04877nam 2200625 450 991081832060332120230120012958.0(CKB)2670000000613637(EBL)2038914(SSID)ssj0001539945(PQKBManifestationID)11902538(PQKBTitleCode)TC0001539945(PQKBWorkID)11533471(PQKB)11710948(MiAaPQ)EBC2038914(Au-PeEL)EBL2038914(CaPaEBR)ebr11050257(CaONFJC)MIL778759(OCoLC)908335687(EXLCZ)99267000000061363720150518h20152015 uy 0engur|n|---|||||txtccrPractical reservoir engineering and characterization /Richard O. Baker, Harvey W. Yarranton, Jerry L. JensenAmsterdam, Netherlands :Elsevier,2015.©20151 online resource (535 p.)Description based upon print version of record.0-12-801811-9 0-12-801823-2 Includes bibliographical references and index.Front Cover; Practical Reservoir Engineering and Characterization; Copyright; Dedications; Contents; Preface; 1 - Introduction; 1.1 Overview of Reservoir Engineering; 1.2 Reservoir Classifications; 1.3 General Workflow for Reservoir Characterization; 1.4 Approach and Purpose of This Book; Part One - Basic Reservoir EngineeringPrinciples; 2 - Rock and Fluid Properties; 2.1 Petroleum Geology; 2.2 Rock Properties; 2.3 Rock-Fluid Interactions; 2.4 Types of Reservoir Fluids; 2.5 Reservoir Fluid Properties; 3 - Basic Reservoir Engineering Calculations; 3.1 Reservoir Volumetrics3.2 Reservoir Material Balance3.3 Steady-State Flow Through Porous Media; 3.4 Transient Flow Through Porous Media; Part Two - Reservoir Data Analysis; 4 - Pool History; 4.1 Well History; 4.2 Production History; 5 - Fluid Properties (PVT Data); 5.1 Fluid Property Assays and Studies; 5.2 Analysis of a Black Oil Dataset; 5.3 Correlations for Fluid Data; 5.4 Sources of Error and Corrections for Black Oil Fluid Data; 5.5 Properties of Unconventional Fluids; 6 - Pressure and Flow Test Data; 6.1 Pressure Measurements; 6.2 Pressure Transient Tests of Oil Wells6.3 Preparation of Pool Pressure History6.4 Flow Tests; 6.5 Other Tests-Interference, Pulse, and Tracer Tests; 7 - Conventional Core Analysis-Rock Properties; 7.1 Core Sampling and Errors; 7.2 Conventional Core Data; 7.3 Analyzing Conventional Core Data; 7.4 Rock Compressibility and the Effect of Overburden Pressure; 7.5 Formation Resistivity; 8 - Special Core Analysis-Rock-Fluid Interactions; 8.1 Relative Permeability; 8.2 Measurement of Relative Permeability; 8.3 Analyzing Relative Permeability Data; 8.4 Two-Phase Relative Permeability Correlations8.5 Three-Phase Relative Permeability Correlations8.6 Guidelines for Determining Endpoints; 8.7 Capillary Pressure; 8.8 Measurement of Capillary Pressure; 8.9 Analyzing Capillary Pressure Data; 9 - Openhole Well Logs-Log Interpretation Basics; 9.1 Openhole Logging; 9.2 Types of Openhole Log; 9.3 Basic Log Interpretation; 9.4 Comparison of Log and Core Porosity; 9.5 Net Pay Cutoffs; Part Three - Reservoir Characterization; Chapter 10 - Reservoir Characterization Methods; 10.1 Data Reconciliation; 10.2 Reservoir Mapping; 10.3 Volumetrics; 10.4 Analysis of Well, Production, and Pressure History10.5 Material Balance11 - The Practice of Reservoir Characterization; 11.1 Overview of Characterization; 11.2 Characterization Workflow; 11.3 Reservoir Classification; 11.4 Case Studies; References; Index Practical Reservoir Characterization expertly explains key technologies, concepts, methods, and terminology in a way that allows readers in varying roles to appreciate the resulting interpretations and contribute to building reservoir characterization models that improve resource definition and recovery even in the most complex depositional environments. It is the perfect reference for senior reservoir engineers who want to increase their awareness of the latest in best practices, but is also ideal for team members who need to better understand their role in the characterization process. THydrocarbon reservoirsPetroleum engineeringHydrocarbon reservoirs.Petroleum engineering.622.338Baker Richard O.283996Yarranton Harvey W.Jensen Jerry L.MiAaPQMiAaPQMiAaPQBOOK9910818320603321Practical reservoir engineering and characterization4089083UNINA05653nam 2201537z- 450 991055742180332120220111(CKB)5400000000043476(oapen)https://directory.doabooks.org/handle/20.500.12854/76938(oapen)doab76938(EXLCZ)99540000000004347620202201d2021 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierPlant Viruses: From Ecology to ControlBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20211 online resource (293 p.)3-0365-2018-X 3-0365-2379-0 Plant viruses cause many of the most important diseases threatening crops worldwide. Over the last quarter of a century, an increasing number of plant viruses have emerged in various parts of the world, especially in the tropics and subtropics. As is generally observed for plant viruses, most of the emerging viruses are transmitted horizontally by biological vectors, mainly insects. Reverse genetics using infectious clones-available for many plant viruses-has been used for identification of viral determinants involved in virus-host and virus-vector interactions. Although many studies have identified a number of factors involved in disease development and transmission, the precise mechanisms are unknown for most of the virus-plant-vector combinations. In most cases, the diverse outcomes resulting from virus-virus interactions are poorly understood. Although significant advances have been made towards understand the mechanisms involved in plant resistance to viruses, we are far from being able to apply this knowledge to protect cultivated plants from the all viral threats.The aim of this Special Issue was to provide a platform for researchers interested in plant virology to share their recent results. To achieve this, we invited the plant virology community to submit research articles, short communications and reviews related to the various aspects of plant virology: ecology, virus-plant host interactions, virus-vector interactions, virus-virus interactions, and control strategies. This issue contains some of the best current research in plant virology.Plant VirusesBiology, life sciencesbicsscResearch and information: generalbicsscAmalgaviridaeantagonismaphidsArabidopsis thalianaASGVbarleybarley yellow dwarf virusbegomovirusBegomovirusbioinformaticsBYDVcallosecapulaviruscileviruscoat proteincoat proteinsCRESS DNAcucumberCucumber mosaic virusDeltasatellitedetectiondiscoverydisease resistanceDNA satellitesdsRNAeffector-triggered immunityeIF4EETIGeminiviridaegeminivirusesgenome-wide association studieshelper virus rangehigh-throughput sequencinghigh-throughput sequencing (HTS)homopolymerhost adaptationhost jumpingLRNVmechanical inoculationmembrane associationMinIONmiRNAsmixed-infectionsmovement proteinn/ananopore sequencingNIK1OLV1p29 capsid proteinPAMP-triggered immunitypersistent virusplant breedingplant virusplant-virus interactionplasmodesmataPlum pox viruspotyvirusPTIQTLsreal-time PCRresistanceRNA silencingRNA virusrolling circle amplificationseed transmissionSolanum lycopersicumsweepovirusessynergismToFBVtomatotopologytotal RNAtrade-offtransreplicationtriple gene blockTYLCDTYLCVvectorsviral evolutionviral loadviral metagenomicsviral suppressorviral suppressorsvirulencevirusvirus evolutionvirus movementvirus replication complexvirus transmissionVPgvsiRNAsVta1wheatwhiteflyyield lossBiology, life sciencesResearch and information: generalCastillo Jesús Navasedt1303455Fiallo-Olivé ElviraedtCastillo Jesús NavasothFiallo-Olivé ElviraothBOOK9910557421803321Plant Viruses: From Ecology to Control3027066UNINA