优化交错网格差分算子的井间地震数值模拟及其频散分析
우화교착망격차분산자적정간지진수치모의급기빈산분석
Optimized staggered grid finite-difference numerical simulation of well seismic and analysis of numerical dispersion
  • 万方数据
    物探化探计算技术 물탐화탐계산기술
    COMPUTING TECHNIQUES FOR GEOPHYSICAL AND GEOCHEMICAL EXPLORATION
    2014年 5期 606-612 ,共7页

    章阳%孟凡顺

    장양%맹범순

    有限差分%数值频散%交错网格%约束条件%优化差分算子 有限差分%數值頻散%交錯網格%約束條件%優化差分算子
    유한차분%수치빈산%교착망격%약속조건%우화차분산자
    finite-difference%numerical dispersion%staggered grid%constraint condition%optimized differential operator
    在井间地震有限差分数值模拟中,用离散化的高阶差分方程近似连续导数的波动方程时,不可避免地会产生数值频散,而数值频散程度则直接影响到地震波数值模拟精度,因此为了得到清晰准确的地震波场记录,必须尽可能地压制数值频散。这里在一阶速度应力弹性波方程的基础上,利用两个约束条件构造拉格朗日函数获取优化差分系数,与泰勒展开差分系数下的交错网格高阶差分模拟结果比较,发现改进的优化交错网格差分算子的高阶差分数值模拟能更有效地压制数值频散,进一步提高交错网格高阶差分数值模拟的精度,为高精度井间地震数据的波场成像、纵横波联合解释等提供可靠依据。
    재정간지진유한차분수치모의중,용리산화적고계차분방정근사련속도수적파동방정시,불가피면지회산생수치빈산,이수치빈산정도칙직접영향도지진파수치모의정도,인차위료득도청석준학적지진파장기록,필수진가능지압제수치빈산。저리재일계속도응력탄성파방정적기출상,이용량개약속조건구조랍격랑일함수획취우화차분계수,여태륵전개차분계수하적교착망격고계차분모의결과비교,발현개진적우화교착망격차분산자적고계차분수치모의능경유효지압제수치빈산,진일보제고교착망격고계차분수치모의적정도,위고정도정간지진수거적파장성상、종횡파연합해석등제공가고의거。
    In the finite-difference numerical simulation of well seismic,when using discretized higher-order differential equation approximate continuous derivative wave equation,it will inevitably lead to numerical dispersion.As numerical disper-sion directly affects the precision of numerical simulation of seismic wave,so in order to get more clear and accurate records of seismic wave field,we must try best to suppress numerical dispersion.In this paper,we are based on an order velocity-stress elastic wave equation,introducing two constraint conditions and construct a Lagrange function,then obtain new differential co-efficients by extremely conditions.Analyze and compare the numerical simulation of an order velocity-stress elastic wave equa-tion with high-order staggered grid differential operators by Taylor expansion and optimized differential operators,we con-clude that the numerical simulation using by optimized staggered grid differential operators can more effectively suppress the numerical dispersion and improve the accuracy of simulation.and provide a reliable basis for wave field imaging of high preci-sion seismic data in well and interpretation between P wave and S wave.
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