岩土力学
巖土力學
암토역학
ROCK AND SOIL MECHANICS
2010年
2期
553-558
,共6页
核素迁移%单裂隙%双重介质%Laplace变换%反演
覈素遷移%單裂隙%雙重介質%Laplace變換%反縯
핵소천이%단렬극%쌍중개질%Laplace변환%반연
nuclide migration%single fracture%dual media%Laplace transform%inverse analysis
探讨了孔隙与单裂隙双重介质中的一类核素迁移数学模型及其反演问题.该核素迁移模型是一个耦合的抛物型方程组定解问题.若已知排污点的核素浓度变化规律,利用Laplace变换及其逆变换方法,求得了核素迁移模型正问题的解析解;反之,由下游裂隙中某个点的实测核素浓度,利用偏微分方程的叠加原理和反问题的拟解法,反求出核素迁移模型反问题的解,即排污点的核素状态.最后,给出核素迁移模型的正问题和反问题的数值模拟.数值结果表明,正问题的解析解能够刻画核素的迁移规律,也显示出所提反问题方法能有效地反演核素污染源.
探討瞭孔隙與單裂隙雙重介質中的一類覈素遷移數學模型及其反縯問題.該覈素遷移模型是一箇耦閤的拋物型方程組定解問題.若已知排汙點的覈素濃度變化規律,利用Laplace變換及其逆變換方法,求得瞭覈素遷移模型正問題的解析解;反之,由下遊裂隙中某箇點的實測覈素濃度,利用偏微分方程的疊加原理和反問題的擬解法,反求齣覈素遷移模型反問題的解,即排汙點的覈素狀態.最後,給齣覈素遷移模型的正問題和反問題的數值模擬.數值結果錶明,正問題的解析解能夠刻畫覈素的遷移規律,也顯示齣所提反問題方法能有效地反縯覈素汙染源.
탐토료공극여단렬극쌍중개질중적일류핵소천이수학모형급기반연문제.해핵소천이모형시일개우합적포물형방정조정해문제.약이지배오점적핵소농도변화규률,이용Laplace변환급기역변환방법,구득료핵소천이모형정문제적해석해;반지,유하유렬극중모개점적실측핵소농도,이용편미분방정적첩가원리화반문제적의해법,반구출핵소천이모형반문제적해,즉배오점적핵소상태.최후,급출핵소천이모형적정문제화반문제적수치모의.수치결과표명,정문제적해석해능구각화핵소적천이규률,야현시출소제반문제방법능유효지반연핵소오염원.
A mathematical model of nuclide migration and its inverse analysis for the dual media consisting of the porosity and the single fracture media,are explored.The nuclide migration model is a coupled parabolic equations with initial and boundary conditions.If the variation of the nuclide concentration has been known at the release point,an analytical solution of the nuclide migration model is obtained by the Laplace transform and its inverse analysis.On the contrary,the solution of the inverse problem of the nuclide migration model,namely the nuclide concentration at the release point,is reconstructed by the principle of superposition of partial differential equations and the quasi-solution method of inverse problems from the measured data of nuclide concentration at one downstream point.Finally,numerical simulations for the forward and inverse problems are given.Numerical results show that the analytical solution of the forward problem can describe the variation of the nuclide migration,and the method proposed for the inverse analysis is also effective to reconstruct the nuclide pollution source.