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吴家坪煤中砷在亚临界水条件下的行为 被引量:1

Transformation behavior of arsenic in Wujiaping coal during sub-critical water treatment
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摘要 The trace elements emission could result in harmness to the environment and human health during coal combustion.The removal of trace elements before coal combustion is an effective method.The transformation and removal behavior of arsenic in Wujiaping(WJP) coal during sub-critical water treatment was studied in a semi-continuous apparatus.Effects of temperature,pressure,residence time and water flow rate on the arsenic removal were discussed.The occurrence modes of arsenic in WJP raw coal and residuals treated by sub-critical water were also studied by float-sink experiments and sequential chemical extractions.The results show that with the increasing of temperature,pressure,residence time and water flow rate,the arsenic removal in WJP coal also increases;and at the condition of 380 ℃,15 MPa,60 min and water flow rate of 0.58 L/h,the arsenic removal is about 62%.Arsenic in WJP coal mainly is associated with sulfates & mono sulfides,disulfide & some organic matters and "insoluble forms".Sub-critical water treatment can decrease all these arsenic forms in coal and transfer them into the volatile form. The trace elements emission could result in harmness to the environment and human health during coal combustion. The removal of trace elements before coal combustion is an effective method. The transformation and removal behavior of arsenic in Wujiaping (WJP) coal during sub-critical water treatment was studied in a semi-continuous apparatus. Effects of temperature, pressure, residence time and water flow rate on the arsenic removal were discussed. The occurrence modes of arsenic in WJP raw coal and residuals treated by sub-critical water were also studied by float-sink experiments and sequential chemical extractions. The results show that with the increasing of temperature, pressure, residence time and water flow rate, the arsenic removal in WJP coal also increases ; and at the condition of 380 ℃, 15 MPa, 60 min and water flow rate of 0.58 L/h, the arsenic removal is about 62%. Arsenic in WJP coal mainly is associated with sulfates & mono sulfides, disulfide & some organic matters and "insoluble forms". Sub-critical water treatment can decrease all these arsenic forms in coal and transfer them into the volatile form.
作者 王宝凤 李文 李保庆 陈皓侃 王刚
机构地区 中国科学院山西煤炭化学研究所煤转化国家重点实验室
出处 《燃料化学学报》 EI CAS CSCD 北大核心 2005年第6期763-766,共4页 Journal of Fuel Chemistry and Technology
基金 国家自然科学基金(90210001)~~
关键词 亚临界水 赋存形态 sub-critical water coal arsenic existence form
分类号 TQ534 [化学工程—煤化学工程]
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参考文献12

  • 1SWAINE D J.Why trace elements are important[J].Fuel Process Technol,2000,65-66:21-33.
  • 2GUO R,YANG J,LIU D,LIU Z.Transformation behavior of trace elements during coal pyrolysis[J].Fuel Process Technol,2002,77-78:137-143.
  • 3ZAJUSZ-ZUBEK E,KONIIECZYNSKI.Dynamics of trace elements release in a coal pyrolysis process[J].Fuel,2003,82(10):1281-1290.
  • 4MATSUOKA K,ABE A,SUZUKI Y,TOMITA A.Effectiveness of hydrothermal treatment of coal with lime for removal of trace elements[J].Energy Fuels,2002,16(4):920-924.
  • 5TIMPE R C,MANN M D,PAVLISH J H,LOUIE P K K.Organic sulfur and hap removal from coal using hydrothermal treatment[J].Fuel Process Technol,2001,73(2):127-141.
  • 6FINKELMAN R B.Modes of occurrence of potentially hagardous elemants in coal:Levels of confidence[J].Fuel Process Technol,1994,39(1-3):21-34.
  • 7王宝凤,王刚,李文,陈皓侃,李保庆.亚临界水条件下煤中汞的脱除[J].燃料化学学报,2004,32(5):513-516. 被引量:8
  • 8LU H,CHEN H,LI W,LI B.Transformation of arsenic in Yima coal during fluidized-bed pyrolysis[J].Fuel,2004,83(6):645-650.
  • 9陈萍,唐修义.中国煤中的砷[J].中国煤田地质,2002,14(B07):18-24. 被引量:13
  • 10吕海亮,陈皓侃,李文,李保庆.义马煤中几种微量污染元素的赋存形态研究[J].燃料化学学报,2003,31(1):31-34. 被引量:23

二级参考文献32

  • 1任德贻,雷加锦,唐跃刚,郭国莉,姚玉琴.煤显微组分中有机硫的微区分析和分布特征[J].煤田地质与勘探,1993,21(1):27-30. 被引量:12
  • 2陆晓华,徐涛,刘汉珍,曾汉才.因子分析法在煤中痕量元素分布特征研究中的应用[J].燃料化学学报,1994,22(4):444-448. 被引量:5
  • 3晏蓉,欧阳中华,曾汉才,吴育松,王秋华,陆晓华,徐涛.青山烟煤中痕量元素的分布特性[J].燃料化学学报,1996,24(2):186-190. 被引量:7
  • 4郑宝山 王连方 等.砷的地球化学.地方性砷中毒与乌脚病[M].乌鲁木齐:新疆科技卫生出版社,1997.13-33.
  • 5[4]Querol X, Klika Z, Weiss Z, et al. Determination of element affinities by density fractionation of bulk coal samples[J]. Fuel, 2001, 80(1): 83-96.
  • 6[8]Allan Koler, F E Huggins, C A Palmer, et al. Mode of occurrence of arsenic in four US coals[J]. Fuel Process Technol, 2000, 63(2-3):167-178.
  • 7[10]Galbreath K C, Toman D L, Zygarllicke C J, et al. Trace element partitioning and transformations during combustion of bituminous and sub bituminous U.S. coals in a 7-kW combustion system[J]. Energ y Fuels, 2000, 14(6):1265-1279.
  • 8[11]Steel K M, Besida J, O'Donnell T A, et al. Production of ultra clean coal : part I-dissolution behaviour of mineral matter in black coal toward hydrochloric and hydrofluoric acids[J]. Fuel Process T echnol, 2001, 70(3): 171-192.
  • 9[12]Steel K M, Patrick J W. The production of ultra clean clean by chemical deminerallization[J]. Fuel, 2001, 80(14):2019-2023.
  • 10[13]Huffman G P, Huggins F E, Shah N, et al. Speciation of a rsenic and chromium in coal and combustion ash by XAFS spectroscopy[J]. Fuel Process Technol, 1994, 39(1-3): 47-62.

共引文献63

同被引文献22

  • 1水恒福,裴占宁,王知彩.水热处理对神华煤液化性能的影响[J].燃料化学学报,2007,35(6):655-659. 被引量:8
  • 2闫秋会,郭烈锦,梁兴,张西民,郝小红,马利静.连续式超临界水中煤/CMC催化气化制氢[J].太阳能学报,2005,26(6):874-877. 被引量:13
  • 3水恒福,王知彩,汪高强,钮敏锋.煤的水热处理对其缔合结构的影响[J].燃料化学学报,2006,34(5):519-523. 被引量:12
  • 4王知彩,水恒福,张德祥,高晋生.水热处理对神华煤质的影响[J].燃料化学学报,2006,34(5):524-529. 被引量:29
  • 5Sarkar N B, Sarkar P, Choudhury A.Effect of hydrothermal treat- ment of coal on the oxidation susceptibility and electrical resistivity of HTI" coke [ J ]. Fuel Processing Technology, 2005,86 ( 5 ) : 487- 497.
  • 6George Favas, Roy Jackson W. Hydrothemaal dewatering of lower rank coals. 1 : eftets of process conditions on the properties of dried products [ J ].Fuel, 2003,82 ( 1 ) : 53- 57.
  • 7George Favas, Roy Jackson W. Hydrothennal dewatering of lower rank coals. 2:effects of coal characteristics for a range of Australian and international coals [ J ]. Fuel, 2003,82 ( 1 ) : 59- 69.
  • 8George Favas, Roy Jackson W, Marc Marshall. Hydrothermal dewa- tering of lower rank coals. 3:high-concentration slurries ti'om hy- drothermally treated lower rank coals [ J ]. Fuel, 2003,82 ( 1 ) : 71 - 79.
  • 9Yu Yujie, Liu Jianzhong, Wang Ruikun, et al. Effect of hydrother- real dewatering on the slurryability of brown coals [ J ] .Energy Con- version and Management, 2012,57 : 8-12.
  • 10Timpe R C, Mann M D,Pavlish J H,et a/.Organic sulfur and hap removal from coal using hydrothermal treatment[ J ] .Fuel Process- ing Technology, 2001,73 (2) : 127-141.

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燃料化学学报
2005年 第6期

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