纳米材料在水基钻井液中的国外研究现状及展望
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摘要
纳米材料是指至少一个维度在1~100nm范围内的工程材料。由于纳米材料具备良好的热传导及封堵性,在钻井液中可起到降滤失、页岩抑制、流型调节、热传导及井壁稳定强化的作用,在钻井液行业展现出了良好的应用前景。纳米材料的研发,为非常规钻井条件下性能优良的钻井液的开发提供了新的捷径。最近国外在油田用纳米材料的研发方面取得了若干成果,本文综述了近年国外纳米材料在在钻井液中的研究进展并对其发展进行了展望。
Nanomaterials is engineering materials with at least one dimension in the range of 1~100 nm.Due to its nice heat conduction and plugging properties,nanoparticles can play a role in fluid loss reduction,shale inhibition,flow regulation and wellbore strengthening in drilling fluids,and have shown favorable application prospects in the drilling fluid industry.The development of nanoparticles provides a new approach to the development of well-performing drilling fluids under demanding drilling conditions.In this paper,in order to promote the development of drilling fluids and related technologies,the research progress of foreign nanomaterials in drilling fluids in recent years was reviewed.
Nanomaterials is engineering materials with at least one dimension in the range of 1~100 nm.Due to its nice heat conduction and plugging properties,nanoparticles can play a role in fluid loss reduction,shale inhibition,flow regulation and wellbore strengthening in drilling fluids,and have shown favorable application prospects in the drilling fluid industry.The development of nanoparticles provides a new approach to the development of well-performing drilling fluids under demanding drilling conditions.In this paper,in order to promote the development of drilling fluids and related technologies,the research progress of foreign nanomaterials in drilling fluids in recent years was reviewed.
引文
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[24]Akhtarmanesh S,Ameri Shahrabi M J,Atashnezhad A.Improvement of wellbore stability in shale using nanoparticles[J].J Petrol Sci Eng,2013,112:290-295.
[25]Sidik N A C,Mohammed H A,Alawi O A,et al.A Review on preparation methods and chahallenges of nanofluids[J].Heat Mass Transf,2014,54:115-125.
[26]Choi C,Yoo H S.Preparation and heat transfer properties of nanoparticle-in-transformer oil dispersions as advanced energyefficient coolants[J].Curr Appl Phys,2008,8:710-712.
[27]Tighe C J,Cabrera R Q,Gruar R I,et al.Scale up production of nanoparticles:continuous supercritical water synthesis of Ce-Zn oxides[J].Ind Eng Chem Res,2013,52:5522-5528.
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[29]Specification for Drilling Fluid Materials[S];API Specifications13A,2010;API:Washington,DC,USA,2010.
[30]Recommended practice for field testing water based drilling fluids[S].API Specifications 13B-1,2003;API:Washington,DC,USA,2003.
[31]Recommended practice standard procedure for laboratory testing drilling fluids[S].API Specifications 13I,2000;API:Washington,DC,USA,2000.
[32]Clark P E.Drilling mud rheology and the API recommended measurements[C].In Proceedings of the SPE Production Operations Symposium,Oklahoma City,OK,USA,1995.
[2]Vryzas Z,Arkoudeas P,Mahmoud O,et al.Utilization of iron oxide nanoparticles in drilling fluids improves fluid loss and formation damage characteristics[C].In Proceedings of the First EAGE Workshop on Well Injectivity&Productivity in Carbonates(WIPIC),Doha,Qatar,2015.
[3]Vryzas Z,Mahmoud O,Nasr-El-Din H A,et al.Development of novel drilling-fluid nanoparticles for enhanced drilling operations[J].J Petrol Technol,2016,68:48-50.
[4]Vryzas Z,Arkoudeas P,Kelessidis V C.Improvement of drilling fluid flow parameters using nanoparticles for optimization of drilling process[C].In Proceedings of the International Conference on Safe and Sustainable Nanotechnology,Phitsanulok,Thailand,2014.
[5]Vryzas Z,Mahmoud O,Nasr-El-Din H A,et al.Incorporation of Fe3O4nanoparticles as drilling fluid additives for improved drilling operations[C].In Proceedings of the ASME-OMAE International Conference,Busan,Korea,2016.
[6]Vryzas Z,Zaspalis V,Nalbantian L,et al.A comprehensive approach for the development of new magnetite nanoparticles giving smart drilling fluids with superior rheological and fluid loss properties for HP/HT applications[C].In Proceedings of the International Petroleum Technology Conference(IPTC),Bangkok,Thailand,2016.
[7]Li S,Osisanya S,Haroun M.Development of new smart drilling fluids using nano-materials for unconventional reservoirs[C].In Proceedings of the Abu Dhabi International Petroleum Exhibition&Conference,Abu Dhabi,UAE,2016.
[8]Salih A H,Elshehabi T A,Bilgesu H I.Impact of nanomaterials on the rheological and filtration properties of water-based drilling fluids[C].In Proceedings of the SPE Eastern Regional Meeting,Canton,OH,USA,2016.
[9]Ismail A R,Aftab A,Ibupoto Z H,et al.The novel approach for the enhancement of rheological properties of water-based drilling fluids by using multi-walled carbon nanotube,nanosilica and glass beads[J].J Petrol Sci Eng,2016,139:264-275.
[10]Abdo J,Haneef M D.Clay nanoparticles modified drilling fluids for drilling of deep hydrocarbon wells[J].Appl Clay Sci,2013,86:76-82.
[11]Kosynkin D V,Ceriotti G,Wilson K C,et al.Graphene oxide as a high-performance fluid-loss-control additive in water-based drilling fluids[J].ACS Appl Mater Interfaces,2012,4:222-227.
[12]Nasser J,Jesil A,Mohiuddin T,et al.Experimental investigation of drilling fluid performance as nanoparticles[J].World JNano Sci Eng,2013,3:57-61.
[13]Saboori R,Sabbaghi S,Mowla D,et al.Decreasing of water loss and mud cake thickness by CMC nanoparticles in mud drilling[J].Int J Nano Dimens,2012,3:101-104.
[14]Fereydouni M,Sabbaghi S,Saboori R,et al.Effect of polyanionic cellulose polymer nanoparticles on rheological properties of drilling mud[J].J Nanosci Nanotechnol,2012,8:171-174.
[15]Li M C,Wu Q,Song K,et al.Cellulose nanocrystals and polyanionic cellulose as additives in bentonite water-based drilling fluids:Rheological modeling and filtration mechanisms[J].Ind Eng Chem Res,2015,55:133-143.
[16]Li M C,Wu Q,Song K,et al.Cellulose nanoparticles as modifiers for rheology and fluid loss in bentonite water-based fluids[J].ACS Appl Mater Interfaces,2015,7:5006-5016.
[17]Sadeghalvaad M,Sabbaghi S.The effect of the TiO2/polyacrylamide nanocomposite on water-based drilling fluid properties[J].Powder Technol,2015,272:113-119.
[18]Taha N M,Lee S.Nano graphene application improving drilling fluids performance[C].In Proceedings of the International Petroleum Technology Conference(IPTC 18539),Doha,Qatar,2015.
[19]Aftab A,Ismail A R,KHOKHAR S,et al.Novel zinc oxide nanoparticles deposited acrylamide composite used for enhancing the performance of water-based drilling fluids at elevated temperature conditions[C].J Petrol Sci Eng,2016,146:1142-1157.
[20]Sensoy T,Chenevert M E,Sharma M M.Minimizing water invasion in shale using nanoparticles[C].In Proceedings of the SPE Annual Technical Conference and Exhibition,New Orleans,LA,USA,2009.
[21]Taraghikhah S,Kalhor M M,Tahmasbi N K.Multifunctional nanoadditive in water based drilling fluid for improving shale stability.SPE 18323[C].In Proceedings of the International Petroleum Technology Conference,Doha,Qatar,2015.
[22]Hoelscher K P,De Stefano G,Riley M,et al.Application of nanotechnology in drilling fluids[C].In Proceedings of the SPEInternational Nanotechnology Conference,Noordwjik,The Netherlands,2012.
[23]Sharma M M,Chenevert M E,Guo Q,et al.A new family of nanoparticle based drilling fluids[C].In Proceedings of the SPEAnnual Technical Conference and Exhibition,San Antonio,TX,USA,2012.
[24]Akhtarmanesh S,Ameri Shahrabi M J,Atashnezhad A.Improvement of wellbore stability in shale using nanoparticles[J].J Petrol Sci Eng,2013,112:290-295.
[25]Sidik N A C,Mohammed H A,Alawi O A,et al.A Review on preparation methods and chahallenges of nanofluids[J].Heat Mass Transf,2014,54:115-125.
[26]Choi C,Yoo H S.Preparation and heat transfer properties of nanoparticle-in-transformer oil dispersions as advanced energyefficient coolants[J].Curr Appl Phys,2008,8:710-712.
[27]Tighe C J,Cabrera R Q,Gruar R I,et al.Scale up production of nanoparticles:continuous supercritical water synthesis of Ce-Zn oxides[J].Ind Eng Chem Res,2013,52:5522-5528.
[28]Charitidis C A,Georgiou P,Koklioti M A,et al.Manufacturing nanomaterials:from research to industry[J].Manuf Rev,2014,1:11.
[29]Specification for Drilling Fluid Materials[S];API Specifications13A,2010;API:Washington,DC,USA,2010.
[30]Recommended practice for field testing water based drilling fluids[S].API Specifications 13B-1,2003;API:Washington,DC,USA,2003.
[31]Recommended practice standard procedure for laboratory testing drilling fluids[S].API Specifications 13I,2000;API:Washington,DC,USA,2000.
[32]Clark P E.Drilling mud rheology and the API recommended measurements[C].In Proceedings of the SPE Production Operations Symposium,Oklahoma City,OK,USA,1995.