摘要
空调负荷已经成为我国夏季用电的主要负荷之一,而冷水机组是中央空调系统中消耗功率最大的部分。对于多台机组联合运行的系统,每台冷水机组常在部分负荷下运行。基于用户侧需求响应情况,采用多项式回归的方法建立了COP-PLR 4次多项式回归模型。以使冷水机组运行能耗最小建立目标函数,研究了改进混合遗传算法优化冷水机组PLR的控制策略,通过优化各台冷水机组的PLR以提高机组系统的整体COP。与原有控制方法对比,该典型日能耗减少了702 kW,节能率为8.48%,验证了该优化方法的可行性。
Air conditioning load has become one of the main loads of summer electricity consumption in China,and chiller is the largest part of the central air conditioning system power consumption.For a system with multiple units operating together,each chiller often operates under partial load.Based on the user-side demand response,the quaternary polynomial regression model of COP-PLR is established by polynomial regression method.In order to minimize the operating energy consumption of the chiller,the objective function is established,and the control strategy of optimizing PLR of the chiller with improved hybrid genetic algorithm is studied.The overall COP of the chiller is improved by optimizing PLR of each chiller.Compared with the original control method,the typical daily energy consumption is reduced by 702 kW,and the energy saving rate is 8.48%,which verifies the feasibility of the optimization method.
作者
闫秀联
王乐唯
刘盼
吉星星
闫秀英
YAN Xiulian;WANG Lewei;LIU Pan;JI Xingxing;YAN Xiuying(Hua Qing College,Xi’an University of Architecture and Technology,Xi’an 710043,China;Xi’an Wentai Information Technology Co.,Ltd.,Xi’an 710000,China;School of Information and Control Engineering,Xi’an University of Architecture and Technology,Xi’an 710055,China;School of Building Services Science and Engineering,Xi’an University of Architecture and Technology,Xi’an 710055,China)
出处
《电力需求侧管理》
2022年第4期73-78,共6页
Power Demand Side Management
基金
国家自然科学基金资助项目(51508446)
陕西省重点研发计划项目(2017ZDXM-GY-025)。
