摘要
将智慧工业园区作为用户侧参与电网优化调度的重要平台,分析了智慧工业园区内部负荷参与源荷互动运行的能力,针对智慧工业园区参与系统运行建立双层优化调度模型。其中,电网层以调度运行费用最小为目标,对智慧工业园区功率缺额或富余出力进行补偿或消纳,保证系统实时功率平衡;智慧工业园区层在保证自身收益的情况下,对园区内部可控负荷进行优化调度,实现负荷对系统运行的主动参与。模型中采用机会约束对清洁能源不确定性进行处理。最后,在算例中验证了所建模型的可行性,比较了双层调度模式与单层调度模式的优化差异,实现含智慧工业园区电力系统的经济运行。
Based on user side participated optimal dispatching mathematical model of the intelligent industrial park platform, the ability that the internal loads could participate in the interaction between power and loads is estimated. In the model, the minimization of dispatch operation cost is set as the goal where the grid compensates the power shortage of intelligent industrial park or adopts its extra power to ensure real-time power balance of the whole system. The intelligent industrial park makes optimal dispatch plan for internal controllable loads to make them participate into the system operation for the purpose of its optimal profits. Finally, the feasibility of the constructed model is proved and the comparison between bilevel optimal dispatch and single optimal dispatch is made to highlight the characteristic of bilevei optimal dispatch. The economic operation of system with intelligent industrial parks is achieved.
出处
《电力系统自动化》
EI
CSCD
北大核心
2017年第1期31-38,101,共9页
Automation of Electric Power Systems
基金
国网甘肃省电力公司科技项目(52272214003Y)资助
关键词
智慧工业园区
源荷互动
双层优化调度
机会约束
需求响应
高载能企业
intelligent industrial park
interaction between power and loads
bilevel optimal dispatch
chance constraint demand response
energy intensive enterprises
