Advances in sediment geochemistry and chemostratigraphy for reservoir characterization  被引量：2

作　　者：Mu Ramkumar R.Nagarajan M.Santosh 

机构地区：[1]Department of Geology,Periyar University,Salem,636011,India [2]Department of Applied Geology,Curtin University,Malaysia [3]Curtin Malaysia Research Institute,Curtin University,Malaysia [4]School of Earth Sciences and Resources,China University of Geosciences Beijing,Beijing,China [5]Department of Earth Sciences,University of Adelaide,Adelaide,SA,5005,Australia

出　　处：《Energy Geoscience》2021年第4期308-326,共19页能源地球科学（英文）

摘　　要：Sedimentary sequences preserve the records of changes in major controls of sedimentation namely,tectonics,climate,relative sea level and sediment production and preservation.The potential to characterize these changes in spatial and temporal scales has led to the development of the branch of chemostratigraphy.Chemostratigraphic study of sedimentary sequences commenced from recognizing identical/contrasting geochemical features across major geochronological boundaries,and evolved into one of the essential tools in exploration,characterization,and well development strategies.Chemostratigraphy incorporates applications on continuous,real-time geochemical mapping and direction of lateral drilling,and machine learning,among others.As the sedimentary systems operate on a variety of temporal scales that range from few hours(tidal cycles)to few tens of millions of years,within which many perturbations such as catastrophic and diagenetic events take place,that lead to unique geochemical signature which can be correlated at appropriate spatial and temporal scales.The application of chemostratigraphic technique in hydrocarbon exploration and reservoir characterization has gained momentum in recent years,particularly with the advent of developments in analytical instrumentation.This has also led to the integration of a variety of data from field sedimentary structures,mineralogy,major,trace and isotopic chemical compositions of whole rock,selected components of rocks,organic and inorganic components of oil and gas,etc.,for reservoir characterization more accurately than ever.The geochemical fingerprinting of oil and gas reservoir components plays a major role in the identification of source rocks,discrimination of oil families,characterization of reservoir,source,and seal segments in petroleum systems.Future trends indicate the relevance and growing applications of machine learning techniques,artificial intelligence in real-time assessment,monitoring and planning of hydrocarbon exploration and production.

关 键 词：BIOMARKER CHEMOSTRATIGRAPHY Geochemical fingerprinting Machine learning Oil family Stratigraphic correlation 

分 类 号：P61[天文地球—矿床学]