炼铁系统的能源消耗占钢铁联合企业总能耗的60%以上,提高炼铁系统的能源效率已成为解决钢铁工业这些问题最有效的方法之一。主要从炼铁系统物质流和能量流的角度出发,分析了炼铁系统(包括烧结和高炉)的资源和能源消耗情况,并以唐钢南区炼铁系统为例,计算了其炼铁系统由含碳能源引起的CO2排放量。
The energy consumption of ironmaking system accounts for more than 60% for that of an integrated steel plant.One of the most effective ways to solve these problems is to improve the energy efficiency of the ironmaking system.From the view of material flow and energy flow,the resources and energy consumption status of ironmaking system are analyzed in this paper.And then,the CO2 emissions caused by carbon energy of Tangshan Steel is calculated.
参考文献
[1] | 殷瑞钰.绿色制造与钢铁工业[J].钢铁,2000(06):61-65. |
[2] | 张春霞,齐渊洪,严定鎏,胡长庆,张旭孝.中国炼铁系统的节能与环境保护[J].钢铁,2006(11):1-5. |
[3] | 张春霞,齐渊洪,胡长庆,许海川,尹建威,陈丽云.炼铁系统二次能源利用与生态环境保护——烧结与炼铁的二次能源分析与污染物的排放[C].全国能源与热工学术年会论文集,2004:578-582. |
[4] | 周继程,张春霞,郦秀萍,樊波.中国高炉工序能耗现状及节能技术的回顾与展望[J].钢铁研究学报,2010(09):1-4,12. |
[5] | 周先武,陈天柱,左江涛.低温厚料层烧结技术的应用[J].烧结球团,2003(03):34-37. |
[6] | 张崇民 .废弃塑料冶金原料化的相关基础研究[D].东北大学,2002. |
[7] | Jose Adilson de CASTRO;Hiroshi NOGAMI;Jun-ichiro YAGI .Numerical Investigation of Simultaneous Injection of Pulverized Coal and Natural Gas with Oxygen Enrichment to the Blast Furnace[J].ISIJ International,2002(11):1203-1211. |
[8] | A.BABICH .Co-injection of Noncoking Coal and Natural Gas in Blast Furnace[J].ISIJ International,1999(3):229-238. |
[9] | Peter Richard Austin .Prediction of Blast Furnace Performance with Top Gas Recycling[J].ISIJ International,1998(3):239-245. |
[10] | Mansheng Chu;Hiroshi Nogami;Jun-ichiro Yagi .Numerical Analysis on Blast Furnace Performance under Operation with Top Gas Recycling and Carbon Composite Agglomerates Charging[J].ISIJ International,2004(12):2159-2167. |
[11] | 殷瑞钰.从开放系统、耗散结构到钢厂的能量流网络化集成[J].中国冶金,2010(08):1-14. |
[12] | 殷瑞钰.论钢厂制造过程中能量流行为和能量流网络的构建[J].钢铁,2010(04):1-9. |
[13] | 周继程,郦秀萍,上官方钦,张春霞.我国烧结工序能耗现状及节能技术和措施[J].冶金能源,2010(02):23-26. |
[14] | 上官方钦,张春霞,胡长庆,郦秀萍,周继程.中国钢铁工业的CO2排放估算[J].中国冶金,2010(05):37-42. |
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