Advances of nanotechnologies for hydraulic fracturing of coal seam gas reservoirs:potential applications and some limitations in Australia  被引量：4

作　　者：Hannah Marsden Sudeshna Basu Alberto Striolo Melanie MacGregor 

机构地区：[1]Department of Chemical Engineering,University College London,London WC1E 7JE,UK [2]Future Industries Institute,University of South Australia,Mawson Lakes Bvd,Mawson Lakes,SA 5195,Australia [3]Department of Earth Sciences,University College London,London WC1E 6BS,UK [4]School of Chemical,Biological and Materials Engineering,University of Oklahoma,Norman,OK 73019,USA [5]Flinders Institute for Nanoscale Science&Technology,College of Science and Engineering,Flinders University,Bedford Park,SA 5042,Australia

出　　处：《International Journal of Coal Science & Technology》2022年第2期1-18,共18页国际煤炭科学技术学报（英文）

基　　金：supported,in part,by the Department of Chemical Engineering,University College London;by the Futures Industries Institute of the University of South Australia.AS gratefully acknowledges fnancial support from the Horizon 2020 project‘Science 4 Clean Energy’;supported by grant number 764810 from the European Commission;from the US Department of Energy,Ofce of Basic Energy Sciences,Division of Chemical Sciences,Geosciences;Biosciences,under grant number DE-SC0006878.MM gratefully acknowledges fnancial support from the Australian research council,FT200100301.

摘　　要：Some of the most promising potential applications of nanotechnology to hydraulic fracturing of coal seam gas(CSG)are reviewed with a focus on Australian CSG wells.Three propitious applications were identifed:(1)Nanoparticle enhanced viscoelastic surfactants(VES)fracturing fuids to prevent fuid loss by up to 30%,made possible by the formation of pseudo-flter cakes and reducing the viscosity of the VES fuids.Besides,there is no requirement of clay control additives or biocides.(2)Nano-proppants to extend fracture networks and reduce proppant embedment by introducing them prior to the emplacement of larger proppants.Fly Ash nanoparticles can be particularly efective because of their high sphericity and mechanical strength.(3)Nanoparticle-coated proppants,to mitigate the migration of particle fnes by restricting them close to their source by adsorption,with MgO being the most efective.The use of nanotechnology in hydraulic fracturing applications is currently hindered due to a discordant regulatory environment compounded by the cost of the nanoparticles themselves,as well as,a lack of feld data to validate the technology under real downhole conditions.Although the necessary feld tests are unlikely to be conducted for as long as abundant natural gas is available,exploratory studies could pave the way for future applications.

关 键 词：Coal bed methane Nanoparticles Fracturing fuids PROPPANT Natural gas 

分 类 号：TD713[矿业工程—矿井通风与安全]