Microgrid design and operation : toward smart energy in cities / Federico Delfino [and five others].
Material type:
TextSeries: Artech House power engineering seriesPublisher: Norwood, MA : Artech House, [2018]Description: 1 online resource : illustrationsContent type: - text
- computer
- online resource
- 9781630816711
- 163081671X
- 9781630811518
- 1630811513
- Microgrids (Smart power grids)
- Electric power systems -- Technological innovations
- Minirésaux électriques intelligents
- Réseaux électriques (Énergie) -- Innovations
- TECHNOLOGY & ENGINEERING -- Mechanical
- Electric power systems -- Technological innovations
- Microgrids (Smart power grids)
- TECHNOLOGY & ENGINEERING / Power Resources / Electrical
- Technology, Engineering, Agriculture
- Technologie, Ingenieurswissenschaft, Landwirtschaft
- Technologie, ingénierie et agriculture
- Energy technology & engineering
- Energietechnik, Elektrotechnik und Energiemaschinenbau
- Génie industriel
- Energy, power generation, distribution & storage
- Energieerzeugung und -verteilung
- Énergie, production d'énergie, distribution et stockage
- 621.31 23
- TK3105 .D45 2018eb
| Item type | Home library | Collection | Call number | Materials specified | Status | Date due | Barcode | |
|---|---|---|---|---|---|---|---|---|
Electronic-Books
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OPJGU Sonepat- Campus | E-Books EBSCO | Available |
Print version record.
Includes bibliographical references and index.
Microgrid Design and Operation; Foreword; Acknowledgments; 1 Introduction; 1.1 Overview; 1.2 Traditional Electric Networks; 1.3 The First Revolution: Power Electronics; 1.4 The Second Revolution: The Distributed Energy Resources; 1.5 The Third Revolution: Smart Grids and Microgrids; References; 2 Technology Overview: Devices and Equipment; 2.1 Overview; 2.2 Introduction; 2.3 Distributed Generation and Microgrids; 2.4 Technologies for Electrical Energy Production; 2.4.1 Photovoltaic Systems; 2.4.2 Small Hydro Power Plants; 2.4.3 Small Wind Power Plants.
2.5 Technologies for Thermal Energy Production2.5.1 Solar Thermal Systems; 2.5.2 Boilers; 2.5.3 Heat Pumps; 2.6 Technologies for Cooling Energy Production; 2.6.1 Compression Chillers; 2.6.2 Absorption Chillers; 2.7 Cogeneration and Trigeneration Technologies; 2.7.1 Small Gas Turbines; 2.7.2 Small Reciprocating Internal Combustion Engines (SRICEs); 2.7.3 Concentrating Solar Power Systems; 2.7.4 Fuel Cells; 2.8 Electrical Storage Systems; 2.9 Power Electronic Converters; 2.10 Conclusions; References; 3 Microgrid Installations: State of the Art; 3.1 Microgrids in America.
3.2 Microgrids in Europe3.3 Microgrids in Asia, Australia, and Africa; References; 4 Communication and Monitoring Systems for Microgrids; 4.1 Overview; 4.2 Protocols for Microgrid Applications; 4.2.1 Modbus; 4.2.2 DNP3 and IEC 60870-5; 4.2.3 IEC 61850; 4.2.4 BACnet; 4.2.5 LonWorks; 4.2.6 KNX; 4.2.7 Wireless Technologies: ZigBee and LoraWan; 4.2.8 OPC; 4.2.9 Interfaces Via Web Services: SOAP and REST; 4.3 Supervision and Monitoring Systems: SCADA and BMS; 4.4 Interoperability; References; 5 Modeling and Simulation for Microgrids; 5.1 Overview; 5.2 Introduction.
5.3 Dynamic Modeling and Simulation of Multicomponent Energy Systems5.3.1 A Multicomponent Energy System; 5.3.2 Equations Governing the Dynamic Behavior of the System; 5.3.3 The Electrical Analogy; 5.3.4 Dynamic Simulation of a Cogeneration Microturbine as a Multicomponent System; 5.4 Electrical Devices Modeling for Islanded Microgrid Simulations; 5.5 Conclusions; References; 6 Optimization for Microgrid Planning; 6.1 Overview; 6.2 Introduction; 6.3 State of the Art of the Optimal Planning Approaches; 6.4 Optimal Design of Microgrids: The Decision Problem.
6.5 Decision Variables and Parameters6.5.1 Parameters Related to Power Flows; 6.5.2 Parameters Related to Costs; 6.5.3 Decision Variables; 6.6 The System Model Description and Related Constraints; 6.6.1 The PV Power Plant; 6.6.2 The Solar Thermal Power Plant; 6.6.3 The Wind Turbine Power Plant; 6.6.4 The Combined Heat and Power Microturbines Plants; 6.6.5 The Thermal Boilers; 6.6.6 The Biomass Plants; 6.6.7 The Heat Pumps; 6.6.8 The Chillers; 6.6.9 The Fossil Fuel Plants; 6.6.10 The Electrical and Thermal Power Balance; 6.7 The Optimization Problem; 6.7.1 Operational Management Costs.
6.7.2 Installation Costs.
Online resource; title from digital title page (viewed on October 19, 2018).
With the growth of renewable energy sources, microgrids have become a key component in the distribution of power to localized areas while connected to the traditional grid or operating in a disconnected island mode. Based on the extensive real-world experience of the authors, this cutting-edge resource provides a basis for the design, installation, and day-by-day management of microgrids.nnProfessionals find coverage of the critical aspects they need to understand, from the initial planning and the selection of the most appropriate technologies and equipment, to optimal management and real-time control. Moreover, this forward-looking book places emphasis on new architectures of the energy systems of the future. Written in accessible language with practical examples, the book explains advanced topics such as optimization algorithms for energy management systems, control issues for both on-grid and island mode, and microgrid protection. Practitioners are also provided with a complete vision for the deployment of the microgrid in smart cities. Publisher abstract.
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