Smart power distribution systems : control, communication, and optimization / edited by Qiang Yang, Ting Yang, Wei Li.
- Published:
- London, United Kingdom ; Cambridge, MA, United States : Academic Press is an imprint of Elsevier, [2019]
- Copyright Date:
- ©2019
- Physical Description:
- xxvi, 604 pages ; 23 cm
- Additional Creators:
- Yang, Qiang, Yang, Ting, and Li, Wie
- Contents:
- Machine generated contents note: pt. One Modeling and Control of Smart Power Distribution Network (Control Aspect) -- 1.An overview of codes and control strategies for frequency regulation in wind power generation / Yi Zong -- 1.1.Introduction -- 1.2.Grid codes on frequency regulation -- 1.3.Frequency regulation framework -- 1.4.System-level control -- 1.5.Plant/farm-level coordinated control -- 1.6.WTG-level control strategy -- 1.7.Discussion -- 1.8.Conclusion -- Acknowledgment -- References -- 2.A two-stage reserve scheduling considering wind turbine generator's de-loading control / S.S. Choi -- 2.1.Introduction -- 2.2.WTG-integrated dispatch mode and DFIG de-loading operation -- 2.3.A bi-level optimization model for the two-stage reserve scheduling problem -- 2.4.Case studies -- 2.5.Conclusion -- Appendix. The single-level model formulation -- Acknowledgment -- References -- 3.Dynamic energy management and control of a grid-interactive DC microgrid system / B. Chitti Babu -- 3.1.Introduction -- 3.2.System description -- 3.3.Dynamic energy management and control -- 3.4.Results and discussion -- 3.5.Conclusion -- References -- Further reading -- 4.Modeling, control, and energy management for DC microgrid / Qi Li -- 4.1.Introduction -- 4.2.DC MG structure and modeling -- 4.3.DC MG experimental set-up -- 4.4.Optimal control and energy management for DC MG -- 4.5.Results and discussions -- 4.6.Conclusions -- Acknowledgments -- References -- 5.Hybrid AC/DC distribution network voltage control / Xiaoqing Han -- 5.1.Introduction -- 5.2.VSC-based hybrid AC/DC MG (lower layer) -- 5.3.Proposed voltage control scheme (upper layer) -- 5.4.Case study -- 5.5.Conclusions -- Acknowledgment -- References -- 6.Controlling the distributed energy resources under fading channel / Eric Wang -- 6.1.Introduction -- 6.2.Microgrid state-space model -- 6.3.LQG controller under fading channel -- 6.4.Simulation results and discussions -- 6.5.Conclusions and future work -- References -- Further reading -- 7.Cooperative energy dispatch for multiple autonomous microgrids with distributed renewable sources and storages / Qiang Yang -- 7.1.Introduction -- 7.2.Autonomous microgrid optimization model -- 7.3.Cooperative operation control strategy (w/o storages) -- 7.4.Numerical experiments and result -- 7.5.Remarks -- 7.6.Cooperative scheduling strategies (with storages) -- 7.7.Case study with the IEEE 33-bus network scenario -- 7.8.Simulation experiment and numerical result -- 7.9.Remarks -- 7.10.Conclusions -- References -- pt. Two ICT Technologies for Smart Power Distribution Networks -- 8.Privacy of energy consumption data of a household in a smart grid / Vandana Bassoo -- 8.1.Introduction -- 8.2.Smart grid and its many benefits -- 8.3.Security vulnerabilities of smart grid and its impact -- 8.4.Security objectives of smart grid -- 8.5.Privacy preserving techniques in smart grids -- 8.6.Conclusions -- References -- Further reading -- 9.Microgrid communication system and its application in hierarchical control / Weirong Chen -- 9.1.Introduction -- 9.2.Communication construction based on hierarchical control -- 9.3.Consensus algorithm based on microgrid communication system -- 9.4.Case studies -- 9.5.Conclusions -- Acknowledgments -- References -- 10.ICT technologies standards and protocols for active distribution network / Ting Yang -- 10.1.Introduction to the concept of information and communication technology (ICT) -- 10.2.Introduction to active distribution network -- 10.3.ICT technologies in the active distribution networks -- 10.4.Conclusion -- References -- Further reading -- 11.Virtual power plant communication system architecture / Nermin Suljanovic -- 11.1.Introduction -- 11.2.VPPs in the smart grid concept -- 11.3.Communication system architecture -- 11.4.Communication protocols -- 11.5.Communication system performance analysis -- 11.6.Conclusions -- References -- 12.Inertia emulation from HVDC links for LFC in the presence of smart V2G networks / Rituraj Shrivastwa -- 12.1.Introduction -- 12.2.Inertia emulation from SPC-based HVDC systems for LFC -- 12.3.Introduction to V2G network -- 12.4.Simulation studies -- 12.5.Conclusions -- References -- Further reading -- 13.Internet of things application in smart grid: A brief overview of challenges, opportunities, and future trends / Qiang Yang -- 13.1.Introduction -- 13.2.Demand response opportunities in smart distribution systems -- 13.3.IOT cyber physical security in smart grid -- 13.4.Modeling and simulation challenges of IoT in smart grid -- 13.5.Conclusions -- References -- Glossary -- 14.H-infinity-based microgrid state estimations using the IoT sensors / Eric Wang -- 14.1.Introduction -- 14.2.Observation model -- 14.3.H-Infinity for microgrid state estimation -- 14.4.Microgrid modeling and simulation results -- 14.5.Conclusion and future work -- References -- pt. Three Optimization Models/Methods in Smart Distribution Networks (Optimization Aspects) -- 15.Management of renewable energy source and battery bank for power losses optimization / Kalpana Chauhan -- 15.1.Introduction -- 15.2.Energy management system for DC microgrid -- 15.3.Results and discussions -- 15.4.Conclusion -- References -- 16.Scenario-based methods for robust electricity network planning considering uncertainties / Zhibang Wang -- 16.1.Introduction -- 16.2.The mathematical model of network planning problem -- 16.3.Scenario generation methods -- 16.4.The solving process of the robust network planning -- 16.5.Case studies -- 16.6.Conclusion -- Appendix -- References -- 17.Scenarios/probabilistic optimization approaches for network operation considering uncertainties / Jiasheng Zhou -- 17.1.Introduction scenario -- 17.2.Basic problems of power system optimization with large-scale wind power integration -- 17.3.Research status of power system optimization with large-scale wind power integration -- 17.4.p-Efficient point theory -- 17.5.Moment matching theory -- 17.6.Conclusion -- References -- Further reading -- 18.The optimal planning of wind power capacity and energy storage capacity based on the bilinear interpolation theory / Yuhong Mo -- 18.1.Introduction -- 18.2.Research status of wind power accommodation -- 18.3.Adequacy indices with wind power integration -- 18.4.Estimation of wind power accommodation -- 18.5.The optimal allocation of the wind power capacity and ESS capacity based on bilinear interpolation -- 18.6.Case study -- 18.7.Conclusions -- References -- Further reading -- 19.Optimal energy dispatch in residential community with renewable DGs and storage in the presence of real-time pricing / Xinli Fang -- 19.1.Introduction -- 19.2.System model and problem formulation -- 19.3.Optimal energy dispatch approach -- 19.4.Simulation experiment and numerical result -- 19.5.Conclusions and future work -- Acknowledgment -- References -- 20.Evaluation on the short-term power supply capacity of an active distribution system based on multiple scenarios considering uncertainties / Jing Zhu -- 20.1.Introduction -- 20.2.Analysis of uncertainty factors in evaluating PSC -- 20.3.Definition of PSC evaluation index -- 20.4.Short-term PSC evaluation algorithm based on multiscene technology -- 20.5.Case study -- 20.6.Conclusions -- References -- Further reading -- 21.Multi-time-scale energy management of distributed energy resources in active distribution grids / Birgitte Bak-Jensen -- 21.1.Introduction -- 21.2.System modeling -- 21.3.Hierarchical multi-time-scale energy management system -- 21.4.Simulation configuration and implementations -- 21.5.Results and discussion -- 21.6.Conclusion -- References -- Further reading -- 22.Distribution network planning considering the impact of electric vehicle charging station load / Pinakeswar Mahanta -- 22.1.Introduction -- 22.2.Different operating parameters of distribution network -- 22.3.Impact of EV charging load on different operating parameters of distribution network -- 22.4.Optimal placement of charging stations in distribution network -- 22.5.Case study -- 22.6.Conclusions -- References -- 23.Distribution systems hosting capacity assessment: Relaxation and linearization / Xiaoqing Han -- 23.1.Introduction -- 23.2.HC mathematical modeling -- 23.3.Linear model of HC -- 23.4.Simulations -- 23.5.Conclusions -- Acknowledgment -- References.
- Summary:
- "Smart Power Distribution Systems: Control, Communication, and Optimization explains how diverse technologies work to build and maintain smart grids around the globe. Yang, Yang and Li present the most recent advances in the control, communication and optimization of smart grids and provide unique insight into power system control, sensing and communication, and optimization technologies. The book covers control challenges for renewable energy and smart grids, communication in smart power systems, and optimization challenges in smart power system operations. Each area discussed focuses on the scientific innovations relating to the approaches, methods and algorithmic solutions presented."
- Subject(s):
- ISBN:
- 0128121548 (paperback)
9780128121542 (paperback) - Bibliography Note:
- Includes bibliographical references and index.
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