This book discusses the design and scheduling of residential, industrial, and commercial energy hubs, and their integration into energy storage technologies and renewable energy sources. Each chapter provides theoretical background and application examples for specific power systems including, solar, wind, geothermal, air and hydro. Case-studies are included to provide engineers, researchers, and students with the most modern technical and intelligent approaches to solving power and energy integration problems with special attention given to the environmental and economic aspects of energy storage systems.
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1 An Introduction to Smart Energy Systems and Definition of Smart Energy Hubs |
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1 | (22) |
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2 Impacts of Energy Storage Technologies and Renewable Energy Sources on Energy Hub Systems |
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23 | (30) |
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3 Robust Economic Emission Dispatch of Thermal Units and Compressed Air Energy Storages |
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53 | (26) |
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4 Solar Thermal Energy Storage for Residential Sector |
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79 | (24) |
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5 Optimal Short-Term Scheduling of Photovoltaic Powered Multi-chiller Plants in the Presence of Demand Response Programs |
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103 | (18) |
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6 Basic Open-Source Nonlinear Mixed Integer Programming Based Dynamic Economic Dispatch of Multi-chiller Plants |
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121 | (8) |
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7 Demand Response Participation in Renewable Energy Hubs |
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129 | (34) |
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8 Supply Side Management in Renewable Energy Hubs |
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163 | (26) |
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9 Optimal Stochastic Short-Term Scheduling of Renewable Energy Hubs Taking into Account the Uncertainties of the Renewable Sources |
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189 | (32) |
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10 Risk-Constraint Scheduling of Storage and Renewable Energy Integrated Energy Hubs |
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221 | (16) |
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11 Grid Integration of Large-Scale Electric Vehicles: Enabling Support Through Power Storage |
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237 | (34) |
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12 Optimal Operation of Renewable-Based Residential Energy Hubs for Minimizing PV Curtailment |
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271 | (26) |
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13 Long-Term Smart Grid Planning Under Uncertainty Considering Reliability Indexes |
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297 | (40) |
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Mohammad Ali Fotouhi Ghazvini |
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14 A Joint Energy Storage Systems and Wind Farms Long-Term Planning Model Considering Voltage Stability |
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337 | (28) |
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15 Optimal Design, Operation, and Planning of Distributed Energy Systems Through the Multi-Energy Hub Network Approach |
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365 | (26) |
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16 Joint Electricity and Heat Optimal Power Flow of Energy Hubs |
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391 | (20) |
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17 Power-to-Gas: A New Energy Storage Concept for Integration of Future Energy Systems |
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411 | (14) |
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18 Multi-Objective Optimization Framework for Electricity and Natural Gas Energy Hubs Under Hydrogen Storage System and Demand Response Program |
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425 | (22) |
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| Index |
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447 | |
Behnam Mohammadi-Ivatloo is an Associate Professor at the University of Tabriz. Before joining the University of Tabriz, he was a research associate at Institute for Sustainable Energy, Environment and Economy, University of Calgary, Calgary, Canada. He obtained M.Sc. and PhD degrees in electrical engineering from Sharif University of Technology, Tehran, Iran on 2008 and 2012, respectively. He is head of the Smart Energy Systems Lab. at University of Tabriz. The main areas of his interests are Renewable Energies, Micro Grid systems and smart grids.
Farkhondeh Jabari is a researcher and PhD candidate in Faculty of Electrical and Computer Engineering at the University of Tabriz, Tabriz, Iran. She is a member of Smart Energy Systems Lab. at University of Tabriz.
