简介:在实验室对5块储层砂岩进行了模拟地层压力条件下的超声波速度测试。砂岩样品采自WXS凹陷的W地层,覆盖了从低到高的孔隙度和渗透率范围。实验选用了卤水和4种不同密度油作为孔隙流体,结合温度变化,实现了对流体粘度引致的速度频散研究。对实验结果的分析表明:(1)对于高孔隙度和渗透率的样品,无论是哪种流体饱和,观察到的超声波速度测试值和零频率Gassmann预测值的差异较小(约2-3%),基本上可以用Biot模型解释;对于中等孔隙度和渗透率的样品,低粘度流体(〈约3mP·S)的频散效应也可以用Biot模型得到合理解释;(2)对于低、中孔隙度和渗透率样品,当流体粘度增加时,喷射流机制起主导作用,导致严重的速度频散(可达8%)。对储层砂岩的微裂隙纵横比进行了估计并用于喷射流特征频率的计算,当高于该特征频率时,Gassmann理论的假设条件受到破坏,实验室测得的高频速度不能直接用于地震低频条件下的W地层砂岩的Gassmann流体替换研究。
简介:Finite-difference(FD)methodsarewidelyusedinseismicforwardmodelingowingtotheircomputationalefficiencybutarenotreadilyapplicabletoirregulartopographies.Thus,severalFDmethodsbasedonthetransformationtocurvilinearcoordinatesusingbody-fittedgridshavebeenproposed,e.g.,standstaggeredgrid(SSG)withinterpolation,nonstaggeredgrid,rotatedstaggeredgrid(RSG),andfullystaggered.TheFDbasedontheRSGissomewhatsuperiortoothersbecauseitsatisfiesthespatialdistributionofthewaveequationwithoutadditionalmemoryandcomputationalrequirements;furthermore,itissimplertoimplement.WeusetheRSGFDmethodtotransformthefirstorderstress–velocityequationinthecurvilinearcoordinatessystemandintroducethehighprecisionadaptive,unilateralmimeticfinite-difference(UMFD)methodtoprocessthefreeboundaryconditionsofanirregularsurface.Thenumericalresultssuggestthattheprecisionofthesolutionishigherthanthatofthevacuumformalism.Whentheminimumwavelengthislow,UMFDavoidsthesurfacewavedispersion.WecompareFDmethodsbasedonRSG,SEM,andnonstaggeredgridandinferthatallsimulationresultsareconsistentbutthecomputationalefficiencyoftheRSGFDmethodishigherthantherest.
简介:Anewmulti-moderesistivityimagingsonde,withtoroidalcoilsassource,canconductthreeresistivitymeasurements:azimuthalresistivity,lateralresistivity,andbitresistivitymeasurements.Thus,theloggingtimeandcostaregreatlysaved.Thetoroidalcoilsaresimplifiedasanextendedvoltagedipoleandtheresponseequationsarederivedforahomogenousformation.Basedon3DFEM,thedepthofinvestigation(DOI),verticalresolution,circumferentialazimuthalcapacity,boreholediameter,mudresistivity,thicknessoftargetformation,andtheresistivityofthesurroundingformationandmudinvasionaresimulated.TheresultssuggestthatthethreemeasurementmodesofthenewsondearedifferentinverticalresolutionsandDOIs.Thecircumferentialdetectionabilityoftheazimuthbuttondependsonthecontrastbetweentheanomalyandformationresistivityandtheopenangleoftheanomaly.Whethertheboreholeistruncatedatthebitornothasagreatinfluenceonthesimulationresults.Theboreholeandmudinvasionaffecttheapparentresistivityinallmodes,buttheeffectsofresistivityofsurroundingformationandthicknessofthetargetformationareonlycorrectedforlateralresistivitymeasurement.
简介:以阿姆河盆地右岸地区碳酸盐岩台内滩气田为例,运用基于图论的多分辨率聚类分析法开展了以常规测井资料为基础的测井相聚类及岩相定量预测研究。该方法不需要分析数据体的结构及聚类数等先验知识为指导,能够自动优选最佳聚类个数,并允许按照实际需求控制聚类级别,进行聚类合并。依据岩芯资料岩相识别及测井相标定结果,本文最终建立了包含5个聚类的测井相划分模型及岩相定量解释图版,其中,聚类测井相1~5分别对应于泻湖泥、石膏坪、滩间、低能滩及高能滩,取芯段符合率达85%以上,能够较好的运用于非取芯段岩相预测研究。据此,我们进行了连续的聚类测井相划分及岩相预测,并对层序地层格架内岩相分布及物性特征进行了分析。