连铸坯热送热装在节能减排中的应用
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摘要
连铸坯热送热装工艺可以提高产品质量,改进生产效率,是企业节能减排、降本增效最直接有效的方法。结合热送热装技术的历史发展情况,描述了热送热装技术的具体分类、前提条件和显著优势,并就国内钢厂生产实践情况和技术的应用前景进行了简要说明。
The heat transfer and heat charging process of continuous casting billets can improve product quality and production efficiency. It is the most direct and effective way for enterprises to save energy, reduce emissions, reduce costs and increase efficiency. Combined with the historical development of heat transfer technology, this paper describes the specific classification, preconditions and significant advantages of heat transfer technology. The production practice of domestic steel production and the application prospect of technology are briefly described.
The heat transfer and heat charging process of continuous casting billets can improve product quality and production efficiency. It is the most direct and effective way for enterprises to save energy, reduce emissions, reduce costs and increase efficiency. Combined with the historical development of heat transfer technology, this paper describes the specific classification, preconditions and significant advantages of heat transfer technology. The production practice of domestic steel production and the application prospect of technology are briefly described.
引文
[1]杜守虎.连铸坯余热利用技术现状及困境//全国冶金能源环保生产技术会[C].北京:中国金属学会:,2013:3.
[2]于洋,王畅,王林,等.有限元模拟在板坯直装及热装中的应用[J].中国冶金,2014,24(1):41-46.
[3]于宏伟.热送热装工艺的研究[J].宽厚板,2011(2):4-7.
[4]蒋扬虎,肖坤伟.连铸坯热送热装工艺热技术概述[J].武钢技术,19989(4):21-24.
[5]李永中.连铸坯热装热送技术[J].山西冶金,2007,30(3):10-12.
[6]陈小龙,余轶峰,董苑华,等.柳钢热送热装技术应用浅析[J].柳钢科技,2014(6):23-26.
[7]戴俊,许辉.唐钢连铸坯热装热送设备研制[J].山西冶金,2007,30(3):40-41.
[8]吴战芳,徐李军,王洪,等.返红温度对铌微合金高强度耐腐蚀船板钢组织与性能的影响[J].金属热处理,2014,39(2):43-46.
[9]葛建华,王明林,马忠伟,等.连铸坯热送热装工艺的有限元模拟[J].铸造技术,2017,38(1):166-171.
[10]Hongming Wang,Guirong Li,Junjie Wang.Heat-transfer model on the improvement of continuous casting slab temperature[J].Journal of University of Science and Technology Beijing(English Edition),2004,11(1):18-22.
[11]孙成礼,林健.热轧板坯热装热送技术的应用[J].新疆钢铁,2014(1):9-13.
[12]陈红雨,于长春,张建方.宁波钢铁连铸坯热装热送生产实践[J].山东冶金,2012,34(1):57-58.
[13]蔡开科.连铸坯热装热送技术//无缺陷铸坯及热送热装工艺技术研讨会论文汇编[C].昆明:中国金属学会连续铸钢分会,2004:12.
[14]K Chakravarty,S Das,K Singh.Identification and improvement in operating practices of reheating furnace to reduce fuel consumption in hot strip mill[J].Ironmaking&Steelmaking,2013,40(1):74-80.
[15]苑安民,钱惠国,邢跃,等.连铸坯热装对加热炉热效率的影响[J].冶金能源,2000,19(5):28-31.
[16]邢跃.宝钢连铸坯热送热装技术的经济效益分析与评价[J].上海节能,1996(10):15-18.
[17]孙永乐,刘德义,张吉伟,等.连铸坯热送热装生产工艺的实践[J].中国冶金,2006(2):16-19.
[18]李继.连铸坯热送热装的生产与实践[J].甘肃冶金,2008,30(4):19-21.
[19]韩孝永.连铸坯热送热装技术的应用[J].有色金属工程,2007,59(1):56-58.
[20]葛建华.板坯热送热装过程热能综合利用研究[D].北京:钢铁研究总院,2017.
[2]于洋,王畅,王林,等.有限元模拟在板坯直装及热装中的应用[J].中国冶金,2014,24(1):41-46.
[3]于宏伟.热送热装工艺的研究[J].宽厚板,2011(2):4-7.
[4]蒋扬虎,肖坤伟.连铸坯热送热装工艺热技术概述[J].武钢技术,19989(4):21-24.
[5]李永中.连铸坯热装热送技术[J].山西冶金,2007,30(3):10-12.
[6]陈小龙,余轶峰,董苑华,等.柳钢热送热装技术应用浅析[J].柳钢科技,2014(6):23-26.
[7]戴俊,许辉.唐钢连铸坯热装热送设备研制[J].山西冶金,2007,30(3):40-41.
[8]吴战芳,徐李军,王洪,等.返红温度对铌微合金高强度耐腐蚀船板钢组织与性能的影响[J].金属热处理,2014,39(2):43-46.
[9]葛建华,王明林,马忠伟,等.连铸坯热送热装工艺的有限元模拟[J].铸造技术,2017,38(1):166-171.
[10]Hongming Wang,Guirong Li,Junjie Wang.Heat-transfer model on the improvement of continuous casting slab temperature[J].Journal of University of Science and Technology Beijing(English Edition),2004,11(1):18-22.
[11]孙成礼,林健.热轧板坯热装热送技术的应用[J].新疆钢铁,2014(1):9-13.
[12]陈红雨,于长春,张建方.宁波钢铁连铸坯热装热送生产实践[J].山东冶金,2012,34(1):57-58.
[13]蔡开科.连铸坯热装热送技术//无缺陷铸坯及热送热装工艺技术研讨会论文汇编[C].昆明:中国金属学会连续铸钢分会,2004:12.
[14]K Chakravarty,S Das,K Singh.Identification and improvement in operating practices of reheating furnace to reduce fuel consumption in hot strip mill[J].Ironmaking&Steelmaking,2013,40(1):74-80.
[15]苑安民,钱惠国,邢跃,等.连铸坯热装对加热炉热效率的影响[J].冶金能源,2000,19(5):28-31.
[16]邢跃.宝钢连铸坯热送热装技术的经济效益分析与评价[J].上海节能,1996(10):15-18.
[17]孙永乐,刘德义,张吉伟,等.连铸坯热送热装生产工艺的实践[J].中国冶金,2006(2):16-19.
[18]李继.连铸坯热送热装的生产与实践[J].甘肃冶金,2008,30(4):19-21.
[19]韩孝永.连铸坯热送热装技术的应用[J].有色金属工程,2007,59(1):56-58.
[20]葛建华.板坯热送热装过程热能综合利用研究[D].北京:钢铁研究总院,2017.