油基钻屑微波热处理技术研究进展
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摘要
随着社会不断发展,人们对能源的消耗逐年递增,为缓解能源紧张问题,我国正积极开发页岩气能源。页岩气开发开采过程中需要大量使用油基钻井液,这将导致大量含油钻屑的产生。油基钻屑处理不当会对周围环境产生巨大危害,因此,油基钻屑的无害化处理成为亟待解决的问题。通过简述常规油基钻屑处理技术,介绍微波处理技术的原理、特点及研究进展和展望。为油基钻屑微波热解处理技术高效节能、安全环保,为油基钻屑的资源化处理提供了新的思路和方向。
With the continuous development of society, people's energy consumption increased year by year, in order to alleviate the energy shortage, China is actively developing shale gas energy. Shale gas development and production process requires extensive use of oil-based drilling fluid,which will lead to a large number of oil cuttings produced. Inadequate handling of oil-based cuttings will cause great harm to the surrounding environment. Therefore, the harmless treatment of oil-based cuttings becomes an urgent problem to be solved. The principle, characteristics, research progress of microwave treatment technology are introduced in detail by briefly introduce the normal treatment technology of oil based drilling cuttings, which provides a new way of thinking and direction for the treatment of oil-contaminated drill cuttings.
With the continuous development of society, people's energy consumption increased year by year, in order to alleviate the energy shortage, China is actively developing shale gas energy. Shale gas development and production process requires extensive use of oil-based drilling fluid,which will lead to a large number of oil cuttings produced. Inadequate handling of oil-based cuttings will cause great harm to the surrounding environment. Therefore, the harmless treatment of oil-based cuttings becomes an urgent problem to be solved. The principle, characteristics, research progress of microwave treatment technology are introduced in detail by briefly introduce the normal treatment technology of oil based drilling cuttings, which provides a new way of thinking and direction for the treatment of oil-contaminated drill cuttings.
引文
[1]贵恒.微波热脱附法处理含油钻屑方法研究[D].成都:西南石油大学,2015.
[2]张博廉,操卫平,赵继伟,等.油基钻井岩屑处理技术展望[J].当代化工,2014,43(12):2603-2605.
[3]孙静文,许毓,刘晓辉,等.油基钻屑处理及资源回收技术进展[J].石油石化节能,2016,6(1):30-33.
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[6]Shang H,Snape C E,Kingman S W,et al.Treatment of oilcontaminated drill cuttings by microwave heating in a highpowersingle-modecavity[J].Industrial&engineeringchemistry research,2005,44(17):6837-6844.
[7]Santos J M,Pereira M S,Júnior I P,et al.Microwave drying of drilled cuttings in the context of waste disposal and drilling fluid recovery[J].Energy Technology,2014,2(9-10):832-838.
[8]Petri I,Pereira M S,dos Santos J M,et al.Microwave remediation of oil well drill cuttings[J].Journal of Petroleum Science and Engineering,2015,134:23-29.
[9]Robinson,J.P.,Kingman,S.W.,Snape,C.E.,et al.Remediation of oil-contaminated drill cuttings using continuous microwave heating[J].Chemical Engineering Journal,2009,152(2-3):458-463.
[10]Pereira M.S.,Martins R.A.,Martins A.L.,et al.Phisical properties of cuttings,drilling fluid and organic phase recovered in the drying operation in oil and gas well drilling[J].Materials Science Forum,2014,802:262-267.
[11]Shang H,Robinson J,Kingman S,et al.Theoretical study of microwave enhanced thermal decontamination of oil contaminated waste[J].Chemical engineering&technology,2012,96(33):12-19.
[12]Pereira M S,Panisset C M D A,Martins A L,et al.Microwave treatment of drilled cuttings contaminated by synthetic drilling fluid[J].Separation&Purification Technology,2014,124(6):68-73.
[13]郑镇,郑键,张振宏.浅谈工业微波加热与节能减排[J].中国高新技术企业,2011(34):121-122.
[2]张博廉,操卫平,赵继伟,等.油基钻井岩屑处理技术展望[J].当代化工,2014,43(12):2603-2605.
[3]孙静文,许毓,刘晓辉,等.油基钻屑处理及资源回收技术进展[J].石油石化节能,2016,6(1):30-33.
[4]商辉,Kingman S,Robinson J.含油钻屑的微波热处理技术开发[C].全国微波化学会议.重庆:2008.
[5]陈晓琳,李悦钦,蔡成功.微波热解析处理油基泥浆钻屑的可行性研究[J].化学工程与装备,2015(10):86-87.
[6]Shang H,Snape C E,Kingman S W,et al.Treatment of oilcontaminated drill cuttings by microwave heating in a highpowersingle-modecavity[J].Industrial&engineeringchemistry research,2005,44(17):6837-6844.
[7]Santos J M,Pereira M S,Júnior I P,et al.Microwave drying of drilled cuttings in the context of waste disposal and drilling fluid recovery[J].Energy Technology,2014,2(9-10):832-838.
[8]Petri I,Pereira M S,dos Santos J M,et al.Microwave remediation of oil well drill cuttings[J].Journal of Petroleum Science and Engineering,2015,134:23-29.
[9]Robinson,J.P.,Kingman,S.W.,Snape,C.E.,et al.Remediation of oil-contaminated drill cuttings using continuous microwave heating[J].Chemical Engineering Journal,2009,152(2-3):458-463.
[10]Pereira M.S.,Martins R.A.,Martins A.L.,et al.Phisical properties of cuttings,drilling fluid and organic phase recovered in the drying operation in oil and gas well drilling[J].Materials Science Forum,2014,802:262-267.
[11]Shang H,Robinson J,Kingman S,et al.Theoretical study of microwave enhanced thermal decontamination of oil contaminated waste[J].Chemical engineering&technology,2012,96(33):12-19.
[12]Pereira M S,Panisset C M D A,Martins A L,et al.Microwave treatment of drilled cuttings contaminated by synthetic drilling fluid[J].Separation&Purification Technology,2014,124(6):68-73.
[13]郑镇,郑键,张振宏.浅谈工业微波加热与节能减排[J].中国高新技术企业,2011(34):121-122.