Integrated Energy System Planning Optimization Method and Case Analysis Based on Multiple Factors and A Three-Level Process
Now that China has outlined its goals of "carbon peak and carbon neutrality", the development of clean energy will accelerate, the connection between different energy systems will be closer, and the development prospects of the integrated energy service industry will be broader. Integrated...
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Veröffentlicht in: | Sustainability 2021-07, Vol.13 (13), p.7425, Article 7425 |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | Now that China has outlined its goals of "carbon peak and carbon neutrality", the development of clean energy will accelerate, the connection between different energy systems will be closer, and the development prospects of the integrated energy service industry will be broader. Integrated energy services are promoting energy transformation and services. "Carbon peaking, carbon neutrality" and other aspects will also have multiple values and far-reaching significance. Before implementing integrated energy services, the top-level design of integrated energy system planning must be carried out, and how to achieve the optimal allocation of capacity in the field of integrated energy systems is an urgent problem to be solved in integrated energy system planning. This paper combines practical engineering experience and the latest theoretical research results to creatively introduce, for the first time, a comprehensive evaluation into the initial planning stage, and proposes, also for the first time, a three-level multi-element comprehensive energy system planning optimization method which combines multi-element requirements to carry out comprehensive energy system planning and optimization. The three-tier planning and optimization solution results in the optimal planning scheme of the integrated energy system, thereby making the scheme more specific and reliable. According to the demand data of an industrial park, this method was applied to complete a case analysis of integrated energy system planning, which verified the feasibility and effectiveness of the method. This method is easy to popularize, and it will guide the planning of integrated energy systems, promote integrated energy services, promote energy transition, and make positive contributions to achieve carbon neutrality as soon as possible. |
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ISSN: | 2071-1050 2071-1050 |
DOI: | 10.3390/su13137425 |