石油物探
石油物探
석유물탐
GEOPHYSICAL PROSPECTING FOR PETROLEUM
2009年
5期
479-482
,共4页
首皓%孙鲁平%刘红伟%赵晓龙
首皓%孫魯平%劉紅偉%趙曉龍
수호%손로평%류홍위%조효룡
地震波正演模拟%波动方程%单程波%相移加插值%反射系数随入射角变化
地震波正縯模擬%波動方程%單程波%相移加插值%反射繫數隨入射角變化
지진파정연모의%파동방정%단정파%상이가삽치%반사계수수입사각변화
forward simulating on seismic wave%wave equation%one-way wave%phase shift plus interpolation%reflectivity via incident angle
单程波方法是常用的地震正演模拟方法之一.与双程波方法相比,单程波方法的计算量成倍减少,且能保持较高的精度.但由于单程波方法不能获得准确的入射角信息,因而多采用垂直入射的反射系数,使得模拟波场的振幅特征不是实际地层的真实反映.为此,提出了结合频率-波数域反射系数近似公式和相移加插值的改进单程波方法.分别采用双程波虚谱法、常规单程波方法和改进单程波方法,基于Marmousi模型进行了数值模拟,对比模拟结果发现,改进的单程波方法可以准确地模拟振幅随入射角的变化,且具备与双程波方法相同的精度.
單程波方法是常用的地震正縯模擬方法之一.與雙程波方法相比,單程波方法的計算量成倍減少,且能保持較高的精度.但由于單程波方法不能穫得準確的入射角信息,因而多採用垂直入射的反射繫數,使得模擬波場的振幅特徵不是實際地層的真實反映.為此,提齣瞭結閤頻率-波數域反射繫數近似公式和相移加插值的改進單程波方法.分彆採用雙程波虛譜法、常規單程波方法和改進單程波方法,基于Marmousi模型進行瞭數值模擬,對比模擬結果髮現,改進的單程波方法可以準確地模擬振幅隨入射角的變化,且具備與雙程波方法相同的精度.
단정파방법시상용적지진정연모의방법지일.여쌍정파방법상비,단정파방법적계산량성배감소,차능보지교고적정도.단유우단정파방법불능획득준학적입사각신식,인이다채용수직입사적반사계수,사득모의파장적진폭특정불시실제지층적진실반영.위차,제출료결합빈솔-파수역반사계수근사공식화상이가삽치적개진단정파방법.분별채용쌍정파허보법、상규단정파방법화개진단정파방법,기우Marmousi모형진행료수치모의,대비모의결과발현,개진적단정파방법가이준학지모의진폭수입사각적변화,차구비여쌍정파방법상동적정도.
The one-way wave method is commonly used for simulating seismic wave,compares with the two-way wave simulation method,the computation of one-way method becomes time of reduction,also maintains higher precision,but the one-way wave method is unable to obtain the accurate incidence angle information,thus the normal incidence reflectivity is used,but the amplitude characteristics of simulated wave field is not the real reflection of actual formations.Therefore,we proposed an improved one-way wave method by combining reflectivity approximate formula in frequency-wave number domain and phase-shift plus interpolation method.Two-way wave pseudo spectral method,conventional one-way wave method and the improved one-way wave method were separately adopted to simulate single shot recorder based on Marmousi model.Comparison on simulated results show that the improved one-way wave method can accurately simulate the changes of amplitude via incident angle and has the same precision with two-way wave method.