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Powerline Ampacity System : Theory, Modeling and Applications.

By: Deb, Anjan K [author.].
Material type: materialTypeLabelBookPublisher: Boca Raton, FL : CRC Press, 2017Edition: First edition.Description: 1 online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 9781315214795; 1315214792; 9781351821995; 1351821997.Subject(s): Powerline ampacity -- Mathematical models | Electric cables -- Evaluation | Electric lines -- Evaluation -- Mathematical models | Electric power systems -- Load dispatching | Electric currents -- Measurement -- Mathematics | AmperesDDC classification: 621.319 Online resources: Taylor & Francis Click here to view. | OCLC metadata license agreement
Contents:
Chapter 1 Introduction -- chapter 2 Line Rating Methods -- chapter 3 Theory of Transmission Line Ampacity -- chapter 4 Experimental Verification of Transmission Line Ampacity -- chapter 5 Elevated Temperature Effects -- chapter 6 Transmission Line Electric and Magnetic Fields -- chapter 7 Weather Modeling for Forecasting Transmission Line Ampacity -- chapter 8 Computer Modeling -- chapter 9 New Methods of Increasing Transmission Capacity -- chapter 10 Applications -- chapter 11 Summary, Future Plans, and Conclusion.
Scope and content: "Civilization's demands for electricity continue to grow, yet environmental, regulatory, and economic constraints often preclude the construction of new power plants and transmission lines. The challenge now faced by engineers, equipment manufacturers, and regulatory agencies is to find ways to maximize the capacity of existing power lines.Powerline Ampacity System is the first step in meeting that challenge. Along with developing a complete theory of transmission line ampacity, the author uses object-oriented modeling and expert rules to build a power line ampacity system. He describes new transmission line conductor technologies and power electronics FACTS devices that can take full advantage of a dynamic line rating system. He offers examples that clearly show the economic benefit of operating an interconnected transmission network that has a diverse mix of electricity generation sources. He also discusses - with examples - generator stability enhancement by dynamic line rating."--Provided by publisher.
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Chapter 1 Introduction -- chapter 2 Line Rating Methods -- chapter 3 Theory of Transmission Line Ampacity -- chapter 4 Experimental Verification of Transmission Line Ampacity -- chapter 5 Elevated Temperature Effects -- chapter 6 Transmission Line Electric and Magnetic Fields -- chapter 7 Weather Modeling for Forecasting Transmission Line Ampacity -- chapter 8 Computer Modeling -- chapter 9 New Methods of Increasing Transmission Capacity -- chapter 10 Applications -- chapter 11 Summary, Future Plans, and Conclusion.

"Civilization's demands for electricity continue to grow, yet environmental, regulatory, and economic constraints often preclude the construction of new power plants and transmission lines. The challenge now faced by engineers, equipment manufacturers, and regulatory agencies is to find ways to maximize the capacity of existing power lines.Powerline Ampacity System is the first step in meeting that challenge. Along with developing a complete theory of transmission line ampacity, the author uses object-oriented modeling and expert rules to build a power line ampacity system. He describes new transmission line conductor technologies and power electronics FACTS devices that can take full advantage of a dynamic line rating system. He offers examples that clearly show the economic benefit of operating an interconnected transmission network that has a diverse mix of electricity generation sources. He also discusses - with examples - generator stability enhancement by dynamic line rating."--Provided by publisher.

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