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Design of smart power grid renewable energy systems

By: Keyhani, Ali
Material type: BookPublisher: Hoboken, New Jersey : Wiley, c2017.Edition: 2nd ed.Description: xix, 566 p. : ill. ; 25 cm.ISBN: 9781118978771Program: ECTE427Subject(s): Smart power grids -- Design and construction | Electric power systems -- Automatic control | Distributed generation of electric power -- Computer simulation | Renewable energy sourcesDDC classification: 621.3191 KE DE Online resources: Location Map
Summary:
This book discusses the fundamental concepts of power grid integration on microgrids of green energy sources. In each chapter, the author presents a key engineering problem and then formulates a mathematical model of the problem followed by a simulation testbed in MATLAB, highlighting solution steps. The book builds its foundation on the design of a distributed generating system, and design of PV generating plants by introducing design- efficient smart residential PV microgrids. These include energy monitoring systems, smart devices, building load estimation, load classification, and real-time pricing. The book presents basic concepts of phasor systems, three-phase systems, transformers, loads, DC/DC converters, DC/AC inverters, and AC/DC rectifiers, which are all integrated into the design of microgrids for renewable energy as part of bulk interconnected power grids. Other topics of discussion include the Newton formulation of power flow, the Newton—Raphson solution of a power flow problem, the fast decoupled solution for power flow studies, and short circuit calculations.
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Item type Home library Call number Status Notes Date due Barcode Item holds
REGULAR University of Wollongong in Dubai
Main Collection 		621.3191 KE DE (Browse shelf) Available T0061835
REGULAR University of Wollongong in Dubai
Main Collection 		621.3191 KE DE (Browse shelf) Available Feb2019 T0061836
Total holds: 0

Includes bibliographical references and index.

This book discusses the fundamental concepts of power grid integration on microgrids of green energy sources. In each chapter, the author presents a key engineering problem and then formulates a mathematical model of the problem followed by a simulation testbed in MATLAB, highlighting solution steps. The book builds its foundation on the design of a distributed generating system, and design of PV generating plants by introducing design- efficient smart residential PV microgrids. These include energy monitoring systems, smart devices, building load estimation, load classification, and real-time pricing. The book presents basic concepts of phasor systems, three-phase systems, transformers, loads, DC/DC converters, DC/AC inverters, and AC/DC rectifiers, which are all integrated into the design of microgrids for renewable energy as part of bulk interconnected power grids. Other topics of discussion include the Newton formulation of power flow, the Newton—Raphson solution of a power flow problem, the fast decoupled solution for power flow studies, and short circuit calculations.

ECTE427

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