Effects of Distributed Generation on Carbon Emission Reduction of Distribution Network

Di Wu, Jun Su, Zhengyu Chen, Hanhan Liu
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Abstract

Increasing renewable energy integration in power systems is an important way of decarbonising carbon emissions. Recently, the ever-increasing deployment of distributed generation (DG) is considered effective in reducing carbon emissions and power loss, such as wind, photovoltaic (PV), and combined heat and power generation (CHP) on the demand side. Thus, the evaluation of carbon emission flow (CEF) will be a crucial factor for distribution network planning with the integration of DGs, which may act as a supplemented indicator in addition to traditional power flow study. In the planning stage, it is paramount to ensure that decarbonisation process of the power distribution system is in line with environmental and technical targets. Thus, the paper proposes a modelling strategy to combine the power flow and carbon emission flow. It aims to analyse and calculate the CEF based on the power-flow study. The novel model satisfies the power flow and CEF balance and can be directly used to evaluate the decarbonization of power system. The results of this study can help relevant energy decision-makers to do appropriate renewable energy generation planning and guide the power system to achieve carbon neutrality.
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分布式发电对配电网碳减排的影响
在电力系统中增加可再生能源的整合是减少碳排放的重要途径。最近,不断增加的分布式发电(DG)的部署被认为对减少碳排放和电力损失有效,例如需求侧的风能、光伏(PV)和热电联产(CHP)。因此,碳排放流(CEF)的评价将成为dg一体化配电网规划的关键因素,可作为传统潮流研究的补充指标。在规划阶段,确保配电系统的脱碳过程符合环境和技术目标是至关重要的。因此,本文提出了一种结合电力潮流和碳排放潮流的建模策略。目的是在潮流研究的基础上,分析和计算总能量场。该模型满足潮流和CEF平衡,可直接用于电力系统的脱碳评估。研究结果可以帮助相关能源决策者进行适当的可再生能源发电规划,指导电力系统实现碳中和。
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