Qiuwei Wu, Jin Tan, Menglin Zhang

Optimal Operation of Integrated Multi-Energy Systems Under Uncertainty

• Broschiertes Buch

Produktbeschreibung

Optimal Operation of Integrated Multi-Energy Systems Under Uncertainty discusses core concepts, advanced modeling and key operation strategies for integrated multi-energy systems geared for use in optimal operation. The book particularly focuses on reviewing novel operating strategies supported by relevant code in MATLAB and GAMS. It covers foundational concepts, key challenges and opportunities in operational implementation, followed by discussions of conventional approaches to modeling electricity, heat and gas networks. This modeling is the base for more detailed operation strategies for optimal operation of integrated multi-energy systems under uncertainty covered in the latter part of the work.

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Produktdetails

• Verlag: Elsevier / Elsevier Science & Technology
• Artikelnr. des Verlages: C2020-0-01519-7
• Seitenzahl: 370
• Erscheinungstermin: 13. September 2021
• Englisch
• Abmessung: 152mm x 229mm x 26mm
• Gewicht: 602g
• ISBN-13: 9780128241141
• ISBN-10: 0128241144
• Artikelnr.: 62606578

Autorenporträt

Qiuwei Wu received the PhD degree in Electrical Engineering from Nanyang Technological University, Singapore, in 2009. He is a professor with the School of Electronics, Electrical Engineering, and Computer Science (EEECS), Queen's University Belfast, the UK. His research interests are distributed optimal operation and control of low carbon power and energy systems, including distributed optimal control of wind power, optimal operation of active distribution networks, and optimal operation and planning of integrated energy systems.

Inhaltsangabe

1. Introduction of integrated multi-energy systems
2. Modeling of integrated multi-energy systems
3. Uncertainty modelling of wind power for stochastic and robust optimization
4. Optimal operation of multi-energy building complex
5. MPC based real-time dispatch of multi-energy building complex
6. Adaptive robust two-stage optimal operation of integrated electricity and heat system
7. Decentralized robust optimal operation of multiple integrated electricity and heat systems
8. Chance constrained energy and reserve scheduling for integrated electricity and heating systems considering wind spatio-temporal correlations
9. Day-ahead stochastic optimal operation of integrated electricity and heat systems considering reserve of flexible devices
10. Two-stage stochastic optimal operation of integrated energy systems
11. MPC based real-time operation of integrated energy systems