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水泥窑协同处置含油污泥

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邓皓, 王蓉沙, 唐跃辉, 谢水祥, 张明栋, 岳勇, 任雯, 刘晓辉. 水泥窑协同处置含油污泥[J]. 环境工程学报, 2014, 8(11): 4949-4954.
引用本文: 邓皓, 王蓉沙, 唐跃辉, 谢水祥, 张明栋, 岳勇, 任雯, 刘晓辉. 水泥窑协同处置含油污泥[J]. 环境工程学报, 2014, 8(11): 4949-4954.
shu
Deng Hao, Wang Rongsha, Tang Yuehui, Xie Shuixiang, Zhang Mingdong, Yue Yong, Ren Wen, Liu Xiaohui. Co-processing oily sludge with cement kiln[J]. Chinese Journal of Environmental Engineering, 2014, 8(11): 4949-4954.
Citation: Deng Hao, Wang Rongsha, Tang Yuehui, Xie Shuixiang, Zhang Mingdong, Yue Yong, Ren Wen, Liu Xiaohui. Co-processing oily sludge with cement kiln[J]. Chinese Journal of Environmental Engineering, 2014, 8(11): 4949-4954.
shu

水泥窑协同处置含油污泥

  • 1.

    中国石油集团安全环保技术研究院, 北京 102206

  • 2.

    中国石油长庆油田分公司第一采油厂, 延安 716000

  • 基金项目:

    中国石油天然气股份有限公司科技重大专项(2011E-2407)

  • 中图分类号: X705

Co-processing oily sludge with cement kiln

  • 1.

    CNPC Research Institute of Safety & Environment Technology, Beijing 102206, China

  • 2.

    No. 1 Oil Production Factory, Changqing Oil Field, CNPC, Yan'an 716000, China

  • Fund Project:

摘要

  • 摘要: 含油污泥是石油石化生产过程中产生的一种含油固体废弃物,现有的含油污泥处理技术主要解决了油泥中油气资源的部分回收,未实现油泥的彻底无害化.采用能谱仪、原子荧光光度计和等离子体发射光谱仪等检测手段,检测了不同油田含油污泥的成分、热值及重金属含量,并与水泥生产的相关标准进行了对比分析.结果表明,含油污泥灰分中氧化钙、氧化硅等含量总和均大于80%;灰分中重金属含量基本满足《水泥工厂设计规范》GB50295-2008中水泥熟料重金属含量要求,可作为水泥生产的替代原料.采集的各油田含油污泥平均热值达17.6 MJ/kg,大部分含油污泥都可以作为水泥生产的替代燃料.同时,水泥窑协同处置含油污泥时有害有机物被彻底分解,不会产生二次污染,能真正实现含油污泥的减量化、资源化和无害化,是一项值得推广的处置方式.
    Abstract: Oily sludge is one of the oily solid wastes produced during the process of petroleum and petrochemical production. The existing technologies for oily sludge treatment have mainly solved the problem of partial resource recycling of oil and gas, but could not make sludge completely harmless. In this study, energy dispersive spectrometer (EDS), atomic fluorescence spectrometry, inductively coupled plasma (ICP) and other test instruments were used to test the composition, calorific value and heavy metal content of the oily sludge from different oilfields. The results were compared with the related standard of cement production. The results show that the contents of calcium oxide and silicon oxide in the ash are always more than 80% and heavy metal content basically meet Code for Design of Cement Plant (GB50295-2008). So, oily sludge can be used as an alternative material for cement production. Then, caloric value of oily sludge from different oilfield is 17.6 MJ/kg on average, which further indicates that most of the oily sludge could be used as the alternative fuel of cement production. Meanwhile, when the oily sludge was co-processed with cement kiln, the harmful organisms was decomposed completely without secondary pollution. The method of oily sludge co-processing in cement kiln is a valuable disposal way to be promoted to really realize harmlessness, reduction and resource utilization for oily sludge.
  • [1] 杨双春,刘国斌,张金辉,等. 国内外含油污泥处理技术研究进展.现代化工,2012,32(11):36-29 Yang Shuangchun,Liu Guobin,Zhang Jinhui, et al. Progress in oily solid waste treatment technology at home and abroad. Modern Chemical Industry, 2012,32(11):36-29(in Chinese)
    [2] 孔令荣, 夏福军,荆国林. 国内含油污泥的综合利用方法.能源环境保护,2011,26(3): 1-4 Kong Lingrong,Xia Fujun,Jing Guolin. Comprehensive utilization of oily sludge in china. Energy Environmental Protection, 2011,26(3): 1-4(in Chinese)
    [3] 刘志林,完石光,于莹. 石化含油污泥的资源化利用. 环境保护与循环经济, 2010,(12):58- 61 Liu Zhilin,Wan Shiguang,Yu Ying. The resource utilization of petrochemical oily sludge. Environmental Prtotection and Circular Economy, 2010,(12):58- 61(in Chinese)
    [4] Hou Shuyang, Chen Mincian, Lin Tahui. Experimental study of the combustion characteristics of densified refuse derived fuel (RDF-5) produced from oil sludge. Fuel,2014,116(1): 201-207
    [5] 郭绍辉,彭鸽威, 闫光绪,等. 国内外石油污泥处理技术研究进展. 现代化工,2008,28(3):36-39 Guo Shaohui,Peng Gewei,Yan Guoangxu,et al. Progress in treatment of petroleum sludge at home and abroad. Modern Chemical Industry, 2008,28(3):36-39(in Chinese)
    [6] Xu Menghan, Zhang Jie, Liu Haifeng, et al. The resource utilization of oily sludge by co-gasification with coal. Fuel,2014,126(6): 55-61
    [7] Ragheb A. Tahhan, Tarek G. Ammari, Saba J. Goussous, et al. Enhancing the biodegradation of total petroleum hydrocarbons in oily sludge by a modified bioaugmentation strategy. International Biodeterioration & Biodegradation,2011,65(1): 130-134
    [8] 贾贤补,周利坤,任卫国.新型含油污泥处理技术的分析与探索.山西科技, 2012,27(1):62-63 Jia Xianbu,Zhou Likun,Ren Weiguo. Analysis and study of the new treatment of oily sludge.Shangxi Science and Technology, 2012,27(1):62-63(in Chinese)
    [9] 杨玉飞,杨昱,黄启飞.废物水泥窑共处置产品中重金属的释放特性.中国环境科学,2009,29(2):175-180 Yang Yufei,Yang Yu, Huang Qifei. Release characteristics of heavy metals in cement product from co-processing waste in cement kiln. China Environmental Science, 2009,29(2):175-180(in Chinese)
    [10] 潘泂,杨学权,刘渊.污泥改性脱水和水泥窑协同处置新工艺介绍及经济和环保性评价.水泥,2011,7(1):1-8 Pang Jiong, Yang Xuechuan, Liu Yuan. Introduction and evaluation of economic and environmental protection for new coordination technology of sludge using dehydration and modified cement kiln. Cement, 2011,7(1):1-8(in Chinese)
    [11] 刘艳霞,崔素萍,兰明章.水泥生产中微量元素的行为及环境影响.水泥,2002,(5):5-8 Liu Yanxia,Cui Suping,Lan Mingzhang. Behavior and environmental influence of trace elements in cement production. Cement, 2002,(5):5-8(in Chinese)
    [12] Maria Luiza Grillo Renó, Felipe Martins Torres, Rogério José da Silva, et al. Exergy analyses in cement production applying waste fuel and mineralizer. Energy Conversion and Management,2013,75(11): 98-104
    [13] 熊文强,杨光,刘朝,等.可燃性有害废物作生产水泥燃料的研究. 重庆大学学报(自然科学版),1994,17(7):90-95 Xiong Wenqiang, Yang Guang,Liu Chao, et al. The study of flannable harmful wastes used as the substifute fuel cement production. Journal of Chongqing University(Natural Science), 1994,17(7):90-95(in Chinese)
    [14] 姜丽杰,孙胜龙,张晓红.利用水泥回转窑处理危险废物.长春师范学院学报(自然科学版),2005,24(5):69-74 Jiang Lijie, Sun Shenglong, Zhang Xiaohong. Utilize the cement rotary kiln to deal with the hazardous waste. Journal of Changchun Teachers College(Natural Science), 2005,24(5):69-74(in Chinese)
    [15] 张志勇.水泥回转窑焚烧危险废弃物的生产实践.水泥工程,2008,(3):71-72 Zhang Zhiyong. Production practice of burning hazardous wastes in cement rotary kiln. Cement Engineering, 2008,(3):71-72(in Chinese)
    [16] Wendell de Queiroz Lamas, Jose Carlos Fortes Palau, Jose Rubens de Camargo. Waste materials co-processing in cement industry: Ecological efficiency of waste reuse. Renewable and Sustainable Energy Reviews,2013,19(3): 200-207
    [17] 张益.生活垃圾焚烧厂中二恶英的产生和控制.环境保护,2000,(1):14-15 Zhang Yi. Produce and control of dioxin in domestic incinerator. Environmental Protection, 2000,(1):14-15(in Chinese)
    [18] 曹青,吕永康,鲍卫仁.抑制焚烧衍生垃圾燃料过程中产生二恶英的途径.现代化工,2006,(11):67-69 Cao Qing, Lu Yongkang, Bao Weiren. Analysis inhibiting dioxins produced during incinerating municipal solid waste processes. Modern Chemical Industry, 2006,(11):67-69(in Chinese)
    [19] 乔龄山.水泥厂利用废弃物的有关问题(三).水泥,2003,(2):1-7 Qiao Lingshan. Several problems about utilizing waste in cement plant(3)—Harmful gas and radioactivity pollution(finished).Cement, 2003,(2):1-7(in Chinese)
    [20] 沈晓冬,许仲梓. 利用水泥回转窑系统焚烧工业有害废弃物. 水泥工程,2002, (5):61-63 Sheng Xiaodong,Xu Zhongzi. Burning industry deleterious castoff in cement rotary kiln system. Cement Engineering, 2002, (5):61-63(in Chinese)
    [21] 朱桂珍. 利用水泥回转窑焚烧处置危险废物的评价研究. 环境保护,2003, (3):14-22 Zhu Guizhen. Study on incineration of hazardous waste with cement turning kiln. Environmental Protection, 2003, (3):14-22(in Chinese)
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出版历程
  • 收稿日期:  2014-04-14
  • 刊出日期:  2014-11-07
邓皓, 王蓉沙, 唐跃辉, 谢水祥, 张明栋, 岳勇, 任雯, 刘晓辉. 水泥窑协同处置含油污泥[J]. 环境工程学报, 2014, 8(11): 4949-4954.
引用本文: 邓皓, 王蓉沙, 唐跃辉, 谢水祥, 张明栋, 岳勇, 任雯, 刘晓辉. 水泥窑协同处置含油污泥[J]. 环境工程学报, 2014, 8(11): 4949-4954.
shu
Deng Hao, Wang Rongsha, Tang Yuehui, Xie Shuixiang, Zhang Mingdong, Yue Yong, Ren Wen, Liu Xiaohui. Co-processing oily sludge with cement kiln[J]. Chinese Journal of Environmental Engineering, 2014, 8(11): 4949-4954.
Citation: Deng Hao, Wang Rongsha, Tang Yuehui, Xie Shuixiang, Zhang Mingdong, Yue Yong, Ren Wen, Liu Xiaohui. Co-processing oily sludge with cement kiln[J]. Chinese Journal of Environmental Engineering, 2014, 8(11): 4949-4954.
shu

水泥窑协同处置含油污泥

  • 1. 中国石油集团安全环保技术研究院, 北京 102206
  • 2. 中国石油长庆油田分公司第一采油厂, 延安 716000
  • 收稿日期:  2014-04-14
基金项目:

中国石油天然气股份有限公司科技重大专项(2011E-2407)

摘要: 含油污泥是石油石化生产过程中产生的一种含油固体废弃物,现有的含油污泥处理技术主要解决了油泥中油气资源的部分回收,未实现油泥的彻底无害化.采用能谱仪、原子荧光光度计和等离子体发射光谱仪等检测手段,检测了不同油田含油污泥的成分、热值及重金属含量,并与水泥生产的相关标准进行了对比分析.结果表明,含油污泥灰分中氧化钙、氧化硅等含量总和均大于80%;灰分中重金属含量基本满足《水泥工厂设计规范》GB50295-2008中水泥熟料重金属含量要求,可作为水泥生产的替代原料.采集的各油田含油污泥平均热值达17.6 MJ/kg,大部分含油污泥都可以作为水泥生产的替代燃料.同时,水泥窑协同处置含油污泥时有害有机物被彻底分解,不会产生二次污染,能真正实现含油污泥的减量化、资源化和无害化,是一项值得推广的处置方式.

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