细粒煤流态化干法提质理论与技术研究进展
详细信息 查看官网全文
- 论文作者:樊旭晨 ; 赵跃民 ; 段晨龙 ; 乔金鹏 ; 周恩会
- 年:2016
- 作者机构:中国矿业大学化工学院;
- 论文关键词:细粒煤 ; 干法分选 ; 振动流化床 ; 磁稳定流化床 ; 脉动流化床
- 会议召开时间:2016-08-19
- 会议录名称:2016年全国选煤学术交流会论文集
- 英文会议录名称:Symposium of 2016 China National Coal Preparation Academic Conference
- 语种:中文
- 分类号:TD94
- 学会代码:ZGMT
- 会议名称:2016年全国选煤学术交流会
- 会议地点:中国河北唐山
- 主办单位:中国煤炭学会选煤专业委员会、《选煤技术》编辑部、煤炭工业选煤情报中心站
- 学会名称:中国煤炭学会
- 页数:5
- 文件大小:1163k
- 原文格式:O
- 会议级别:全国
摘要
细粒煤流态化干法提质是一项重要的煤炭分选技术,对于提高细粒煤产品质量、提高煤炭资源利用效率具有重大意义。详细介绍了国内外细粒煤干法分选技术的研究现状,重点阐述了中国矿业大学自20世纪90年代以来在细粒煤干法分选领域取得的重要进展,形成以振动流化床、磁稳定流化床、浓相脉动流化床以及摩擦静电分选为主体分选平台的细粒煤干法提质技术,为我国干旱缺水地区细粒煤高效干法分选提供了新的途径。
引文
[1]Kademli M,Gulsoy 0 Y.Investigation of Using Table Type Air Separators for Coal Cleaning[J].International Journal of Coal Preparation and Utilization,2013,33(1):1-11.
[2]Sampaio C H,Aliaga W,Pacheco E T,et al.Coal beneficiation of Candiota mine by dry jigging[J].Fuel Processing Technology,2008,89(2):198-202.
[3]李功民,杨云松.复合式干法选煤技术在中国的应用[J].煤炭加工与综合利用,2006(5):33-36.
[4]陈清如,陈尉,杨玉芬.空气重介质流化床干法选煤技术发展现状与进展[J].徐煤科技,1999(1):4-6.
[5]ZHAO Yuemin,LI Gongmin,LUO Zhenfu,et al.Modularized dry coal beneficiation technique based on gas-solid fluidized bed[J].Journal of Central South University of Technology,2011,18(2):374-380.
[6]Karimipour S,Gerspacher R,Gupta R,et al.Study of factors affecting syngas quality and their interactions in fluidized bed gasification of lignite coal[J].Fuel,2013,103:308-320.
[7]Choung J,Mak C,Xu Z.Fine coal beneficiation using an air dense medium fluidized bed[J].Coal Preparation,2006,26(1):1-15.
[8]Teig N,Weitkaemper A,Rothermel J,et al.Observational Study on Less Invasive Surfactant Administration(LISA)in Preterm Infants<29 Weeks-Short and Long—term Outcomes[J].Zeitschrift fur Geburtshilfe und Neonatologie,2015,219(6):266-273.
[9]Weitkaemper A,Lilienthal E,Rossler L,et al.Neurocognitive Status at the Age of 3 Years after Probe Application of Surfactant in Spontaneous Breathing in Preterm Infants<30 Weeks of Gestation[J].Klinische Padiatrie,2010,222.
[10]Weitkamper J,Brinkhoff T.XFormsGI-Extending XForms for Geospatial and Sensor Data[M].Web and Wireless Geographical Information Systems.Springer Berlin Heidelberg,2007;76-93.
[11]Macpherson S A,Iveson S M,Galvin K P.Density based separations in the Reflux Classifier with an air-sand dense-medium and vibration[J].Minerals Engineering,2010,23(2):74-82.
[12]Macpherson S A,Galvin K P.The Effect of Vibration on Dry Coal Beneficiation in the Reflux Classifier[J].International Journal of Coal Preparation and Utilization,2010,30(6):283-294.
[13]骆振福,陈清如,陶秀祥.振动流化床的形成机理[J].中国矿业大学学报,2000(3):8-12.
[14]王轶,王亭杰,杨毅,等.内加振动对高床层流化床流化特性的改善作用[c].中国颗粒学会2002年年会暨海峡两岸颗粒技术研讨会.2002.
[15]杨旭亮,赵跃民,骆振福,等.振动流态化的能量传递机制及对细粒煤的分选研究[J].中国矿业大学学报,2013(2):266-270.
[16]杨旭亮.细粒煤振动流态化的能量作用及分离机制的研究[D].徐州:中国矿业大学,2013.
[17]樊茂明,陈清如,赵跃民,等.磁稳定流化床干法选煤试验研究[J].选煤技术,2002(3):6-8.
[18]宋树磊.空气重介磁稳定流化床分选细粒煤的基础研究[D].徐州:中国矿业大学,2009.
[19]Sobrino C,Sfinchez-Delgado S,Garcta-Hernando N,et al.Standard deviation of absolute and differential pressure fluctuations in fluidized beds of group B particles[J].Chemical Engineering Research and Design,2008,86(11):1236-1242.
[20]官国清,吕岳琴,余华瑞,等.气固脉冲流化床流体力学特性的研究[J].化学反应工程与工艺,1996(3):71-77.
[21]董良.浓相脉动流化床流化与分选机理研究[D].中国矿业大学,2015.
[22]王海锋.摩擦电选过程动力学及微粉煤强化分选研究[D].徐州:中国矿业大学,2010.
[23]章新喜,高孟华,马瑞新,等.火电站脱硫新模式——燃前煤粉在线脱硫[J].能源环境保护,2004(5):1-4.
[2]Sampaio C H,Aliaga W,Pacheco E T,et al.Coal beneficiation of Candiota mine by dry jigging[J].Fuel Processing Technology,2008,89(2):198-202.
[3]李功民,杨云松.复合式干法选煤技术在中国的应用[J].煤炭加工与综合利用,2006(5):33-36.
[4]陈清如,陈尉,杨玉芬.空气重介质流化床干法选煤技术发展现状与进展[J].徐煤科技,1999(1):4-6.
[5]ZHAO Yuemin,LI Gongmin,LUO Zhenfu,et al.Modularized dry coal beneficiation technique based on gas-solid fluidized bed[J].Journal of Central South University of Technology,2011,18(2):374-380.
[6]Karimipour S,Gerspacher R,Gupta R,et al.Study of factors affecting syngas quality and their interactions in fluidized bed gasification of lignite coal[J].Fuel,2013,103:308-320.
[7]Choung J,Mak C,Xu Z.Fine coal beneficiation using an air dense medium fluidized bed[J].Coal Preparation,2006,26(1):1-15.
[8]Teig N,Weitkaemper A,Rothermel J,et al.Observational Study on Less Invasive Surfactant Administration(LISA)in Preterm Infants<29 Weeks-Short and Long—term Outcomes[J].Zeitschrift fur Geburtshilfe und Neonatologie,2015,219(6):266-273.
[9]Weitkaemper A,Lilienthal E,Rossler L,et al.Neurocognitive Status at the Age of 3 Years after Probe Application of Surfactant in Spontaneous Breathing in Preterm Infants<30 Weeks of Gestation[J].Klinische Padiatrie,2010,222.
[10]Weitkamper J,Brinkhoff T.XFormsGI-Extending XForms for Geospatial and Sensor Data[M].Web and Wireless Geographical Information Systems.Springer Berlin Heidelberg,2007;76-93.
[11]Macpherson S A,Iveson S M,Galvin K P.Density based separations in the Reflux Classifier with an air-sand dense-medium and vibration[J].Minerals Engineering,2010,23(2):74-82.
[12]Macpherson S A,Galvin K P.The Effect of Vibration on Dry Coal Beneficiation in the Reflux Classifier[J].International Journal of Coal Preparation and Utilization,2010,30(6):283-294.
[13]骆振福,陈清如,陶秀祥.振动流化床的形成机理[J].中国矿业大学学报,2000(3):8-12.
[14]王轶,王亭杰,杨毅,等.内加振动对高床层流化床流化特性的改善作用[c].中国颗粒学会2002年年会暨海峡两岸颗粒技术研讨会.2002.
[15]杨旭亮,赵跃民,骆振福,等.振动流态化的能量传递机制及对细粒煤的分选研究[J].中国矿业大学学报,2013(2):266-270.
[16]杨旭亮.细粒煤振动流态化的能量作用及分离机制的研究[D].徐州:中国矿业大学,2013.
[17]樊茂明,陈清如,赵跃民,等.磁稳定流化床干法选煤试验研究[J].选煤技术,2002(3):6-8.
[18]宋树磊.空气重介磁稳定流化床分选细粒煤的基础研究[D].徐州:中国矿业大学,2009.
[19]Sobrino C,Sfinchez-Delgado S,Garcta-Hernando N,et al.Standard deviation of absolute and differential pressure fluctuations in fluidized beds of group B particles[J].Chemical Engineering Research and Design,2008,86(11):1236-1242.
[20]官国清,吕岳琴,余华瑞,等.气固脉冲流化床流体力学特性的研究[J].化学反应工程与工艺,1996(3):71-77.
[21]董良.浓相脉动流化床流化与分选机理研究[D].中国矿业大学,2015.
[22]王海锋.摩擦电选过程动力学及微粉煤强化分选研究[D].徐州:中国矿业大学,2010.
[23]章新喜,高孟华,马瑞新,等.火电站脱硫新模式——燃前煤粉在线脱硫[J].能源环境保护,2004(5):1-4.