Optimal Dispatch and Control Strategy of Integrated Energy System Considering Multiple P2H to Provide Integrated Demand Response

Huang, Xin; Wang, Kai; Zhao, Mintong; Huan, Jiajia; Yu, Yundong; Jiang, Kai; Yan, Xiaohe; Liu, Nian

doi:10.3389/fenrg.2021.824255

Cited by 6 publications

(5 citation statements)

References 29 publications

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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%

Day-Ahead and Intra-Day Economic Dispatch of Electricity Hydrogen Integrated Energy System With Virtual Energy Storage

Liu,

Zu,

et al. 2023

IEEE Access

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Section: Index Termsmentioning

confidence: 99%

Day-Ahead and Intra-Day Economic Dispatch of Electricity Hydrogen Integrated Energy System With Virtual Energy Storage

Liu,

Zu,

et al. 2023

IEEE Access

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“…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%

Optimal scheduling strategy of electricity‐heat‐hydrogen integrated energy system under different operating modes

Liu¹

2022

Intl J of Energy Research

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Summary With the increasing penetration level of renewable energy in the integrated energy system (IES), water electrolysis for hydrogen production (WEHP) technology has become an effective solution to increase the capacity of renewable energy utilization. Therefore, this paper proposes to take WEHP and hydrogen fuel cell (HFC) as flexible resources to participate in the optimal scheduling of IES under grid‐connected/off‐grid operation mode. Firstly, focusing on the production, storage and utilization of hydrogen energy, a unified operation model of WEHP module is built by analyzing the differences of the three WEHP technologies. And then, “co‐generation” model of HFC, the residual capacity and transportation cost model of hydrogen storage device (HSD) are built. Second, by analyzing the uncertainty of light intensity and wind speed, a prediction error correction method is proposed to improve the prediction data accuracy of renewable energy power generation. Third, taking the lowest daily operation cost as the objective function, the optimal scheduling model of electricity‐heat‐hydrogen integrated energy system under grid‐connected/off‐grid operation mode is constructed. On this basis, the operation scheduling model of electricity‐heat‐hydrogen integrated energy system is transformed into a mixed integer linear model by piecewise linearization method, and the model is solved by CPLEX solver. Finally, an example is given to verify the rationality of the proposed scheduling model in the grid‐connected/off‐grid operation mode. On one hand, reasonable optimal scheduling of multiple WEHP combination is helpful to reduce the daily operation cost of IES. On the other hand, by correcting the prediction data deviation of renewable energy power generation, the equipment output of electricity‐heat‐hydrogen integrated energy system can be more reasonable, which is helpful to reduce the daily operation cost and improve the operation reliability. The effects of sensitive factors such as the penetration level of renewable energy, the relative fluctuation of electricity price and hydrogen price on the operation cost of optimal scheduling scheme are further analyzed, which provides a theoretical reference for the optimal scheduling of IES.

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“…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%

Minimizing Energy Usage and Makespan of Elevator Operation in Rush Hour Using Multi-Objective Variable Neighborhood Strategy Adaptive Search with a Mobile Application

2023

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The purpose of this study is to address two major issues: (1) the spread of epidemics such as COVID-19 due to long waiting times caused by a large number of waiting for customers, and (2) excessive energy consumption resulting from the elevator patterns used by various customers. The first issue is addressed through the development of a mobile application, while the second issue is tackled by implementing two strategies: (1) determining optimal stopping strategies for elevators based on registered passengers and (2) assigning passengers to elevators in a way that minimizes the number of floors the elevators need to stop at. The mobile application serves as an input parameter for the optimization toolbox, which employs the exact method and multi-objective variable neighborhood strategy adaptive search (M-VaNSAS) to find the optimal plan for passenger assignment and elevator scheduling. The proposed method, which adopts an even-odd floor strategy, outperforms the currently practiced procedure and leads to a 42.44% reduction in waiting time and a 29.61% reduction in energy consumption. Computational results confirmed the effectiveness of the proposed approach.

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Optimal Dispatch and Control Strategy of Integrated Energy System Considering Multiple P2H to Provide Integrated Demand Response

Cited by 6 publications

References 29 publications

Day-Ahead and Intra-Day Economic Dispatch of Electricity Hydrogen Integrated Energy System With Virtual Energy Storage

Day-Ahead and Intra-Day Economic Dispatch of Electricity Hydrogen Integrated Energy System With Virtual Energy Storage

Optimal scheduling strategy of electricity‐heat‐hydrogen integrated energy system under different operating modes

Minimizing Energy Usage and Makespan of Elevator Operation in Rush Hour Using Multi-Objective Variable Neighborhood Strategy Adaptive Search with a Mobile Application

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