石油学报
石油學報
석유학보
ACTA PETROLEI SINICA
2001年
1期
63-66
,共4页
谢海兵%马远乐%桓冠仁%郭尚平
謝海兵%馬遠樂%桓冠仁%郭尚平
사해병%마원악%환관인%곽상평
非结构网格%PEBI网格%CVFE网格%数学模型%渗透率张量%油藏数值模拟
非結構網格%PEBI網格%CVFE網格%數學模型%滲透率張量%油藏數值模擬
비결구망격%PEBI망격%CVFE망격%수학모형%삼투솔장량%유장수치모의
根据所建立的单个控制体离散形式的物质平衡方程,基于PEBI和CVFE网格,采用任意形式的渗透率张量,建立了相应的数值算法。PEBI网格是一种局部正交网格,其离散形式与有限差分方法相似,流动系数的取值原则和界面渗透率的取法均与有限差分相同。CVFE网格是非正交网格,本文混合运用有限差分和有限元方法计算折算压力梯度,得到与有限差分和PEBI网格不同的离散形式,提出了根据流量符号判定上游的方法,使模型更为合理。模型计算表明,对于形式简单的对角渗透率张量,本文方法可以与九点差分格式相比,精度是可靠的,并且该方法还能模拟完全各向异性渗透率张量,对于精细油藏数值模拟,其应用范围将更为广泛。
根據所建立的單箇控製體離散形式的物質平衡方程,基于PEBI和CVFE網格,採用任意形式的滲透率張量,建立瞭相應的數值算法。PEBI網格是一種跼部正交網格,其離散形式與有限差分方法相似,流動繫數的取值原則和界麵滲透率的取法均與有限差分相同。CVFE網格是非正交網格,本文混閤運用有限差分和有限元方法計算摺算壓力梯度,得到與有限差分和PEBI網格不同的離散形式,提齣瞭根據流量符號判定上遊的方法,使模型更為閤理。模型計算錶明,對于形式簡單的對角滲透率張量,本文方法可以與九點差分格式相比,精度是可靠的,併且該方法還能模擬完全各嚮異性滲透率張量,對于精細油藏數值模擬,其應用範圍將更為廣汎。
근거소건립적단개공제체리산형식적물질평형방정,기우PEBI화CVFE망격,채용임의형식적삼투솔장량,건립료상응적수치산법。PEBI망격시일충국부정교망격,기리산형식여유한차분방법상사,류동계수적취치원칙화계면삼투솔적취법균여유한차분상동。CVFE망격시비정교망격,본문혼합운용유한차분화유한원방법계산절산압력제도,득도여유한차분화PEBI망격불동적리산형식,제출료근거류량부호판정상유적방법,사모형경위합리。모형계산표명,대우형식간단적대각삼투솔장량,본문방법가이여구점차분격식상비,정도시가고적,병차해방법환능모의완전각향이성삼투솔장량,대우정세유장수치모의,기응용범위장경위엄범。
According to the discrete material balance equation ofcontrol-volume,a new numerical scheme based on PEBI grid and CVFE grid is provided,where absolute permeability is in tensor form. Because of PEBI grid's orthogonalization,its discrete equation is similar with that of finite-difference method. The mobility coefficient and interface permeability can be calculated as same as finite-difference method. For CVFE grid,reduced pressure gradient is approximated using finite-difference and finite-element methods simultaneously,and a new upstream weighting approach is proposed based on the signal of flow term,which is more reasonable. The final discrete form of CVFE grid is different from that of PEBI grid and finite-difference method. Numerical model tests show that the method proposed by this paper is as accurate as nine-point finite-difference when permeability tensor is in diagonal form, and it can simulate more complicated cases when permeability is in full-tensor form. Its application prospect is more extensive in fine detailed reservoir simulation.
