酒钢酸性球团烧结法布料工艺研究
|
摘要
球团烧结法是在普通烧结法和球团法的基础上开发出来的一种新型造块方法,适用于细粒级的铁矿粉造块。采用偏析布料是控制烧结过程的一种有效手段。对酒钢酸性球团烧结工艺尚有许多有待进一步研究的问题。本文针对酒钢酸性球团烧结原设计布料工艺不够合理的问题,进行了试验室和现场应用研究。
研究工作分为如下几个方面:(1)酸性球团烧结工艺原始料层和烧结过程透气性研究;(2)原设计方案条件下料层高度方向生球粒度和碳含量分布情况研究:(3)φ300 mm烧结杯上进行试验室研究,寻求合理的粒度分布及碳含量分布的结论依据烧结杯实验结论,对现场布料工艺进行改进;(4)对球团烧结工艺布料器及普通烧结工艺布料器进行比较分析。通过研究得到如下主要结论:
1.通过对酒钢酸性球团烧结法烧结料层透气性、粒度分布和碳含量分布调查的研究说明洒钢酸性球团烧结法烧结法烧结布料工艺不够合理是影响烧结经济技术指标的主要因素。
2.通过不同燃料偏析程度的烧结杯试验,说明酒钢酸性球团烧结工艺在上中下三层的合理燃料偏析程度是0.4%。
3.酒钢酸性球团烧结工艺由于烧结混合料粒度差异大,5~10mm含量达到80%,各粒级中碳含量差异也大,因此传统的烧结布料工艺由于导致燃料偏析程度过大,不适合酒钢球团烧结工艺。
4.酒钢酸性球团烧结工艺以前所运用的多辊布料工艺、反射板布料工艺、反偏析布料工艺、分层布料+反偏析布料工艺虽然在燃料偏析程度上逐步接近合理的燃料偏析程度值,但与目标值都有一定差距,最终确定轮式布料工艺比较适合酒钢酸性球团烧结工艺。
Hybrid pelletized sintering process is a new agglomerating method developed from conventional sintering and pelletizing, fine ore can be used in large quantity as raw materials for this process. In order to solve the problem of unproper segregation feeding methods in old design of acid hybrid palletized sinter process in Jiuquan Iron and Steel Corporation (JISCO), much site investigation and laboratory investigation work were carried out.
The original sinter-bed permeability of acid pelletized sintering and the permeability in sinter processing were measured. Particle-size and carbon distribution in sinter-bed in old design were investigated. In order to founding the proper carbon profile and particle-size profile in sinter-bed, some pot tests were also carried out in φ 300mm sintering pot. In accordance with the conclusion of pot tests, the distribution process of site was improved. At last, some modification was carried out which is about the distributor of acid hybrid pelletized sinter and conventional sinter. Following conclusions are obtained:
1.Based in the studying of sinter-bed permeability of acid pelletized sintering and the permeability in sintering processing, particle-size and carbon distribution, it is found that unreasonable collocation process is a main influence factor to technical-economic index.
2. Based on pot tests with different carbon profile in sinter-bed, it is found that suitable degree of carbon segregation in three-layer is 0.4%.
3. The wide range of particle size of mixture in acid pelletized sintering(the content
of 5~10 mm gets up to 80%) and carbon content induced to unproper carbon segregation, traditional distribution process is not suited for acid pelletized sintering in JISCO.
4. Different segregation feeding methods result in different carbon profile in three-layer. Wheel segregation feeding method is suitable for acid pelletized sintering.
研究工作分为如下几个方面:(1)酸性球团烧结工艺原始料层和烧结过程透气性研究;(2)原设计方案条件下料层高度方向生球粒度和碳含量分布情况研究:(3)φ300 mm烧结杯上进行试验室研究,寻求合理的粒度分布及碳含量分布的结论依据烧结杯实验结论,对现场布料工艺进行改进;(4)对球团烧结工艺布料器及普通烧结工艺布料器进行比较分析。通过研究得到如下主要结论:
1.通过对酒钢酸性球团烧结法烧结料层透气性、粒度分布和碳含量分布调查的研究说明洒钢酸性球团烧结法烧结法烧结布料工艺不够合理是影响烧结经济技术指标的主要因素。
2.通过不同燃料偏析程度的烧结杯试验,说明酒钢酸性球团烧结工艺在上中下三层的合理燃料偏析程度是0.4%。
3.酒钢酸性球团烧结工艺由于烧结混合料粒度差异大,5~10mm含量达到80%,各粒级中碳含量差异也大,因此传统的烧结布料工艺由于导致燃料偏析程度过大,不适合酒钢球团烧结工艺。
4.酒钢酸性球团烧结工艺以前所运用的多辊布料工艺、反射板布料工艺、反偏析布料工艺、分层布料+反偏析布料工艺虽然在燃料偏析程度上逐步接近合理的燃料偏析程度值,但与目标值都有一定差距,最终确定轮式布料工艺比较适合酒钢酸性球团烧结工艺。
Hybrid pelletized sintering process is a new agglomerating method developed from conventional sintering and pelletizing, fine ore can be used in large quantity as raw materials for this process. In order to solve the problem of unproper segregation feeding methods in old design of acid hybrid palletized sinter process in Jiuquan Iron and Steel Corporation (JISCO), much site investigation and laboratory investigation work were carried out.
The original sinter-bed permeability of acid pelletized sintering and the permeability in sinter processing were measured. Particle-size and carbon distribution in sinter-bed in old design were investigated. In order to founding the proper carbon profile and particle-size profile in sinter-bed, some pot tests were also carried out in φ 300mm sintering pot. In accordance with the conclusion of pot tests, the distribution process of site was improved. At last, some modification was carried out which is about the distributor of acid hybrid pelletized sinter and conventional sinter. Following conclusions are obtained:
1.Based in the studying of sinter-bed permeability of acid pelletized sintering and the permeability in sintering processing, particle-size and carbon distribution, it is found that unreasonable collocation process is a main influence factor to technical-economic index.
2. Based on pot tests with different carbon profile in sinter-bed, it is found that suitable degree of carbon segregation in three-layer is 0.4%.
3. The wide range of particle size of mixture in acid pelletized sintering(the content
of 5~10 mm gets up to 80%) and carbon content induced to unproper carbon segregation, traditional distribution process is not suited for acid pelletized sintering in JISCO.
4. Different segregation feeding methods result in different carbon profile in three-layer. Wheel segregation feeding method is suitable for acid pelletized sintering.
引文
[1] 傅菊英等,烧结球团学,长沙,中南工业大学出版社,1995
[2] 周取定,孔令坛:铁矿石造块理论及工艺,北京,冶金工业出版社,1992年
[3] 中南矿冶团矿教研室:铁矿粉造块,北京,冶金工业出版社
[4] 袁文彬,日本铁矿石造块新法的研究与应用,烧结球团,1990年,No1.P7~16
[5] N.Sakamoto等,球团烧结法的基础研究,烧结球团,1992年,No5.P43~47
[6] 斋腾 汛等,日本钢铁公司的烧结新工艺,国外烧结球团,1989年,No3.P11~16
[7] 袁文彬,日本烧成球团矿烧结法的工业性应用效果,烧结球团,1992年,No1.P36~42
[8] 牛肠 诚等,新式造块法的连续造球试验,国外烧结球团,1989年,Nol.P1~2
[9] Noboru Sakamoto et, Fundamental Investigation of New Iron ore Agglomerates and Evaluation of Their Properties for the Blast Furnance, [SI], Vol. 281998.8. P619~627
[10] 二羽安夫等,球团烧结混合工艺的发展及其在富山厂5号烧结机上的工业生产,国外钢铁,1991年,Noll.P1~6
[11] 孙君泉,球团烧结法的工业生产,国外钢铁,1994年,No8.P6~7
[12] 郑信懋译,富山钢铁厂混合造球工艺的工业生产,日本名古屋国际钢铁会议论文集,1990年8月
[13] 阪本等,新烧结法与常规烧结法比较,国外烧结球团,1988年,No5
[14] 王志花等,球团烧结法成矿过程的实验研究,钢铁,1994年,No8.P1~7
[15] 王志花等,小球团烧结法固结机理研究,烧结球团,1994年,No1.P1~5
[16] 郑信懋等,酒钢铁精矿球团烧结法新工艺研究,1993年7月P36~53
[17] 朱家骥等,全精矿小球烧结的试验研究,烧结球团,1996年,No1.P1~5
[18] 段劲松等,包头铁精矿小球烧结法工艺研究,烧结球团,1996年,No6.P4~8
[19] 单继国,全精矿小球团烧结工艺的试验研究,烧结球团,1994年,No1.
[20] 单继国等,小球烧结工艺应用效果,烧结球团,1996年,No1.P13~20
[21] 薛岳等,小球烧结的生产实践,烧结球团,1997年,No3.P21~23
[22] 孙涛等,安钢小球烧结的工业生产,烧结球团,1996年,No6.P8~11
[23] 胡宾生、杜鹤桂,小球团烧结工艺的基础研究,烧结球团,1991年,No5.P1~5
[24] 阪本 登等,新的铁矿石造块方法的研究,第五届国际造块会议论文集,P243~257
[25] Y. Niwa, O. Komatsu et al, Development of aHybrid Pelletized Sinter Process
and Its Commercial Operation at Fukuyama's No5 Sintering Plant, Iron and Steel Maker, 1986.7, P10~11
[26] 郑信懋等,酒钢铁精矿球团烧结试验室研究,第三届全国炼铁精料会议论文
[27] 张其瑞, 酒钢球团烧结法半工业试验工艺流程及设备配置,酒钢铁精矿球团烧结法新工艺研究,1993.7,P32~35
[28] 郑信懋等,酒钢铁精矿球团烧结法研究,1992年全国重点企业烧结生产技术会议论文集
[29] 王筱留,钢铁冶金学(炼铁部分),冶金工业出版社,1991年4月
[30] 蔡汝卓等,关于烧结料层透气性与料层形状的关系,烧结球团,1985年,No4,P17~26
[31] 关红兵等,安(阳)钢90m~2烧结机增产节能措施,烧结球团,2001 No6.P45~47
[32] 殷吉余,国外烧结混合料偏析布料方法,烧结球团,1991 No2.P43~46
[33] 李希超,混合料偏析布料方法,烧结球团,1993 No5.P13~18
[34] 鲁吉,,烧结机用磁辊布料器,烧结球团,1987 No6.P26~27
[35] 魏格曼等,双层烧结法研究,烧结球团,1991 No2.P34~35
[36] 苏小东等,凌钢小球团烧结生产实践,烧结球团,2001,3,13—14
[37] 刘云彩,当代高炉炼铁成就,炼铁,2001,3,27-31
[38] 孙金泽,合理烧结矿碱度的探讨,钢铁,2001,8,1-2
[39] 郭志刚,三钢高炉强化冶炼实践,钢铁,2001,7,10-13
[40] 许满兴,我国高炉炉料结构的进步,炼铁,2001,4,24-27
[41] 李振国 等,熔剂外加——球料混烧技术,2001,5,16-19
[42] 陈旋等,安钢新建90m~2烧结机小球烧结的设计,烧结球团,1999,9,19-22
[43] 叶匡吾,高炉炉料结构与精料,烧结球团,2001,5,6-8
[44] 单继国等,石灰分加和预制粒小球团烧结法研究,烧结球团,1998,7,18-21
[45] 鲁逢林,张志民,酒钢烧结矿小球团烧结法的工业生产,矿冶工程,1998,1,181-186
[46] 张志民, 石国星, 小球团烧结法与普通造块方法差异,烧结球团, 1998,9,8—12
[47] 朱德庆 等,酸性球团矿烧结机焙烧新工艺,烧结球团,2000,1,11-13
[48] 张新生,改善酒钢酸性小球烧结过程的研究,烧结球团,1999,11,10-13
[49] 许满星,国外几种酸性炉料的质量及分析,烧结球团,1998,3,6-10
[50] 韩永明,东稍小球团烧结制粒研究,烧结球团,1999,9,15-17
[51] A.A.Reis and M. Theodoro, improvement of sinter mix granulation by attaining burnt lime hydration time, 51st ironmaking conference, 1999,133-136
[52] E. Kasmi et al, Factors govering the strength of agglomerated granules after sintering, ISIJ Inter. 1988,7,523-530
[53] E.U. Hettula and K.A. Raipala, changing from 100% sinter burden to 100% pellets in Koverhar, 56'" ironmaking conference procedding, 1997,525-529
[2] 周取定,孔令坛:铁矿石造块理论及工艺,北京,冶金工业出版社,1992年
[3] 中南矿冶团矿教研室:铁矿粉造块,北京,冶金工业出版社
[4] 袁文彬,日本铁矿石造块新法的研究与应用,烧结球团,1990年,No1.P7~16
[5] N.Sakamoto等,球团烧结法的基础研究,烧结球团,1992年,No5.P43~47
[6] 斋腾 汛等,日本钢铁公司的烧结新工艺,国外烧结球团,1989年,No3.P11~16
[7] 袁文彬,日本烧成球团矿烧结法的工业性应用效果,烧结球团,1992年,No1.P36~42
[8] 牛肠 诚等,新式造块法的连续造球试验,国外烧结球团,1989年,Nol.P1~2
[9] Noboru Sakamoto et, Fundamental Investigation of New Iron ore Agglomerates and Evaluation of Their Properties for the Blast Furnance, [SI], Vol. 281998.8. P619~627
[10] 二羽安夫等,球团烧结混合工艺的发展及其在富山厂5号烧结机上的工业生产,国外钢铁,1991年,Noll.P1~6
[11] 孙君泉,球团烧结法的工业生产,国外钢铁,1994年,No8.P6~7
[12] 郑信懋译,富山钢铁厂混合造球工艺的工业生产,日本名古屋国际钢铁会议论文集,1990年8月
[13] 阪本等,新烧结法与常规烧结法比较,国外烧结球团,1988年,No5
[14] 王志花等,球团烧结法成矿过程的实验研究,钢铁,1994年,No8.P1~7
[15] 王志花等,小球团烧结法固结机理研究,烧结球团,1994年,No1.P1~5
[16] 郑信懋等,酒钢铁精矿球团烧结法新工艺研究,1993年7月P36~53
[17] 朱家骥等,全精矿小球烧结的试验研究,烧结球团,1996年,No1.P1~5
[18] 段劲松等,包头铁精矿小球烧结法工艺研究,烧结球团,1996年,No6.P4~8
[19] 单继国,全精矿小球团烧结工艺的试验研究,烧结球团,1994年,No1.
[20] 单继国等,小球烧结工艺应用效果,烧结球团,1996年,No1.P13~20
[21] 薛岳等,小球烧结的生产实践,烧结球团,1997年,No3.P21~23
[22] 孙涛等,安钢小球烧结的工业生产,烧结球团,1996年,No6.P8~11
[23] 胡宾生、杜鹤桂,小球团烧结工艺的基础研究,烧结球团,1991年,No5.P1~5
[24] 阪本 登等,新的铁矿石造块方法的研究,第五届国际造块会议论文集,P243~257
[25] Y. Niwa, O. Komatsu et al, Development of aHybrid Pelletized Sinter Process
and Its Commercial Operation at Fukuyama's No5 Sintering Plant, Iron and Steel Maker, 1986.7, P10~11
[26] 郑信懋等,酒钢铁精矿球团烧结试验室研究,第三届全国炼铁精料会议论文
[27] 张其瑞, 酒钢球团烧结法半工业试验工艺流程及设备配置,酒钢铁精矿球团烧结法新工艺研究,1993.7,P32~35
[28] 郑信懋等,酒钢铁精矿球团烧结法研究,1992年全国重点企业烧结生产技术会议论文集
[29] 王筱留,钢铁冶金学(炼铁部分),冶金工业出版社,1991年4月
[30] 蔡汝卓等,关于烧结料层透气性与料层形状的关系,烧结球团,1985年,No4,P17~26
[31] 关红兵等,安(阳)钢90m~2烧结机增产节能措施,烧结球团,2001 No6.P45~47
[32] 殷吉余,国外烧结混合料偏析布料方法,烧结球团,1991 No2.P43~46
[33] 李希超,混合料偏析布料方法,烧结球团,1993 No5.P13~18
[34] 鲁吉,,烧结机用磁辊布料器,烧结球团,1987 No6.P26~27
[35] 魏格曼等,双层烧结法研究,烧结球团,1991 No2.P34~35
[36] 苏小东等,凌钢小球团烧结生产实践,烧结球团,2001,3,13—14
[37] 刘云彩,当代高炉炼铁成就,炼铁,2001,3,27-31
[38] 孙金泽,合理烧结矿碱度的探讨,钢铁,2001,8,1-2
[39] 郭志刚,三钢高炉强化冶炼实践,钢铁,2001,7,10-13
[40] 许满兴,我国高炉炉料结构的进步,炼铁,2001,4,24-27
[41] 李振国 等,熔剂外加——球料混烧技术,2001,5,16-19
[42] 陈旋等,安钢新建90m~2烧结机小球烧结的设计,烧结球团,1999,9,19-22
[43] 叶匡吾,高炉炉料结构与精料,烧结球团,2001,5,6-8
[44] 单继国等,石灰分加和预制粒小球团烧结法研究,烧结球团,1998,7,18-21
[45] 鲁逢林,张志民,酒钢烧结矿小球团烧结法的工业生产,矿冶工程,1998,1,181-186
[46] 张志民, 石国星, 小球团烧结法与普通造块方法差异,烧结球团, 1998,9,8—12
[47] 朱德庆 等,酸性球团矿烧结机焙烧新工艺,烧结球团,2000,1,11-13
[48] 张新生,改善酒钢酸性小球烧结过程的研究,烧结球团,1999,11,10-13
[49] 许满星,国外几种酸性炉料的质量及分析,烧结球团,1998,3,6-10
[50] 韩永明,东稍小球团烧结制粒研究,烧结球团,1999,9,15-17
[51] A.A.Reis and M. Theodoro, improvement of sinter mix granulation by attaining burnt lime hydration time, 51st ironmaking conference, 1999,133-136
[52] E. Kasmi et al, Factors govering the strength of agglomerated granules after sintering, ISIJ Inter. 1988,7,523-530
[53] E.U. Hettula and K.A. Raipala, changing from 100% sinter burden to 100% pellets in Koverhar, 56'" ironmaking conference procedding, 1997,525-529