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基于能源枢纽的钢铁制造过程多能源协同优化
引用本文:Shuai Liu,Sheng Xie,Qi Zhang. 基于能源枢纽的钢铁制造过程多能源协同优化[J]. 矿物冶金与材料学报, 2021, 28(8): 1378-1386. DOI: 10.1007/s12613-021-2281-7
作者姓名:Shuai Liu  Sheng Xie  Qi Zhang
作者单位:State Environmental Protection Key Laboratory of Eco-Industry,Northeastern University,Shenyang 110819,China
摘    要:The production process of iron and steel is accompanied by a large amount of energy production and consumption. Optimal scheduling and utilization of these energies within energy systems are crucial to realize a reduction in the cost, energy use, and CO2 emissions. However, it is difficult to model and schedule energy usage within steel works because different types of energy and devices are involved. The energy hub (EH), as a universal modeling frame, is widely used in multi-energy systems to improve its efficiency, flexibility, and reliability. This paper proposed an efficient multi-layer model based on the EH concept, which is designed to systematically model the energy system and schedule energy within steelworks to meet the energy demand. Besides, to simulate the actual working conditions of the energy devices, the method of fitting the curve is used to describe the efficiency of the energy devices. Moreover, to evaluate the applicability of the proposed model, a case study is conducted to minimize both the economic operation cost and CO2 emissions. The optimal results demonstrated that the model is suitable for energy systems within steel works. Further, the economic operation cost decreased by 3.41%, and CO2 emissions decreased by approximately 3.67%.

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Multi-energy synergistic optimization in steelmaking process based on energy hub concept
Shuai Liu,Sheng Xie,Qi Zhang. Multi-energy synergistic optimization in steelmaking process based on energy hub concept[J]. International Journal of Minerals,Metallurgy and Materials, 2021, 28(8): 1378-1386. DOI: 10.1007/s12613-021-2281-7
Authors:Shuai Liu  Sheng Xie  Qi Zhang
Abstract:The production process of iron and steel is accompanied by a large amount of energy production and consumption. Optimal scheduling and utilization of these energies within energy systems are crucial to realize a reduction in the cost, energy use, and CO2 emissions. However, it is difficult to model and schedule energy usage within steel works because different types of energy and devices are involved. The energy hub (EH), as a universal modeling frame, is widely used in multi-energy systems to improve its efficiency, flexibility, and reliability. This paper proposed an efficient multi-layer model based on the EH concept, which is designed to systematically model the energy system and schedule energy within steelworks to meet the energy demand. Besides, to simulate the actual working conditions of the energy devices, the method of fitting the curve is used to describe the efficiency of the energy devices. Moreover, to evaluate the applicability of the proposed model, a case study is conducted to minimize both the economic operation cost and CO2 emissions. The optimal results demonstrated that the model is suitable for energy systems within steel works. Further, the economic operation cost decreased by 3.41%, and CO2 emissions de-creased by approximately 3.67%.
Keywords:multi-energy system  energy hub  optimization  steel works
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