies. · Summary. Concepts of SVC Voltage Control. · Introduction · Voltage Control. · Effect of Network Resonances on the Controller Response. · The 2nd Harmonic Interaction Between the SVC and ac Network. · Application of the SVC to Series-Compensated ac Systems. · 3rd Harmonic Distortion. · Voltage-Controlled Design Studies. · Summary. Applications. · Introduction. · Increase in Steady-State Power-Transfer Capacity. · Enhancement of Transient Stability. · Augmentation of Power-System Damping. · SVC Mitigation of Subsychronous Resonance (SSR). · Prevention of Voltage Instability. · Improvement of HVDC Link Performance. · Summary. The Thyristor-Controlled SeriesCapacitor (TCSC). · Series Compensation. · The TCSC Controller. · Operation of the TCSC. · The TSSC. · Analysis of the TCSC. · Capability Characteristics. · Harmonic Performance. · Losses. · Response of the TCSC. · Modeling of the TCSC. · Summary. TCSC Applications. · Introduction. · Open-Loop Control. · Closed-Loop Control. · Improvement of the System-Stability Limit. · Enhancement of System Damping. · Subsynchronous Resonanace (SSR) Mitigation. · Voltage-Collapse Prevention. · TCSC Installations. · Summary. Coordination of FACTS Controllers. · Introduction · Controller Interactions. · SVC-SVC Interaction. · SVC-HVDC Interaction. · SVC-TCSC Interaction. · TCSC-TCSC Interaction. · Performance Criteria for Damping-Controller Design. · Coordination of Multiple Controllers Using Linear-Control Techniques. · Coordination of Multiple Controllers using Nonlinear-Control Techniques. · Summary. Emerging FACTS Controllers. · Introduction. · The STATCOM. · THE SSSC. · The UPFC. · Comparative Evaluation of Different FACTS Controllers. · Future Direction of FACTS Technology. · Summary. Appendix A. Design of an SVC Voltage Regulator. Appendix B. Transient-Stability Enhancement in a Midpoint SVC-Compensated SMIB System. Appendix C. Approximate Multimodal decomposition Method for the Design of FACTS Controllers. Appendix D. FACTS Terms and Definitions. Index. Printed Pages: 528. NA, Wiley India Pvt. Ltd, 2011<
Wiley. Paperback. New. Despite the importance of this technology in the electrical power industry, there is a lack of appropriate texts, and none published in recent years. Recognizing … Plus…
Wiley. Paperback. New. Despite the importance of this technology in the electrical power industry, there is a lack of appropriate texts, and none published in recent years. Recognizing the potential advantages of static reactive power compensators and their value to power utilities, universities are beginning to offer courses at the graduate/undergraduate level., Wiley, 6, Wiley. Paperback. New. Despite the importance of this technology in the electrical power industry, there is a lack of appropriate texts, and none published in recent years. Recognizing the potential advantages of static reactive power compensators and their value to power utilities, universities are beginning to offer courses at the graduate/undergraduate level. Thyristor-Based FACTS Controllers for Electrical Transmission Systems: R. Mohan Mathur, Rajiv K. Varma POWER ELECTRONICS, Wiley, 6<
[EAN: 9788126532247], Neubuch, [PU: Wiley], THYRISTOR-BASED FACTS CONTROLLERS FOR ELECTRICAL TRANSMISSION SYSTEMS: R. MOHAN MATHUR, RAJIV K. VARMA POWER ELECTRONICS, Despite the importanc… Plus…
[EAN: 9788126532247], Neubuch, [PU: Wiley], THYRISTOR-BASED FACTS CONTROLLERS FOR ELECTRICAL TRANSMISSION SYSTEMS: R. MOHAN MATHUR, RAJIV K. VARMA POWER ELECTRONICS, Despite the importance of this technology in the electrical power industry, there is a lack of appropriate texts, and none published in recent years. Recognizing the potential advantages of static reactive power compensators and their value to power utilities, universities are beginning to offer courses at the graduate/undergraduate level.<
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Wiley India Pvt. Ltd, 2011. Softcover. New. Static reactive power compensators have evolved into a mature technology over the past two decades, becoming an integral part of modern elect… Plus…
Wiley India Pvt. Ltd, 2011. Softcover. New. Static reactive power compensators have evolved into a mature technology over the past two decades, becoming an integral part of modern electrical power systems. They are one of the key devices in flexible AC transmission systems (FACTS). Coordination of static compensators with other controllable FACTS devices promises, in addition to tremendously enhanced power system controllability, the extension of power transfer capability of existing transmission corridors to near their thermal capacities, thus curtailing or certainly delaying the need to invest in new transmission facilities. Introduction. · Background. · Electrical Transmission Networks. · Conventional Control Mechanisms. · Flexible ac Transmission Systems (FACTS). · Emerging Transmission Networks. Reactor-Power Control in Electrical Power Transmission Systems. · Reacrive Power. · Uncompensated Transmission Lines. · Passive Compensation. · Summary. Principles of Conventional Reactive-Power Compensators. · Introduction. · Synchronous Condensers. · The Saturated Reactor (SR). · The Thyristor-Controlled Reactor (TCR). · The Thyristor-Controlled Transformer (TCT). · The Fixed Capacitor-Thyristor-Controlled Reactor (FC-TCR). · The Mechanically Switched Capacitor-Thristor-Controlled Reactor (MSC-TCR). · The Thyristor-Switched capacitor and Reactor. · The Thyristor-Switched capacitor-Thyristor-Controlled Reactor (TSC-TCR). · A Comparison of Different SVCs. · Summary. SVC Control Components and Models. · Introduction · Measurement Systems. · The Voltage Regulator. · Gate-Pulse Generation. · The Synchronizing System. · Additional Control and Protection Functions. · Modeling of SVC for Power-System Studies. · Summary. Concepts of SVC Voltage Control. · Introduction · Voltage Control. · Effect of Network Resonances on the Controller Response. · The 2nd Harmonic Interaction Between the SVC and ac Network. · Application of the SVC to Series-Compensated ac Systems. · 3rd Harmonic Distortion. · Voltage-Controlled Design Studies. · Summary. Applications. · Introduction. · Increase in Steady-State Power-Transfer Capacity. · Enhancement of Transient Stability. · Augmentation of Power-System Damping. · SVC Mitigation of Subsychronous Resonance (SSR). · Prevention of Voltage Instability. · Improvement of HVDC Link Performance. · Summary. The Thyristor-Controlled SeriesCapacitor (TCSC). · Series Compensation. · The TCSC Controller. · Operation of the TCSC. · The TSSC. · Analysis of the TCSC. · Capability Characteristics. · Harmonic Performance. · Losses. · Response of the TCSC. · Modeling of the TCSC. · Summary. TCSC Applications. · Introduction. · Open-Loop Control. · Closed-Loop Control. · Improvement of the System-Stability Limit. · Enhancement of System Damping. · Subsynchronous Resonanace (SSR) Mitigation. · Voltage-Collapse Prevention. · TCSC Installations. · Summary. Coordination of FACTS Controllers. · Introduction · Controller Interactions. · SVC-SVC Interaction. · SVC-HVDC Interaction. · SVC-TCSC Interaction. · TCSC-TCSC Interaction. · Performance Criteria for Damping-Controller Design. · Coordination of Multiple Controllers Using Linear-Control Techniques. · Coordination of Multiple Controllers using Nonlinear-Control Techniques. · Summary. Emerging FACTS Controllers. · Introduction. · The STATCOM. · THE SSSC. · The UPFC. · Comparative Evaluation of Different FACTS Controllers. · Future Direction of FACTS Technology. · Summary. Appendix A. Design of an SVC Voltage Regulator. Appendix B. Transient-Stability Enhancement in a Midpoint SVC-Compensated SMIB System. Appendix C. Approximate Multimodal decomposition Method for the Design of FACTS Controllers. Appendix D. FACTS Terms and Definitions. Index. Printed Pages: 528., Wiley India Pvt. Ltd, 2011, 6<
Wiley India Pvt. Ltd, 2011. Softcover. New. Static reactive power compensators have evolved into a mature technology over the past two decades, becoming an integral part of modern elect… Plus…
Wiley India Pvt. Ltd, 2011. Softcover. New. Static reactive power compensators have evolved into a mature technology over the past two decades, becoming an integral part of modern electrical power systems. They are one of the key devices in flexible AC transmission systems (FACTS). Coordination of static compensators with other controllable FACTS devices promises, in addition to tremendously enhanced power system controllability, the extension of power transfer capability of existing transmission corridors to near their thermal capacities, thus curtailing or certainly delaying the need to invest in new transmission facilities. Introduction. · Background. · Electrical Transmission Networks. · Conventional Control Mechanisms. · Flexible ac Transmission Systems (FACTS). · Emerging Transmission Networks. Reactor-Power Control in Electrical Power Transmission Systems. · Reacrive Power. · Uncompensated Transmission Lines. · Passive Compensation. · Summary. Principles of Conventional Reactive-Power Compensators. · Introduction. · Synchronous Condensers. · The Saturated Reactor (SR). · The Thyristor-Controlled Reactor (TCR). · The Thyristor-Controlled Transformer (TCT). · The Fixed Capacitor-Thyristor-Controlled Reactor (FC-TCR). · The Mechanically Switched Capacitor-Thristor-Controlled Reactor (MSC-TCR). · The Thyristor-Switched capacitor and Reactor. · The Thyristor-Switched capacitor-Thyristor-Controlled Reactor (TSC-TCR). · A Comparison of Different SVCs. · Summary. SVC Control Components and Models. · Introduction · Measurement Systems. · The Voltage Regulator. · Gate-Pulse Generation. · The Synchronizing System. · Additional Control and Protection Functions. · Modeling of SVC for Power-System Studies. · Summary. Concepts of SVC Voltage Control. · Introduction · Voltage Control. · Effect of Network Resonances on the Controller Response. · The 2nd Harmonic Interaction Between the SVC and ac Network. · Application of the SVC to Series-Compensated ac Systems. · 3rd Harmonic Distortion. · Voltage-Controlled Design Studies. · Summary. Applications. · Introduction. · Increase in Steady-State Power-Transfer Capacity. · Enhancement of Transient Stability. · Augmentation of Power-System Damping. · SVC Mitigation of Subsychronous Resonance (SSR). · Prevention of Voltage Instability. · Improvement of HVDC Link Performance. · Summary. The Thyristor-Controlled SeriesCapacitor (TCSC). · Series Compensation. · The TCSC Controller. · Operation of the TCSC. · The TSSC. · Analysis of the TCSC. · Capability Characteristics. · Harmonic Performance. · Losses. · Response of the TCSC. · Modeling of the TCSC. · Summary. TCSC Applications. · Introduction. · Open-Loop Control. · Closed-Loop Control. · Improvement of the System-Stability Limit. · Enhancement of System Damping. · Subsynchronous Resonanace (SSR) Mitigation. · Voltage-Collapse Prevention. · TCSC Installations. · Summary. Coordination of FACTS Controllers. · Introduction · Controller Interactions. · SVC-SVC Interaction. · SVC-HVDC Interaction. · SVC-TCSC Interaction. · TCSC-TCSC Interaction. · Performance Criteria for Damping-Controller Design. · Coordination of Multiple Controllers Using Linear-Control Techniques. · Coordination of Multiple Controllers using Nonlinear-Control Techniques. · Summary. Emerging FACTS Controllers. · Introduction. · The STATCOM. · THE SSSC. · The UPFC. · Comparative Evaluation of Different FACTS Controllers. · Future Direction of FACTS Technology. · Summary. Appendix A. Design of an SVC Voltage Regulator. Appendix B. Transient-Stability Enhancement in a Midpoint SVC-Compensated SMIB System. Appendix C. Approximate Multimodal decomposition Method for the Design of FACTS Controllers. Appendix D. FACTS Terms and Definitions. Index. Printed Pages: 528., Wiley India Pvt. Ltd, 2011<
Wiley India Pvt. Ltd, 2011. Softcover. New. Static reactive power compensators have evolved into a mature technology over the past two decades, becoming an integral part of modern elect… Plus…
Wiley India Pvt. Ltd, 2011. Softcover. New. Static reactive power compensators have evolved into a mature technology over the past two decades, becoming an integral part of modern electrical power systems. They are one of the key devices in flexible AC transmission systems (FACTS). Coordination of static compensators with other controllable FACTS devices promises, in addition to tremendously enhanced power system controllability, the extension of power transfer capability of existing transmission corridors to near their thermal capacities, thus curtailing or certainly delaying the need to invest in new transmission facilities. Introduction. · Background. · Electrical Transmission Networks. · Conventional Control Mechanisms. · Flexible ac Transmission Systems (FACTS). · Emerging Transmission Networks. Reactor-Power Control in Electrical Power Transmission Systems. · Reacrive Power. · Uncompensated Transmission Lines. · Passive Compensation. · Summary. Principles of Conventional Reactive-Power Compensators. · Introduction. · Synchronous Condensers. · The Saturated Reactor (SR). · The Thyristor-Controlled Reactor (TCR). · The Thyristor-Controlled Transformer (TCT). · The Fixed Capacitor-Thyristor-Controlled Reactor (FC-TCR). · The Mechanically Switched Capacitor-Thristor-Controlled Reactor (MSC-TCR). · The Thyristor-Switched capacitor and Reactor. · The Thyristor-Switched capacitor-Thyristor-Controlled Reactor (TSC-TCR). · A Comparison of Different SVCs. · Summary. SVC Control Components and Models. · Introduction · Measurement Systems. · The Voltage Regulator. · Gate-Pulse Generation. · The Synchronizing System. · Additional Control and Protection Functions. · Modeling of SVC for Power-System Studies. · Summary. Concepts of SVC Voltage Control. · Introduction · Voltage Control. · Effect of Network Resonances on the Controller Response. · The 2nd Harmonic Interaction Between the SVC and ac Network. · Application of the SVC to Series-Compensated ac Systems. · 3rd Harmonic Distortion. · Voltage-Controlled Design Studies. · Summary. Applications. · Introduction. · Increase in Steady-State Power-Transfer Capacity. · Enhancement of Transient Stability. · Augmentation of Power-System Damping. · SVC Mitigation of Subsychronous Resonance (SSR). · Prevention of Voltage Instability. · Improvement of HVDC Link Performance. · Summary. The Thyristor-Controlled SeriesCapacitor (TCSC). · Series Compensation. · The TCSC Controller. · Operation of the TCSC. · The TSSC. · Analysis of the TCSC. · Capability Characteristics. · Harmonic Performance. · Losses. · Response of the TCSC. · Modeling of the TCSC. · Summary. TCSC Applications. · Introduction. · Open-Loop Control. · Closed-Loop Control. · Improvement of the System-Stability Limit. · Enhancement of System Damping. · Subsynchronous Resonanace (SSR) Mitigation. · Voltage-Collapse Prevention. · TCSC Installations. · Summary. Coordination of FACTS Controllers. · Introduction · Controller Interactions. · SVC-SVC Interaction. · SVC-HVDC Interaction. · SVC-TCSC Interaction. · TCSC-TCSC Interaction. · Performance Criteria for Damping-Controller Design. · Coordination of Multiple Controllers Using Linear-Control Techniques. · Coordination of Multiple Controllers using Nonlinear-Control Techniques. · Summary. Emerging FACTS Controllers. · Introduction. · The STATCOM. · THE SSSC. · The UPFC. · Comparative Evaluation of Different FACTS Controllers. · Future Direction of FACTS Technology. · Summary. Appendix A. Design of an SVC Voltage Regulator. Appendix B. Transient-Stability Enhancement in a Midpoint SVC-Compensated SMIB System. Appendix C. Approximate Multimodal decomposition Method for the Design of FACTS Controllers. Appendix D. FACTS Terms and Definitions. Index. Printed Pages: 528. NA, Wiley India Pvt. Ltd, 2011<
Wiley. Paperback. New. Despite the importance of this technology in the electrical power industry, there is a lack of appropriate texts, and none published in recent years. Recognizing … Plus…
Wiley. Paperback. New. Despite the importance of this technology in the electrical power industry, there is a lack of appropriate texts, and none published in recent years. Recognizing the potential advantages of static reactive power compensators and their value to power utilities, universities are beginning to offer courses at the graduate/undergraduate level., Wiley, 6, Wiley. Paperback. New. Despite the importance of this technology in the electrical power industry, there is a lack of appropriate texts, and none published in recent years. Recognizing the potential advantages of static reactive power compensators and their value to power utilities, universities are beginning to offer courses at the graduate/undergraduate level. Thyristor-Based FACTS Controllers for Electrical Transmission Systems: R. Mohan Mathur, Rajiv K. Varma POWER ELECTRONICS, Wiley, 6<
[EAN: 9788126532247], Neubuch, [PU: Wiley], THYRISTOR-BASED FACTS CONTROLLERS FOR ELECTRICAL TRANSMISSION SYSTEMS: R. MOHAN MATHUR, RAJIV K. VARMA POWER ELECTRONICS, Despite the importanc… Plus…
[EAN: 9788126532247], Neubuch, [PU: Wiley], THYRISTOR-BASED FACTS CONTROLLERS FOR ELECTRICAL TRANSMISSION SYSTEMS: R. MOHAN MATHUR, RAJIV K. VARMA POWER ELECTRONICS, Despite the importance of this technology in the electrical power industry, there is a lack of appropriate texts, and none published in recent years. Recognizing the potential advantages of static reactive power compensators and their value to power utilities, universities are beginning to offer courses at the graduate/undergraduate level.<
NEW BOOK. Frais d'envoi EUR 6.50 Vikram Jain Books, New Delhi, India [4059398] [Rating: 4 (von 5)]
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Despite the importance of this technology in the electrical power industry, there is a lack of appropriate texts, and none published in recent years. Recognizing the potential advantages of static reactive power compensators and their value to power utilities, universities are beginning to offer courses at the graduate/undergraduate level. · introduction. · reactor-power control in electrical power transmission systems. · principles of conventional reactive-power compensators. · svc control components and models. · concepts of svc voltage control. · applications. · the thyristor-controlled seriescapacitor (tcsc). · tcsc applications. · coordination of facts controllers. · emerging facts controllers.
Informations détaillées sur le livre - Thyristor-Based Facts Controllers For Electrical Transmission Systems
EAN (ISBN-13): 9788126532247 ISBN (ISBN-10): 8126532246 Livre de poche Date de parution: 2011 Editeur: Wiley India Pvt. Ltd
Livre dans la base de données depuis 2013-07-16T11:42:10+02:00 (Paris) Page de détail modifiée en dernier sur 2021-09-20T16:46:51+02:00 (Paris) ISBN/EAN: 8126532246
ISBN - Autres types d'écriture: 81-265-3224-6, 978-81-265-3224-7 Autres types d'écriture et termes associés: Auteur du livre: mohan
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