陶瓷生产流程的负荷转移特性建模与需求侧响应优化方法OA
Modeling of Load Transfer Characteristics and Optimization Method of Demand Side Response for Ceramic Production Process
以陶瓷生产为代表的高载能企业的工业负荷用电量占比大,其生产流程的用电特性具有一定的可调节能力,是参与需求侧响应的重要资源.文中提出一种面向需求侧响应的陶瓷生产流程的"负荷转移"特性建模与用电特性优化方法.首先,根据陶瓷生产流程构建其用电特性模型,刻画生产流程用电特性和仓储容量之间的关系.其次,从用电量特性的角度刻画具有负荷转移特性的设备及其仓储容量,建立了陶瓷生产流程的负荷转移特性模型.再次,以综合收益为优化目标,以生产流程安全为约束,以负荷转移特性设备用电情况为控制变量,提出了陶瓷企业参与需求侧响应的优化调度方法.最后,以某建筑陶瓷企业生产流程为算例,验证了所提方法的有效性与可行性.
The industrial loads of energy-intensive enterprises,represented by ceramic production,account for a large proportion of electricity consumption.Represented ceramic production,electricity consumption characteristics of their production processes are adjustable,which is an important resource to participate in demand side response.This paper proposes an optimization method for"load transfer"characteristic modeling and electricity consumption characteristics of ceramic production process oriented towards demand side response.Firstly,the characteristic model of electricity consumption is constructed according to the ceramic production process.The relationship between electricity consumption characteristics of the production process and storage capacity is portrayed.Secondly,from the perspective of electricity consumption characteristics,the equipment with load transfer characteristics and its storage capacity are portrayed.The load transfer characteristic model of the ceramic production process is established.Thirdly,the optimal dispatch method for ceramic enterprises to participate in demand side response is proposed by taking the comprehensive revenue as the optimization objective,the safety of the production process as the constraint,and the load transfer characteristics of the electricity consumption of equipment as the control variable.Finally,the production process of an architectural ceramic enterprise is used as a case to verify the effectiveness and feasibility of the proposed method.
黄潇扬;雪映;蔡煜;张延旭;蔡泽祥
华南理工大学电力学院,广东省 广州市 510641华南理工大学电力学院,广东省 广州市 510641广东新型储能国家研究院有限公司,广东省 广州市 510410南方电网电力科技股份有限公司,广东省 广州市 510080华南理工大学电力学院,广东省 广州市 510641
陶瓷生产流程高载能企业优化调度负荷转移需求侧响应用电优化
ceramicproduction processenergy-intensive enterpriseoptimal dispatchload transferdemand side responseelectricity consumptionoptimization
《电力系统自动化》 2026 (2)
27-34,8
广东省重点领域研发计划资助项目(2019B111109002) This work is supported by Key-area R&D Program of Guangdong Province(No.2019B111109002).
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