Gas leakage mechanism in bedded salt rock storage cavern considering damaged interface  被引量:4

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作  者:Jun Xiong Xiaolan Huang Hongling Ma 

机构地区:[1]Civil and Environmental Engineering Department,University of Alberta,Edmonton,T6G2W2,Canada [2]School of Civil Engineering and Architecture,Wuhan Polytechnic University,Wuhan,430023,China [3]State Key Laboratory of Geomechanics and Geotechnical Engineering,Institute of Rock and Soil Mechanics,The Chinese Academy of Science,Wuhan,430071,Hubei,China

出  处:《Petroleum》2015年第4期366-372,共7页油气(英文)

基  金:We acknowledge the following funds to give financial supports.They are China National Program on National natural sciences foundation of China Grant no.51104108 and 41172284,Key Basic Research Project(973 Program)Grant no.2009CB724603.

摘  要:During the long-time operation of salt rock storage cavern,between its formations,damaged interfaces induced by discontinuous creep deformations between adjacent layers will possibly lead to serious gas leakage.In this paper,damaged interfaces are considered as main potential leakage path:firstly in meso-level,gas flow rule along the interface is analyzed and the calculation of equivalent permeability is discussed.Then based on porous media seepage theory,gas leakage simulation model including salt rock,cavity interlayers and interface is built.With this strategy,it is possible to overcome the disadvantage of simulation burden with porous-fractured double medium.It also can provide the details of gas flowing along the damaged zones.Finally this proposal is applied to the salt cavern in Qianjian mines(East China).Under different operation pressures,gas distributions around two adjacent cavities are simulated;the evolvement of gas in the interlayers and salt rock is compared.From the results it is demonstrated that the domain of creep damage area has great influence on leakage range.And also the leakage in the interface will accelerate the development of leakage in salt rock.It is concluded that compared with observations,this new strategy provides closer answers.The simulation result proves its validity for the design and reasonable control of operating pressure and tightness evaluation of group bedded salt rock storage caverns.

关 键 词:Bedded salt rock Gas leakage Equivalent permeability Numerical simulation 

分 类 号:TG1[金属学及工艺—金属学]

 

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