%0 Journal Article
%T 基于碳排放流理论的梯级水风光储一体经济调度<br>Economic Scheduling of a Cascade Hydro-Wind-Photovoltaic-Storage System Based on Carbon Emission Flow Theory
%A 魏伊琳
%A 荣娜
%A 曹韵
%J Modeling and Simulation
%P 5486-5496
%@ 2324-870X
%D 2023
%I Hans Publishing
%R 10.12677/MOS.2023.126498
%X 为分析梯级水风光储一体化发电模型对电力系统的低碳贡献，本文构建了梯级水风光储一体化低碳经济调度系统。首先，考虑系统经济性，将包含碳交易成本等在内的系统综合成本最小设定为目标函数。其次，对该模型进行求解，运用碳排放流理论对于节点碳势、节点碳流率以及节点总碳流率进行计算，分析梯级水风光储一体化模型对于低碳电力的作用。最后，借助算例IEEE30节点系统的求解结果，分析梯级水风光储一体化模型的经济性能。算例结果表明，所提梯级水风光储一体化调度模型在低碳性和经济性均具有良好表现。<br />
In order to analyze the low-carbon contribution of integrated a Cascade Hydro-Wind-Photovoltaic-
Storage System power generation to the power system, this paper constructs a low-carbon economic dispatch system for a cascade Hydro-Wind-Photovoltaic-Storage (CHWPS) system. Firstly, having taken system economy into consideration, the minimization of the integrated system cost including carbon trading cost is set as the objective function. Secondly, the model is solved, and the carbon emission flow theory is applied to calculate the node carbon potential, node carbon flow rate and node total carbon flow rate to analyze the role of the cascade Hydro-Wind-Photo- voltaic-Storage system model for low-carbon electricity. Finally, the economic performance of the cascade Hy-dro-Wind-Photovoltaic-Storage system model is analyzed with the help of the solving results of the IEEE 30-node system. The results of the example show that the proposed cascade Hy-dro-Wind-Photovoltaic-Storage system scheduling model has good performance in terms of low-carbon and economic efficiency.
%K 碳排放流，梯级水风光储一体化，经济调度<br>Carbon Emission Flow
%K CHWPS
%K Economic Dispatch
%U http://www.hanspub.org/journal/PaperInformation.aspx?PaperID=75853