简介:这篇评论文章在大气、海洋的研究与进化的全面历史的评论和各种各样的密度表面的申请开始。Thebackground为中立密度想法的出生提供一个基础。注意从海水的状态的方程的非线性对中立密度表面概念的发展被给予。中立密度表面的定义和性质是当摆平的快活频率N~2是零时,从海水和快活频率的状态的方程发展了详细被描述,稳定性的一个中立状态。以便把中立密度表面用于中间的水团分析,这评论也详细描述它的实际海洋学的应用程序。印射的技术第一次集中于定期在这评论使用gridded数据。一根脊梁和肋骨框架怎么被设计从在世界的海洋扔并且首先印射全球中立表面的一本参考书充实,被考察。几印射的中立密度表面为每世界海洋表现为例子。Thewater团性质在每海洋被分析在中间深度。中立密度表面的特征与潜在的密度表面的那些相比。
简介:为预测和评价贵州普安泥堡金矿床的成矿潜力,采用原生晕地球化学方法对10460勘探线所控制的Ⅲ-1号矿体进行原生晕轴向分带特征研究。采集了该勘探线上6个钻孔矿体附近的构造蚀变岩石样品进行ICP-AES分析。通过对各元素进行相关性分析及因子分析,选取原生晕地球化学特征研究的指示元素为Au、As、Ag、Cu、Hg、Mo、Co、Cd、Sb。综合原生晕分带图及指示元素分带序列分析,判断Ⅲ-1矿体原生晕出现了明显的分带异常,其由浅部到深部总体表现为:前缘晕元素+尾晕元素—近矿晕—前缘晕元素+近矿晕元素+尾晕元素的元素异常分布序列,指示在深部存在一个或多个隐伏矿体,是造成元素异常叠加共存与轴向分带序列异常的原因。
简介:Shales,themostabundantofsedimentaryrocks,arevaluedasthesource-rocksandsealstoporouspetroleumreservoirs.Overthepast-twentyyears,organic-richshaleshavealsoemergedasvaluablepetroleumsystems(reservoir,seal,andsourcerockscontainedinthesameformation).Assuchtheyhavebecomeprimarytargetsforpetroleumexplorationandexploitation.ThisPart1ofathree-partreviewaddressesthebulkproperties,multi-scalegeometryandgasadsorptioncharacteristicsofthesediverseandcomplexrocks.Shalesdisplayextremelylowpermeability,andtheirporosityisalsolow,butmulti-scale.Characterizingthegeometryandinterconnectivityofthepore-structureframeworkswiththenatural-fracturenetworkswithinshalesisessentialforestablishingtheirpetroleumexploitationpotential.Organic-richshalestypicallycontaintwodistincttypesofporosity:matrixporosityandfractureporosity.Inadditiontointer-granularporosity,thematrixporosityincludestwotypesofmineral-hostedporosity:inorganic-mineral-hostedporosity(IP);and,organic-matter-hosted(withinthekerogen)porosity(OP).Whereas,thefractureporosityandpermeabilityiscrucialforpetroleumproductionfromshales,itiswithintheOPwhere,typically,muchofthein-situoilandgasresourcesresides,andfromwhereitneedstobemobilized.OPincreasessignificantlyasshalesbecomemorethermallymature(i.e.,withinthegasgenerationzones),andplaysakeyroleintheultimaterecoveryfromshale-gassystems.Shales'methanesorptioncapacities(MSC)tendstobepositivelycorrelatedwiththeirtotalorganiccarboncontent(TOC),thermalmaturation,andmicroporevolume.Claymineralsalsosignificantlyinfluencekeyphysicalpropertiesofshalerelatedtofluidflow(permeability)andresponsetostress(fracability)thatdeterminetheirprospectivityforpetroleumexploitation.Claymineralscanalsoadsorbgas,somemuchbetterthanothers.Thesurfaceareaoftheporestructureofshalescanbepositively