U型直接蓄热煅烧窑的设计与研究
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摘要
本文根据鹤壁市金属镁生产行业的生产实际,针对金属镁生产线“源头”的生产特点,在传统煅烧设备的基础上,通过生产现场跟踪试验,对现有设备进行改造,开发满足用户使用要求、适合金属镁还原条件、技术先进、性能合理的新型煅烧窑。
本课题针对回转窑生产设备占地面积大、基础建设投资高和传统煅烧竖窑在煅白煅烧过程中存在的诸多不确定因素,不能保证煅烧成品煅白的质量问题,在现场跟踪试验的基础上,对煅烧窑的结构进行改造。在瑞典麦尔兹窑的设计基础上,设计了两个在底部相连通的窑筒结构,继承了传统竖窑占地面积小的优点;在窑体的内部附加上了与之相匹配的窑衬、空气炮、喷枪、通过窑体外部多个显示面板进行反馈的自动控制系统。保证了窑体内部各个不同部位的温度控制,避免了白云石在煅烧过程中的生烧、欠烧情况,保证了煅白的水活化度、灼减度、烧损率等影响煅白质量的因素;设制了原料入窑前的上料系统、电磁除铁系统、除尘系统和成品出窑后的耐热皮带机、振动筛等配套系统,使煅白成品得以细分,应用到不同领域;进一步使进料和出料质量得到了保证。同时对部分装置的安装及维护进行了说明,延长了煅烧窑的使用寿命。
新型煅烧窑性能良好、煅白质量符合下道还原工序要求、操作与维护简便,使生产企业大幅度提高了生产效率,降低了成本,提高了金属镁生产企业的核心竞争力。
In this paper, according to the Hebi municipal metal magnesium production industry in the production practice, The metal magnesium production line" fountainhead" production characteristics. In traditional calcining equipment on the foundation, through the production of field tracing test, to modify the existing equipment, Developed to meet user requirements, suitable for metal magnesium reducing conditions, advanced technology, reasonable performance of new type calcining kiln.
The topic for the rotary kiln production equipment occupies large area, infrastructure investment is high and the traditional calcining shaft kiln in calcined dolomite calcination process in the presence of many uncertain factors, Can not guarantee the quality problem of calcined dolomite calcination, In field tracing test basis, reform the structure of the calcining kiln. In Sweden Maerz kiln design foundation, designed in two in the bottom communicated kiln structure, inherited the tradition of shaft kiln with the advantages of small floor area; In the kiln body is attached on the matching of kiln lining, air gun, spray gun, through the kiln body outer multiple display feedback to the automatic control system. Ensure the kiln body each different part of temperature control, to avoid the dolomite in the calcining process students burning, less burning condition, Ensure the calcined dolomite hydration degree, degree of loss on ignition, burning rate and influence factors of the quality of calcined dolomite; For the raw materials into the kiln before feeding system, electromagnetic iron removing system, dust removal system and finished out of kiln heat belt machine, vibrating screen and other supporting system, make the calcined dolomite product can be broken, applied to different fields; Further the infeed and outfeed guarantees the quality of. The installation and maintenance are described, prolonging the service life of the calcining kiln.
New type calcining kiln calcined dolomite quality with good performance, the next reduction process requirements, operation and maintenance is simple, make production enterprises improve production efficiency greatly, reduce cost, improve the production of metal magnesium enterprises core competitiveness.
本课题针对回转窑生产设备占地面积大、基础建设投资高和传统煅烧竖窑在煅白煅烧过程中存在的诸多不确定因素,不能保证煅烧成品煅白的质量问题,在现场跟踪试验的基础上,对煅烧窑的结构进行改造。在瑞典麦尔兹窑的设计基础上,设计了两个在底部相连通的窑筒结构,继承了传统竖窑占地面积小的优点;在窑体的内部附加上了与之相匹配的窑衬、空气炮、喷枪、通过窑体外部多个显示面板进行反馈的自动控制系统。保证了窑体内部各个不同部位的温度控制,避免了白云石在煅烧过程中的生烧、欠烧情况,保证了煅白的水活化度、灼减度、烧损率等影响煅白质量的因素;设制了原料入窑前的上料系统、电磁除铁系统、除尘系统和成品出窑后的耐热皮带机、振动筛等配套系统,使煅白成品得以细分,应用到不同领域;进一步使进料和出料质量得到了保证。同时对部分装置的安装及维护进行了说明,延长了煅烧窑的使用寿命。
新型煅烧窑性能良好、煅白质量符合下道还原工序要求、操作与维护简便,使生产企业大幅度提高了生产效率,降低了成本,提高了金属镁生产企业的核心竞争力。
In this paper, according to the Hebi municipal metal magnesium production industry in the production practice, The metal magnesium production line" fountainhead" production characteristics. In traditional calcining equipment on the foundation, through the production of field tracing test, to modify the existing equipment, Developed to meet user requirements, suitable for metal magnesium reducing conditions, advanced technology, reasonable performance of new type calcining kiln.
The topic for the rotary kiln production equipment occupies large area, infrastructure investment is high and the traditional calcining shaft kiln in calcined dolomite calcination process in the presence of many uncertain factors, Can not guarantee the quality problem of calcined dolomite calcination, In field tracing test basis, reform the structure of the calcining kiln. In Sweden Maerz kiln design foundation, designed in two in the bottom communicated kiln structure, inherited the tradition of shaft kiln with the advantages of small floor area; In the kiln body is attached on the matching of kiln lining, air gun, spray gun, through the kiln body outer multiple display feedback to the automatic control system. Ensure the kiln body each different part of temperature control, to avoid the dolomite in the calcining process students burning, less burning condition, Ensure the calcined dolomite hydration degree, degree of loss on ignition, burning rate and influence factors of the quality of calcined dolomite; For the raw materials into the kiln before feeding system, electromagnetic iron removing system, dust removal system and finished out of kiln heat belt machine, vibrating screen and other supporting system, make the calcined dolomite product can be broken, applied to different fields; Further the infeed and outfeed guarantees the quality of. The installation and maintenance are described, prolonging the service life of the calcining kiln.
New type calcining kiln calcined dolomite quality with good performance, the next reduction process requirements, operation and maintenance is simple, make production enterprises improve production efficiency greatly, reduce cost, improve the production of metal magnesium enterprises core competitiveness.
引文
[1]鹤壁市国土资源局.鹤壁市矿产资源概况.2009年12月
[2]任虎奎,任建勋.我国金属镁冶炼技术现状与发展趋势.陕西煤炭.2011(01)
[3]崔志坚,李道忠.浅析普通竖窑石灰质量的影响因.河北冶金.2006年增刊
[4]中国市场监测中心.2010-2011年中国高温回转煅烧窑市场现状分析与前景预测
[5]贾庚荣.皮江法炼镁锻烧白云石技术综述.轻金属.1998(10):36-38
[6]邓曾禄.沸腾炉的设计与运行.郑州:河南人民出版社.1980
[7]高齐富,徐日瑶,韩薇.皮江法炼镁生产指导.中国有色金属工业协会镁业分会.2005年10月
[8]《回转窑》编写组.回转窑.北京:冶金工业出版社.1987
[9]陈振华.耐热镁合金.北京:化学工业出版社.2006(10)
[10]周沛.水泥煅烧技术与设备.武汉:武汉理工大学出版社.1997
[11]蒋述兴.白云石煅烧离解过程的工艺特性研究.非金属矿.2011(03):3-4
[12]白聿钦,王廷金.回转窑煅烧白云石过程中影响产品质量的因素分析.轻金属.1996(08)
[13]单琪堰,张悦,杨合.低品位菱镁矿煅烧的新工艺.非金属矿.2011(03):45--46
[14]Franz · Sterle.Maerz double tube parallel flow regenerative lime kiln and fine lime kiln technology.Refractories lime.2007 Februar thirty-second volume first issue
[15]李俊华.唐钢公司铁钢扩建后冶金石灰用量的平衡分析和对策[J].河北冶金.1998(2):177-179。
[16]丁言功,张凤春.转炉生产采用控制计算机的前提条件[J].宝钢技术.1984(03)
[17]罗琨.套筒式竖窑工艺特点及其相关工艺配置.武钢技术.2002(1):51~55.
[18]邢义晖,程建坡.邯钢麦尔兹石灰窑旋转布料器的技术改造.耐火与石灰.2010(05):7--8
[19]蔡乔方.加热炉(第三版).北京:冶金工业出版社.2007
[20]蔡乔方.加热炉(第三版).北京:冶金工业出版社.2007
[21]李喜太,梅瑛.套筒式气烧石灰窑.山西化工.1999(3):27-30
[22]吕明远,廉玉芝.麦尔兹窑的砌筑.水泥,石灰.1995(2)::45-46
[23]高全.环形套筒窑下燃烧室拱桥耐火材料分析.耐火与石灰.2008(04):10--11
[24]Ebert T, Moll F, Kainer K U. Spray Forming of Magnesuium Alloys and Composites. Powder Metallurgy,1997,40(2):126-130
[25]叶元烈.机械优化理论与设计[M].北京:清华大学出版社,2004.
[26]Vanessa M smith, Gregory A Keoleian. The value of remanufactured engines [J]. Journal of industrial ecology,2004,8(1-2):193-221.
[27]倪文峰,徐志鹏,王忠宾,贺克伟.新型电容式煤仓料位自动监测系统设计[J].煤矿机械.2008(06):126
[28]宋鹏.梅山高炉喷煤工艺的改造与实践.炼铁.1991(01):19--20
[29]吉永辉.空气炮在处理煤仓堵塞中的应用.中州煤炭.2009(04):91--92
[30]宋秀荣.空气炮的原理与应用[J].煤炭工程.1987(12):45
[31]李建朝,王庆辉,黄晓东.基于单片机的空气炮自动控制仪的设计.工矿自动化.2011(02):103
[32]武建华.2YA2160双层振动筛大梁改造.矿山机械.2002(08):70-71
[33]Hamid Reza Naji, Earl B Wells, Letha Etzkorn. Creating an adaptive embedded system by applying multi-agent techniques to reconfigurable hardware[J]. Future Generation Computer System,2004,20:1055-1081.
[34]王鹿华.振动筛橡胶筛板的使用及效果[J].有色金属(选矿部分).1990年02期:78--79
[35]武建华.皮带运输重型卸料车轮轴的修复.矿山机械.2002(08):92-93
[36]Ananev N V, golovln P D, Svetlichnyl 1 F. Tests of heet-resistant conveyor belts for conveying of hot koke[J]. Koks. Kwmicheekle,1985(1):36-37
[37]陕西,蒋明京.自控温电热带原理与应用[N].电子报.2003年
[38]中国工控网.西门子变频器在莱钢麦尔兹石灰窑卷扬上的应用.2009-4-9
[39]李文明.高炉喷吹焦炉煤气工艺分析.炼铁.2011(04):59
[40]郭申喜.大倾角转载多点驱动带式输送机在矿山的应用.2002(08):38--39
[41]珠海,郝志毅.ZL212T模块化变频器的原理与应用[N].电子报.2002年
[42]路俊义.关于麦尔兹窑生产过程中出现的问题及解决方法.包钢科技.1999(1):98—100
[43]李延民,张银霞,李大磊.煤仓低料位检测与防堵装置的研制[J].工矿自动化.2009(01)
[44]李宝忠.生产线真空度检测与数据采集系统的研究[D].山东科技大学.2009
[45]曹胜芳.2006年中国石灰技术交流与合作大会论文资料汇编.2006年11月44
[46]杜利文,李秀燕,路俊义.麦尔兹石灰窑几个疑难工艺故障的判断与处理方法.耐火与石灰.2008(04):7-10
[2]任虎奎,任建勋.我国金属镁冶炼技术现状与发展趋势.陕西煤炭.2011(01)
[3]崔志坚,李道忠.浅析普通竖窑石灰质量的影响因.河北冶金.2006年增刊
[4]中国市场监测中心.2010-2011年中国高温回转煅烧窑市场现状分析与前景预测
[5]贾庚荣.皮江法炼镁锻烧白云石技术综述.轻金属.1998(10):36-38
[6]邓曾禄.沸腾炉的设计与运行.郑州:河南人民出版社.1980
[7]高齐富,徐日瑶,韩薇.皮江法炼镁生产指导.中国有色金属工业协会镁业分会.2005年10月
[8]《回转窑》编写组.回转窑.北京:冶金工业出版社.1987
[9]陈振华.耐热镁合金.北京:化学工业出版社.2006(10)
[10]周沛.水泥煅烧技术与设备.武汉:武汉理工大学出版社.1997
[11]蒋述兴.白云石煅烧离解过程的工艺特性研究.非金属矿.2011(03):3-4
[12]白聿钦,王廷金.回转窑煅烧白云石过程中影响产品质量的因素分析.轻金属.1996(08)
[13]单琪堰,张悦,杨合.低品位菱镁矿煅烧的新工艺.非金属矿.2011(03):45--46
[14]Franz · Sterle.Maerz double tube parallel flow regenerative lime kiln and fine lime kiln technology.Refractories lime.2007 Februar thirty-second volume first issue
[15]李俊华.唐钢公司铁钢扩建后冶金石灰用量的平衡分析和对策[J].河北冶金.1998(2):177-179。
[16]丁言功,张凤春.转炉生产采用控制计算机的前提条件[J].宝钢技术.1984(03)
[17]罗琨.套筒式竖窑工艺特点及其相关工艺配置.武钢技术.2002(1):51~55.
[18]邢义晖,程建坡.邯钢麦尔兹石灰窑旋转布料器的技术改造.耐火与石灰.2010(05):7--8
[19]蔡乔方.加热炉(第三版).北京:冶金工业出版社.2007
[20]蔡乔方.加热炉(第三版).北京:冶金工业出版社.2007
[21]李喜太,梅瑛.套筒式气烧石灰窑.山西化工.1999(3):27-30
[22]吕明远,廉玉芝.麦尔兹窑的砌筑.水泥,石灰.1995(2)::45-46
[23]高全.环形套筒窑下燃烧室拱桥耐火材料分析.耐火与石灰.2008(04):10--11
[24]Ebert T, Moll F, Kainer K U. Spray Forming of Magnesuium Alloys and Composites. Powder Metallurgy,1997,40(2):126-130
[25]叶元烈.机械优化理论与设计[M].北京:清华大学出版社,2004.
[26]Vanessa M smith, Gregory A Keoleian. The value of remanufactured engines [J]. Journal of industrial ecology,2004,8(1-2):193-221.
[27]倪文峰,徐志鹏,王忠宾,贺克伟.新型电容式煤仓料位自动监测系统设计[J].煤矿机械.2008(06):126
[28]宋鹏.梅山高炉喷煤工艺的改造与实践.炼铁.1991(01):19--20
[29]吉永辉.空气炮在处理煤仓堵塞中的应用.中州煤炭.2009(04):91--92
[30]宋秀荣.空气炮的原理与应用[J].煤炭工程.1987(12):45
[31]李建朝,王庆辉,黄晓东.基于单片机的空气炮自动控制仪的设计.工矿自动化.2011(02):103
[32]武建华.2YA2160双层振动筛大梁改造.矿山机械.2002(08):70-71
[33]Hamid Reza Naji, Earl B Wells, Letha Etzkorn. Creating an adaptive embedded system by applying multi-agent techniques to reconfigurable hardware[J]. Future Generation Computer System,2004,20:1055-1081.
[34]王鹿华.振动筛橡胶筛板的使用及效果[J].有色金属(选矿部分).1990年02期:78--79
[35]武建华.皮带运输重型卸料车轮轴的修复.矿山机械.2002(08):92-93
[36]Ananev N V, golovln P D, Svetlichnyl 1 F. Tests of heet-resistant conveyor belts for conveying of hot koke[J]. Koks. Kwmicheekle,1985(1):36-37
[37]陕西,蒋明京.自控温电热带原理与应用[N].电子报.2003年
[38]中国工控网.西门子变频器在莱钢麦尔兹石灰窑卷扬上的应用.2009-4-9
[39]李文明.高炉喷吹焦炉煤气工艺分析.炼铁.2011(04):59
[40]郭申喜.大倾角转载多点驱动带式输送机在矿山的应用.2002(08):38--39
[41]珠海,郝志毅.ZL212T模块化变频器的原理与应用[N].电子报.2002年
[42]路俊义.关于麦尔兹窑生产过程中出现的问题及解决方法.包钢科技.1999(1):98—100
[43]李延民,张银霞,李大磊.煤仓低料位检测与防堵装置的研制[J].工矿自动化.2009(01)
[44]李宝忠.生产线真空度检测与数据采集系统的研究[D].山东科技大学.2009
[45]曹胜芳.2006年中国石灰技术交流与合作大会论文资料汇编.2006年11月44
[46]杜利文,李秀燕,路俊义.麦尔兹石灰窑几个疑难工艺故障的判断与处理方法.耐火与石灰.2008(04):7-10