基于新型电力系统的工业园区综合能源耦合优化运行方法研究OA
Research on integrated energy coupling optimization operation method of industrial park based on novel power system
新型电力系统的建设对我国电力需求侧资源响应提出更高要求.作为我国电力需求侧的主要用户,工业负荷用电占比高、可调负荷潜力大,且其负荷曲线受复杂工艺、工序过程影响;另一方面,作为我国能源行业转型必然趋势,多能耦合将成为能源供给侧节能减排的重要手段.文章根据高耗能工业用户负荷聚类分析结果,提取各工序、工艺下的负荷关键指标,基于实际工业生产数据构建典型工艺过程用能模型,预测计及工艺过程特性的工业负荷响应曲线,以最小化日运行成本为目标,针对工业负荷用能与产出状态,提出基于新型电力系统的工业园区综合能源耦合优化运行模型,比较不同的系统规划方案对运行成本的影响,证明了所提模型的有效性.
The construction of novel power system puts forward higher requirements for resource response of power demand side in China.As the main user of power demand side in China,industrial load accounts for a high propor-tion of electricity consumption,has a large potential for adjustable load,and its load curve is affected by complex processes and procedures;on the other hand,as the inevitable trend of energy industry transition in China,inte-grated energy coupling will become an important method of energy saving and emission reduction on the energy sup-ply side.According to the results of load clustering of high energy-consuming industrial users,this paper extracts the key indicators of load under each process and technology,constructs a typical process energy model based on actual industrial production data,and predicts the industrial load response curve considering the characteristics of the process.With the objective of minimizing the daily operation cost,an integrated energy coupling optimization operation model of industrial park based on novel power system is proposed for the industrial loads of energy con-sumption and output states.The effectiveness of the proposed model is demonstrated by comparing the impacts of different system planning scenarios on the operation cost.
段梅梅;黄奇峰;庄重;周承翰;方凯杰;黄艺璇
国网江苏省电力有限公司营销服务中心,南京 210000国网江苏省电力有限公司营销服务中心,南京 210000国网江苏省电力有限公司营销服务中心,南京 210000国网江苏省电力有限公司营销服务中心,南京 210000国网江苏省电力有限公司营销服务中心,南京 210000国网江苏省电力有限公司营销服务中心,南京 210000
信息技术与安全科学
工业负荷综合能源需求侧响应新型电力系统
industrial loadintegrated energyresponse of demand sidenovel power system
《电测与仪表》 2026 (3)
33-47,15
国网江苏省电力有限公司科技项目(J2023136)
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