摘要
为降低规模化养殖业用能成本及碳排水平,提出了考虑围护结构动态特性的低碳养殖场综合能源系统优化调度方法。首先,从“源-网-荷”全环节构建了低碳养殖场的综合能源系统模型,并通过线性化处理以提高求解速度;为了挖掘我国北方冬季养殖场热负荷的灵活性调节能力,建立了牲畜舍围护结构的热动态模型,可在保证牲畜温度舒适度的前提下,通过动态调整流经牲畜舍内散热器的水流量,参与系统运行调度;进而,以养殖场综合能源系统运行成本最小化为目标,构建了养殖场综合能源系统的优化调度模型;采用一个典型养殖场综合能源系统算例对所提方法进行验证。结果表明,基于所提方法得到的优化调度方案可最大限度利用养殖场中的沼气资源进行电能和热能的联合供给,同时通过对养殖场热负荷灵活性的利用可有效降低养殖场综合能源系统的运行成本。
To reduce the energy cost and carbon emissions due to the large-scale farming,an optimal scheduling method for integrated energy systems(IES)in low-carbon farm considering thermal dynamic characteristics of the livestock houses was proposed. First,the mathematical models of the integrated energy systems in a low-carbon farm were formulated from the perspective of "source-network-load",and the nonlinear models were linearized by certain mathematical methods to speed up the solving process. Second,the thermal dynamics of the livestock house with controllable indoor radiators was modeled to explore the flexibility of the heating loads of the livestock during the winter time in Northern China. Based on this model,the water flow rates in the radiators can be adjusted dynamically while the indoor temperatures are maintained within the comfort range. In this way,the heating loads of the livestock can be involved in the optimal scheduling of the integrated energy systems. Then,the optimal scheduling model of the integrated energy systems in a low-carbon farm was developed with the minimization of its operational cost as the objective. Numerical studies show that the proposed method can make full use of the biogas to supply electricity and heating loads in the low-carbon farm. Furthermore,the operational cost of the low-carbon farm can be further reduced by exploring the flexibility of the heating loads of the livestock.
作者
陈晚晴
陈柯任
施鹏佳
靳小龙
王慧媛
CHEN Wanqing;CHEN Keren;SHI Pengjia;JIN Xiaolong;WANG Huiyuan(Power Economic Research Institute of State Grid Fujian Electric Power Company,Fuzhou 350012,Fujian,China;Key Laboratory of Smart Grid of Ministry of Education,Tianjin University,Tianjin 300072,China)
出处
《电气传动》
2023年第2期58-66,共9页
Electric Drive
关键词
低碳养殖场
综合能源系统
优化调度
散热器
灵活性
low-carbon farm
integrated energy systems(IES)
optimal scheduling
radiator
flexibility