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作 者:梁青艳[1] 孙彦广[1] LIANG Qing-yan;SUN Yan-guang(Automation Research and Design Institute of Metallurgical Industry, China Iron andSteel Research Institute Group,Beijing 100071 ,China)
机构地区:[1]中国钢研科技集团冶金自动化研究设计院,北京100071
出 处:《冶金自动化》2019年第3期17-24,共8页Metallurgical Industry Automation
基 金:国家重点研发计划项目(2017YFB0304000)
摘 要:建立能量流网络节点输入输出动态模型是从系统和全局角度了解节能降耗环节及进行多介质协调优化的关键。从能量流网络结构出发,以冶金流程工程学为理论基础,研究了能量流网络中主工序生产单元节点的消耗回收模型、能源单元节点的生产消耗模型。以某钢铁企业实际数据为基础,进行了能量流网络节点输入输出动态仿真,仿真结果表明所建立的能量流网络节点模型误差较小,可有效模拟实际钢铁企业能源调配。所做研究对企业进行计划排产,不同工况下的调度分配具有指导意义。Establishing the input and output dynamic model of the energy flow network nodes is the key to understand the energy saving and consumption reduction stage and the coordinated optimization of multi-energy medium from both the systematic and global perspective. Based on the energy flow network structure and the metallurgical process engineering theory, the consumption recovery model of the main process production unit nodes and the production consumption model of the energy unit nodes in the energy flow network are studied. Based on the actual data of an iron and steel enterprise ,the input and output of energy flow network nodes are simulated. The analysis results show that the error of the established energy flow network nodes simulation model is small and can effectively simulate the actual energy allocation of iron and steel enterprises. The research has a guiding significance for the planning and scheduling of enterprises under different working conditions.
分 类 号:TF083[冶金工程—冶金物理化学]
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