Abstract
During the production and operation of iron and steel enterprises, a large amount of very important by-product gas resources such as blast furnace gas, coke oven gas and Linz–Donawitz process gas are produced. In order to realize the efficient use value of gas resources, focus on two aspects of its comprehensive utilization and optimization methods. Firstly, according to the different characteristics of by-production gas in iron and steel enterprises at present, the optimal use way is analyzed to promote the conversion of by-production gas from the main fuel utilization (or even direct emission) to the moderate resource utilization, so as to realize the improvement of comprehensive utilization rate. Secondly, according to the characteristics of gas energy flow system, an energy flow view description model is established and the linear optimization model of gas energy flow density is given; then, the feasibility of the optimized method is verified by simulation with actual data of a steel plant.
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References
Zhao, G., Zhang, H., Zhang, G., Guo, L.: Morphology and coupling of environmental boundaries in an iron and steel industrial system for modelling metabolic behaviours of mass and energy. J. Clean. Prod. 100(8), 247–261 (2015)
Zhang, C.-X., Shangguan, F.-Q., Hu, C.-Q., et al.: Steel process structure and its impact on CO2 emission. Iron Steel 45(5), 1–6 (2010)
Jiang, Z.-G., Zhang, H.: Study on index system of multi-objective decision-making for production process oriented green manufacturing enterprise. Machin. Des. Manuf. 8, 232–234 (2008)
Zhao, G., Zhang, X., Fang, C., Ruan, D., Wang, Y.: Systemic boundaries in industrial systems: a new concept defined to improve LCA for metallurgical and manufacturing systems. J. Clean. Prod. 187, 717–729 (2018)
Hu, J.-J., Xie G.-W.: Analysis of reasonable utilization of gas resources in iron and steel enterprise. Energy Metallurg. Ind. 3, 3 (2015)
Zhang, Q.: Study on reasonable utilization and optimizing distribution of gases fuel in iron and steel complex. Northeastern, Shenyang (in Chinese) (2008)
Zhao, G., Gao, X., Yang, S., Duan, J., Hu, J., Guo, X., Wang, Z.: A mechanism model for accurately estimating carbon emissions on a micro scale of the steel industrial system. ISIJ Int. 59(2), 381–390 (2019)
Liu, H., Wang, W., Wei, X.-M., Huang, Y., Liu, G.-Q.: Research progress of utilization of industrial by-product gas. Mod. Chem. Ind. 36(04), 46–52 (2016)
Zhang, Q., Cai, J.-J., Wu, F.-Z., Pang, X.-L., Ge, H.: Utilization of blast furnace in metallurgical industry. Ind. Furn. 01, 9–12 (2007)
Guo, H.: Comprehensive optimized utilization of oil and gas resources in refinery enterprises. South China University of Technology, Guang dong (2006). https://doi.org/10.7666/d.y990436
Wang, H.-F., Zhang, C.-X., Hu, C.-Q., Qi, Y.-H.: Important development trends of coke oven gas utilization in steel plant. J. Iron Steel Res. 03, 1–12 (2008)
Liu, J.-X., Zhang, P.-H.: Methanol product from COG and LDG. Fuel Chem. Process. 4401, 51–52 (2013)
Zhao, F.: Research and application of energy consumption modeling method in iron and steel enterprises. Tong Ji University, Shanghai (2011). https://doi.org/10.7666/d.y2012221
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This work is financially supported by National Natural Science Foundation of China (Grant No. 51675388).
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Li, X., Zhao, G., Zhou, Q., Yan, P., Liu, X., Yu, S. (2021). Analysis of Coal Gas Resource Utilization and Energy Flow View Model in Iron and Steel Enterprises. In: Scholz, S.G., Howlett, R.J., Setchi, R. (eds) Sustainable Design and Manufacturing 2020. Smart Innovation, Systems and Technologies, vol 200. Springer, Singapore. https://doi.org/10.1007/978-981-15-8131-1_42
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DOI: https://doi.org/10.1007/978-981-15-8131-1_42
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