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炼厂含油污泥与石油焦共成浆性及其影响因素

周学双 赵东风 王新乐 卢 磊 段潍超

周学双, 赵东风, 王新乐, 卢 磊, 段潍超. 炼厂含油污泥与石油焦共成浆性及其影响因素[J]. 环境科学研究, 2014, 27(5): 520-526. doi: 10.13198/j.issn.1001-6929.2014.05.10
引用本文: 周学双, 赵东风, 王新乐, 卢 磊, 段潍超. 炼厂含油污泥与石油焦共成浆性及其影响因素[J]. 环境科学研究, 2014, 27(5): 520-526. doi: 10.13198/j.issn.1001-6929.2014.05.10
ZHOU Xue-shuang, ZHAO Dong-feng, WANG Xin-le, LU lei, DUAN Wei-chao. Slurry Forming Ability and Influencing Factors of Refinery Oily Sludge-Petroleum Coke[J]. Research of Environmental Sciences, 2014, 27(5): 520-526. doi: 10.13198/j.issn.1001-6929.2014.05.10
Citation: ZHOU Xue-shuang, ZHAO Dong-feng, WANG Xin-le, LU lei, DUAN Wei-chao. Slurry Forming Ability and Influencing Factors of Refinery Oily Sludge-Petroleum Coke[J]. Research of Environmental Sciences, 2014, 27(5): 520-526. doi: 10.13198/j.issn.1001-6929.2014.05.10

炼厂含油污泥与石油焦共成浆性及其影响因素

doi: 10.13198/j.issn.1001-6929.2014.05.10
基金项目: 中央高校基本科研业务费专项(12CX06045A)

Slurry Forming Ability and Influencing Factors of Refinery Oily Sludge-Petroleum Coke

  • 摘要: 我国所加工的原油重质化和劣质化现象日益严重,导致以高硫石油焦、含油污泥为代表的副产物产量大幅增加,对生态环境构成了潜在威胁. 为利用成熟的水煤浆气化工艺对废物无害化处理,进行了炼厂含油污泥与石油焦制备高性能混合浆液的研究. 采用干磨湿配制浆工艺,考察了含油污泥与石油焦的共成浆性,分析了石油焦粒度分布、含油污泥添加量、温度、pH等对成浆性的影响. 结果表明:石油焦颗粒疏水性较强、比表面积小,其单独成浆时最佳粗细颗粒质量比为5.5∶4.5;含油污泥与石油焦共成浆时,其最佳添加量为3.0%;在30℃,pH为7~9条件下,可制得表观黏度低于1000mPa·s,稳定时间超过48h,流动性较好的混合浆液,可满足水煤浆气化无害化工艺的进料要求.

     

  • [1] 江岩,程浩,杨岳,等.炼油厂含油污泥无害化处理工艺研究.石化技术与应用,2010,8(5):419-422.
    [2] BARNETO A G,MOLT G,ARIZA J,et al.Thermogravimetric monitoring of oil refinery sludge.Journal of Analytical and Applied Pyrolysis,2014,5:8-13.
    [3] 环境保护部.国家危险废物名录.北京:中国标准出版社,2008.
    [4] LIU Jianguo,JIANG Xiumin,ZHOU Lingsheng,et al.Pyrolysis treatment of oil sludge and model-free kinetics analysis.J Hazard Mater,2009,1(2/3):1208-1215.
    [5] 姜勇,董铁有,丁丙新.含油污泥热化学处理技术.安全与环境工程,2007,4(2):60-62.
    [6] 赵东风,赵朝成,路帅.焦化法处理含油污泥工艺流程研究.环境科学研究,2000,3(2):55-57.
    [7] ROCHA O R S D,DANTAS R F,DUARTE M M M B,et al.Oil sludge treatment by photocatalysis applying black and white light.Chemical Engineering Journal,2010,7(1):80-85.
    [8] ZUBAIDY E A H,ABOUELNASR D M.Fuel recovery from waste oily sludge using solvent extraction.Process Safety and Environmental Protection,2010,8(5):318-326.
    [9] 王文祥,韩萍芳,徐宁,等.含油污泥超声处理脱油研究.环境科学研究,2008,1(4):52-56.
    [10] CVIJOVIC G D G,MILIC J S,T M SOLEVIC,et al.Biodegradation of petroleum sludge and petroleum polluted soil by a bacterial consortium:a laboratory study.Biodegradation,2012,3(1):1-14.
    [11] TAHHAN R A,AMMARI T G,GOUSSOUS S J,et al.Enhancing the biodegradation of total petroleum hydrocarbons in oily sludge by a modified bioaugmentation strategy.International Biodeterioration & Biodegradation,2011,5(1):130-134.
    [12] CERQUEIRA V S,HOLLENBACH E B,MAABONI F,et al.Biodegradation potential of oily sludge by pure and mixed bacterial cultures.Bioresource Technology,2011,2(23):11003-11010.
    [13] 刘银东,高飞,张艳梅,等.石油焦的生产及石油焦制氢工艺状况.石化技术与应用,2012,0(1):93-98.
    [14] YOON Sangjun,CHOI Youngchan,LEE Seehoon,et al.Thermogravimetric study of coal and petroleum coke for co-gasification.Korean Journal of Chemical Engineering,2007,4(3):512-517.
    [15] PIS J J,MENENDEZ J A,PARRA J B,et al.Relation between texture and reactivity in metallurgical cokes obtained from coal using petroleum coke as additive.Fuel Processing Technology,2002,7/78:199-205.
    [16] XIAO Ronglin,XU Shaoping,LI Qingxue,et al.The effects of hydrogen on KOH activation of petroleum coke.Journal of Analytical and Applied Pyrolysis,2012,6:120-125.
    [17] ZAMORA R M R,SCHOUWENAARS R,MORENO A D,et al.Production of activated carbon from petroleum coke and its application in water treatment for the removal of metals and phenol.Water Sci Technol,2000,2(5/6):119-126.
    [18] KAWANO T,KUBOTA M,ONYANGO M S,et al.Preparation of activated carbon from petroleum coke by KOH chemical activation for adsorption heat pump.Applied Thermal Engineering,2008,8(8/9):865-871.
    [19] BERGUERAND N,LYNGFELT A.The use of petroleum coke as fuel in a 10kWth chemical-looping combustor.International Journal of Greenhouse Gas Control,2008,2(2):169-179.
    [20] LEION H,MATTISSON T,LYNGFELT A.The use of petroleum coke as fuel in chemical-looping combustion.Fuel,2007,6(12/13):1947-1958.
    [21] WANG Jinsheng,ANTHONY E J,ABANADES J C.Clean and efficient use of petroleum coke for combustion and power generation.Fuel,2004,3(10):1341-1348.
    [22] 李明,李伟东,李伟锋,等.污泥与石油焦的共成浆性.石油学报:石油加工,2008,4(6):663-668.
    [23] 盖希坤,毛建卫,杨瑞芹,等.石油焦气化反应的研究进展.浙江科技学院学报,2013,5(6):435-440.
    [24] 郭新生,王璋.IGCC电站优良的环保特性和环保效益.燃气轮机技术,2005,8(3):8-12.
    [25] 罗进成,贺根良,郑亚兰,等.多元料浆气化技术在石油炼制行业中的应用分析.石油炼制与化工,2010,1(1):16-20.
    [26] 国家环境保护总局.GB 18484─2001危险废物焚烧污染控制标准.北京:中国标准出版社,2001.
    [27] NIPATTUMMAKUL N,AHMED I,KERDSUWAN S,et al.Hydrogen and syngas production from sewage sludge via steam gasification.International Journal of Hydrogen Energy,2010,5(21):11738-11745.
    [28] 罗志荣.适合于炼厂制氢的煤气化技术选择.大氮肥,2013,6(4):217-220.
    [29] XU Renfu,HE Qihui,CAI Jun,et al.Effects of chemicals and blending petroleum coke on the properties of low-rank Indonesian coal water mixtures.Fuel Processing Technology,2008,9(3):249-253.
    [30] YOON Sangjun,CHOI Youngchan,LEE Jaegoo.The effect of additive chemicals on the viscosity of coal-petroleum coke-water slurry fuel for a gasification process.Korean Journal of Chemical Engineering,2009,6(5):1259-1264.
    [31] LI Weidong,LI Weifeng,LIU Haifeng.Effects of sewage sludge on rheological characteristics of coal-water slurry.Fuel,2010,9(9):2505-2510.
    [32] MA Xiuyuan,DUAN Yufeng,LIU Meng,et al.Influence of sewage sludge on the rheological properties of petroleum coke-water slurry.Asia-Pacific Journal of Chemical Engineering,2013,8(3):453-460.
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出版历程
  • 收稿日期:  2014-01-21
  • 修回日期:  2014-03-19
  • 刊出日期:  2014-05-25

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