多能互补新能源大基地的三阶段多模式优化运行研究OA
Research on Three-Stage and Multi-Mode Operation Optimization for Large-Scale Multi-Energy Complementary New Energy Bases
[目的]多能互补大基地中资源种类多元,新能源出力波动大、运行工况复杂、业主需求多样,实际运营优化面临较大的挑战,因此需要根据工程实际来设计开发风光火储耦合系统的运行方案.[方法]建立新能源大基地运行模型,以经济性、碳排放、负荷波动率、新能源消纳率为核心优化目标,综合考虑各种运行需求及不同时间尺度下的设备灵活性,研究多模式三阶段运行优化方案,并结合实际工程案例对全年典型日以及各季节典型日进行分析,验证方案的有效性.[结果]调度方法可有效平衡多元优化目标,兼顾设备灵活性与多样化需求,提升大基地运行的经济性与友好性.[结论]所提方案可有效解决大基地运行优化的多模式多阶段问题,建议运营方基于不同季节的新能源出力特性签订外送曲线合约来提高经济性.研究结果可为同类型新能源大基地的运营提供工程案例参考与技术支撑.
[Objectives]In large-scale multi-energy complementary bases,there are multiple types of resources,significant fluctuations in new energy output,complex operating conditions,and diverse demands of owners,leading to great challenges in the actual operation optimization.Therefore,it is necessary to design and develop operation scheme of the wind-solar-thermal-storage coupled system according to engineering practice.[Methods]The operation model of large-scale new energy bases is established.Taking economic efficiency,carbon emission,load fluctuation rate,and new energy accommodation rate as the core optimization objectives,this study examines the three-stage multi-mode operation optimization scheme by comprehensively considering various operation requirements and equipment flexibility under different time scales.Combined with actual engineering cases,the typical days of the year and each season are analyzed to verify the effectiveness of the scheme.[Results]The dispatching method can effectively balance multiple optimization objectives,give consideration to equipment flexibility and diverse requirements,and improve the economic efficiency and operational friendliness of large-scale new energy bases.[Conclusions]The proposed scheme can effectively solve the multi-mode and multi-stage problems of large-scale new energy base operation optimization.It is suggested that the operators sign power export curve contracts based on the output characteristics of new energy in different seasons to improve the economic efficiency.The research results can provide engineering case reference and technical support for operation of the same type of large-scale new energy bases.
严新荣;董联鑫;赵大周;郑成航
浙江大学能源工程学院,浙江省 杭州市 310027||中国华电集团有限公司,北京市西城区 100031华电电力科学研究院有限公司,浙江省 杭州市 310030华电电力科学研究院有限公司,浙江省 杭州市 310030浙江大学能源工程学院,浙江省 杭州市 310027
能源科技
多能互补新能源大基地风光火储新能源消纳率运行优化低碳转型运行模式
multi-energy complementationnew energy basewind-solar-thermal-storagenew energy accommodation rateoperation optimizationlow-carbon transformationoperation mode
《发电技术》 2026 (1)
26-37,12
国家重点研发计划项目(2022YFB4100800).Project Supported by National Key R&D Program of China(2022YFB4100800).
评论