2022
DOI: 10.3389/fenrg.2021.824255
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Optimal Dispatch and Control Strategy of Integrated Energy System Considering Multiple P2H to Provide Integrated Demand Response

Abstract: With the increase in multi-energy loads and renewable energy (RE) penetration, the valley-to-peak value of the electric-heat system is gradually increasing. Although the integrated energy system (IES) and power-to-hydrogen (P2H) technology are widely used to improve energy efficiency and promote the consumption of REs, the dispatch strategies for the IES with P2H to provide integrated demand response (IDR) are not investigated clearly. Thus, this paper presents an optimal dispatch strategy for the IES to provi… Show more

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Cited by 6 publications
(5 citation statements)
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“…Based on the above studies, we propose an electrichydrogen integrated energy system with virtual storage [19]. The electric hydrogen production technology in the electric-hydrogen integrated energy system can consume abandoned wind and light and optimize wind and light scheduling.…”
Section: Index Termsmentioning
confidence: 99%
“…Based on the above studies, we propose an electrichydrogen integrated energy system with virtual storage [19]. The electric hydrogen production technology in the electric-hydrogen integrated energy system can consume abandoned wind and light and optimize wind and light scheduling.…”
Section: Index Termsmentioning
confidence: 99%
“…HFC determines the proportion of electrical and thermal energy output by controlling the hydrogen supply rate and working temperature. Its electrical and thermal power output is shown in Equations ( 16) and (17). CHP uses a constant thermoelectric ratio for energy supply, its electrical and thermal power output is shown in the following equation:…”
Section: Thermoelectric Coupling Equipment Modelmentioning
confidence: 99%
“…WEHP is treated as electrical load with fixed energy conversion efficiency. 14 The operating efficiency characteristics of WEHP is analyzed, 15,16 and the constraints about WEHP start and stop status is considered, 17 but the mathematical form of the model based on electrochemical mechanism is not unified. However, the mathematical form of WEHP efficiency characteristic model in the existing research is not unified, minimum time constraint of startup and shutdown, ramp rate constraint in the operation of WEHP are not considered, and there is a lack of WEHP general operation model reflecting the technical and economic performance of cost, flexibility and efficiency at the same time.…”
Section: Introductionmentioning
confidence: 99%
“…The energy consumption of a lift is influenced by a number of factors, including elevator speed, weight, frequency of use, motor, and control system efficiency, building design, and maintenance and modernization [11][12][13]. In addition, the stopping pattern of the elevator can significantly impact its energy consumption.…”
Section: Introduction 1backgroundmentioning
confidence: 99%