| Autore |
Pandey Lalit
|
| Pubbl/distr/stampa |
Singapore : , : Springer Singapore Pte. Limited, , 2021
|
| Descrizione fisica |
1 online resource (272 pages)
|
| Altri autori (Persone) |
TiwariPankaj
|
| Collana |
Green Energy and Technology Ser.
|
| Soggetto genere / forma |
Electronic books.
|
| ISBN |
981-16-5465-4
|
| Formato |
Materiale a stampa  |
| Livello bibliografico |
Monografia |
| Lingua di pubblicazione |
eng
|
| Nota di contenuto |
Intro -- Contents -- Editors and Contributors -- Abbreviations/Nomenclature -- Petroleum Reservoirs and Oil Production Mechanisms -- 1 Introduction -- 2 Reservoir Potential -- 2.1 Geological Setting -- 2.2 Petroleum Reserves -- 3 Physicochemical Characterization of a Petroleum Reservoir -- 3.1 Composition and Mineralogy of Petroleum Reservoir -- 3.2 Characterization of Pore Distribution -- 3.3 Reservoir Fluid Properties -- 4 Classification of Petroleum Reservoir -- 5 Reservoir Drive Mechanisms -- 6 Material Balance Equation (MBE) -- 7 Reservoir Drive Performance Indexes (RDPI) -- 8 Conclusion -- References -- Secondary and Tertiary Oil Recovery Processes -- 1 Introduction -- 2 Important Parameters and Mechanisms of EOR -- 3 Secondary Oil Recovery Methods -- 3.1 Waterflooding -- 3.2 Gas Injection -- 3.3 Buckley Leverett Model to Oil Recovery -- 4 Tertiary Oil Recovery Methods -- 4.1 Thermal EOR Methods -- 4.2 Chemical EOR Methods -- 4.3 Gas EOR Methods -- 4.4 Microbial EOR -- 5 Screening Criteria for EOR Methods -- 6 Core Flooding Experiments for EOR -- 7 Modeling and Simulation of EOR Process -- 8 Conclusion -- References -- CO2-Based Enhanced Oil Recovery -- 1 Introduction -- 2 Recovery Mechanisms for CO2 Flooding -- 3 Screening Criteria and Challenges Associated with CO2 Flooding -- 4 Water-Alternating-Gas/CO2 (WAG) Flooding -- 5 Sources of CO2, Capture, and Storage -- 6 Evaluation of CO2-EOR Flooding -- 6.1 MMP Determination -- 6.2 Fluid Sampling -- 6.3 Measuring PVT Properties for Reservoir fluid-CO2 Mixtures -- 6.4 Evaluation of Oil Recovery Potential by CO2 Flooding -- 6.5 Modeling and Simulation Study of CO2 Flooding -- 7 Conclusion -- References -- Optimum Formulation of Chemical Slug and Core Flooding Studies -- 1 Introduction -- 2 Mechanisms Involved in Chemical EOR -- 3 Chemicals Selection Criteria.
3.1 Alkali Screening Based on Crude Oil and Reservoir Properties -- 3.2 Surfactant Selection and Flooding in Reservoirs -- 3.3 Polymer Selection for Heavy Crude Oil -- 4 Optimum Slug Formation for Chemical EOR -- 4.1 Individual Chemical Flooding -- 4.2 Combined Effects of Chemical Flooding -- 4.3 Potential and Progress of Alkali-Surfactant-Polymer Flooding -- 5 Core Flooding of Alkali-Surfactant-Polymer in Laboratories -- 6 Field Application of Alkali-Surfactant-Polymer Slug -- 7 Technical Issues and Their Solutions of ASP Flooding -- 8 Conclusion -- References -- Screening of Extremophiles for Microbial Enhanced Oil Recovery Based on Surface Active Properties -- 1 Introduction -- 2 Screening of Extremophiles -- 2.1 Concept of Extremophiles in MEOR and Their Classifications -- 2.2 Strategies of Extremophiles to Perform MEOR -- 2.3 Screening of Extremophiles from Various Environments -- 2.4 Screening Parameters for Extremophiles -- 2.5 Technological Advancement in MEOR by Employing rDNA Technology and Genetically Engineered Microbes -- 2.6 In-Situ MEOR by Screened Extremophiles -- 3 Conclusion -- References -- Effect of Reservoir Environmental Conditions and Inherent Microorganisms -- 1 Introduction -- 2 Influence of Reservoir Environmental Conditions -- 2.1 Properties of Crude Oil -- 2.2 Rock Lithology -- 2.3 Reservoir Temperature and Pressure -- 2.4 Environmental pH -- 2.5 Fluid Salinity -- 2.6 Permeability -- 3 Microbiological Approaches for Detecting Inherent Microorganisms -- 4 Microbial Diversity in Worldwide Oil Reservoirs -- 4.1 Various Microbial Populations in Worldwide Oil Reservoirs -- 5 Reservoir Environmental Screening Parameters to Conduct MEOR Trials -- 6 Conclusion -- References -- Optimization of Culture Conditions for the Production of Biosurfactants -- 1 Introduction -- 2 Optimizing Parameters -- 2.1 pH -- 2.2 Temperature.
2.3 Carbon (C) Source -- 2.4 Nitrogen (N) Source -- 2.5 C/N Ratio -- 2.6 Other Factors -- 3 Optimization Designs -- 3.1 One-Factor-At-A-Time (OFAT) -- 3.2 Plackett-Burman Design (PBD) -- 3.3 Taguchi Model -- 3.4 Response Surface Methodology (RSM) -- 3.5 Artificial Neural Network and Genetic Algorithm -- 4 Bottlenecks of Optimization -- 5 Conclusion -- References -- Design of Consortium for the Production of Desired Metabolites -- 1 Introduction -- 1.1 Biosurfactant-Producing Microbes -- 1.2 Hydrocarbon-Degrading Microbes -- 2 Design of Microbial Consortium -- 3 Criteria for Designing Microbial Consortium -- 4 Advantages of Microbial Consortium Over Pure Isolates -- 5 Conclusion -- References -- Identification of Various Metabolites like Gases, Biopolymers and Biosurfactants -- 1 Introduction -- 2 Production of Microbial Metabolites -- 2.1 Biosurfactants -- 2.2 Biopolymers -- 2.3 BioGases -- 2.4 Other Metabolites -- 3 Metabolic Pathways Involved in the Production of the Above Metabolites -- 3.1 Biosurfactant Synthesis -- 3.2 Rhamnolipid Biosynthesis -- 3.3 Biopolymer Synthesis -- 3.4 Biogases Synthesis -- 4 Identification Techniques Involved in the Synthesis of Metabolites -- 4.1 Fourier Transform Infrared Spectroscopy (FTIR) -- 4.2 Nuclear Magnetic Resonance (NMR) -- 4.3 Mass Spectroscopy -- 5 Conclusion -- References -- Core Flooding Studies Using Microbial Systems -- 1 Introduction -- 2 Basics of Core Flooding Experiments Using Biosurfactant Systems -- 3 Core Flooding Investigations Utilizing Biosurfactant Systems -- 3.1 In-Situ and Ex-Situ MEOR in Core Flooding Experiments with Biosurfactants -- 4 Core-Flooding Studies Employing Mixed Biosurfactant Systems -- 5 Application of Mathematical Modelling for MEOR -- 6 Conclusion -- References -- Recent Case Studies of In-Situ and Ex-Situ Microbial Enhanced Oil Recovery -- 1 Introduction.
2 Case Studies of In-Situ MEOR -- 2.1 Key Factors Affecting the In-Situ MEOR Process -- 3 Case Studies of Ex-Situ MEOR -- 4 Conclusion -- References.
|
| Altri titoli varianti |
Microbial Enhanced Oil Recovery
|
| Record Nr. | UNINA-9910506401303321 |
Info
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