Asphaltene Deposition : Fundamentals, Prediction, Prevention, and Remediation / edited by Francisco M. Vargas, Mohammad Tavakkoli
- Published
- Boca Raton, FL : CRC Press, 2018.
- Edition
- First edition.
- Physical Description
- xxi, 359 pages : color illustrations ; [approximately 23-29] cm
- Additional Creators
- Vargas, Francisco M. and Tavakkoli, Mohammad
Access Online
- Contents
- Machine generated contents note: 1.1.Asphaltene Definition / F.M. Vargas / M. Tavakkoli -- 1.2.Asphaltene Deposition Problem / F.M. Vargas / M. Tavakkoli -- 1.2.1.Field Cases / F.M. Vargas / M. Tavakkoli -- 1.3.Objectives of the Book / F.M. Vargas / M. Tavakkoli -- 1.4.Structure of the Book / F.M. Vargas / M. Tavakkoli -- References / F.M. Vargas / M. Tavakkoli -- 2.1.Crude Oil / R. Doherty / S. Rezaee / F.M. Vargas / M. Tavakkoli / S. Enayat -- 2.1.1.Properties / R. Doherty / S. Rezaee / F.M. Vargas / M. Tavakkoli / S. Enayat -- 2.1.1.1.Density and API Gravity / R. Doherty / S. Rezaee / F.M. Vargas / M. Tavakkoli / S. Enayat -- 2.1.1.2.Viscosity / R. Doherty / S. Rezaee / F.M. Vargas / M. Tavakkoli / S. Enayat -- 2.1.1.3.Molecular Weight / R. Doherty / S. Rezaee / F.M. Vargas / M. Tavakkoli / S. Enayat -- 2.1.1.4.Water Content / F.M. Vargas / R. Doherty / M. Tavakkoli / S. Enayat / S. Rezaee -- 2.1.1.5.Refractive Index / R. Doherty / S. Rezaee / F.M. Vargas / M. Tavakkoli / S. Enayat -- 2.1.1.6.Solubility Parameter / R. Doherty / S. Rezaee / F.M. Vargas / M. Tavakkoli / S. Enayat -- 2.1.1.7.Correlation between Properties / R. Doherty / S. Rezaee / F.M. Vargas / M. Tavakkoli / S. Enayat -- 2.1.2.Crude Oil Fractionation / R. Doherty / S. Rezaee / F.M. Vargas / M. Tavakkoli / S. Enayat -- 2.1.2.1.Based on Boiling Point / R. Doherty / S. Rezaee / F.M. Vargas / M. Tavakkoli / S. Enayat -- 2.1.2.2.Based on the Chemical Structure / R. Doherty / S. Rezaee / F.M. Vargas / M. Tavakkoli / S. Enayat -- 2.1.2.3.Based on Polarity / R. Doherty / S. Rezaee / F.M. Vargas / M. Tavakkoli / S. Enayat -- 2.2.Asphaltenes / R. Doherty / S. Rezaee / F.M. Vargas / M. Tavakkoli / S. Enayat -- 2.2.1.Composition and Chemical Structure / R. Doherty / S. Rezaee / F.M. Vargas / M. Tavakkoli / S. Enayat -- 2.2.1.1.Determination of the Elemental Composition / R. Doherty / S. Rezaee / F.M. Vargas / M. Tavakkoli / S. Enayat -- 2.2.1.2.Determination of the Chemical Structure / R. Doherty / S. Rezaee / F.M. Vargas / M. Tavakkoli / S. Enayat -- 2.2.1.3.Determination of Thermal Decomposition Patterns / R. Doherty / S. Rezaee / F.M. Vargas / M. Tavakkoli / S. Enayat -- 2.2.2.Asphaltene Properties / M. Tavakkoli / F.M. Vargas / S. Enayat / S. Rezaee / R. Doherty -- 2.2.2.1.Aromaticity / R. Doherty / S. Rezaee / F.M. Vargas / M. Tavakkoli / S. Enayat -- 2.2.2.2.Molecular Weight / R. Doherty / S. Rezaee / F.M. Vargas / M. Tavakkoli / S. Enayat -- 2.2.2.3.Wetting Properties / R. Doherty / S. Rezaee / F.M. Vargas / M. Tavakkoli / S. Enayat -- 2.2.3.Asphaltene Fractionation / R. Doherty / S. Rezaee / F.M. Vargas / M. Tavakkoli / S. Enayat -- 2.3.Final Remarks / R. Doherty / S. Rezaee / F.M. Vargas / M. Tavakkoli / S. Enayat -- References / R. Doherty / S. Rezaee / F.M. Vargas / M. Tavakkoli / S. Enayat -- 3.1.Asphaltene Precipitation, Aggregation, and Aging / A.T. Khaleel / F. Wang / F.M. Vargas / M. Tavakkoli / E. Song -- 3.2.Experimental Methods at High-Pressure and High-Temperature / A.T. Khaleel / F. Wang / F.M. Vargas / M. Tavakkoli / E. Song -- 3.2.1.Gravimetric Technique / A.T. Khaleel / F. Wang / F.M. Vargas / M. Tavakkoli / E. Song -- 3.2.2.Acoustic Resonance Technique / A.T. Khaleel / F. Wang / F.M. Vargas / M. Tavakkoli / E. Song -- 3.2.3.Light Scattering Technique / A.T. Khaleel / F. Wang / F.M. Vargas / M. Tavakkoli / E. Song -- 3.2.4.High-Pressure Microscopy Technique / A.T. Khaleel / F. Wang / F.M. Vargas / M. Tavakkoli / E. Song -- 3.2.5.High Pressure, High Temperature Filtration Technique / E. Song / M. Tavakkoli / F. Wang / A.T. Khaleel / F.M. Vargas -- 3.2.6.Quartz Crystal Resonator Technique / A.T. Khaleel / F. Wang / F.M. Vargas / M. Tavakkoli / E. Song -- 3.3.Experimental Methods at Ambient Conditions / A.T. Khaleel / F. Wang / E. Song / M. Tavakkoli / F.M. Vargas -- 3.3.1.Filtration Method / A.T. Khaleel / F. Wang / F.M. Vargas / M. Tavakkoli / E. Song -- 3.3.2.Microscopy Method / A.T. Khaleel / F. Wang / F.M. Vargas / M. Tavakkoli / E. Song -- 3.3.3.Spectroscopy Method / A.T. Khaleel / F. Wang / F.M. Vargas / M. Tavakkoli / E. Song -- 3.3.4.Capillary Viscosimetry Method / A.T. Khaleel / F. Wang / F.M. Vargas / M. Tavakkoli / E. Song -- 3.3.5.Conductivity Method / A.T. Khaleel / F. Wang / F.M. Vargas / M. Tavakkoli / E. Song -- 3.3.6.Density Method / A.T. Khaleel / F. Wang / F.M. Vargas / M. Tavakkoli / E. Song -- 3.3.7.Refractive Index Method / A.T. Khaleel / F. Wang / F.M. Vargas / M. Tavakkoli / E. Song -- 3.3.8.Interfacial Tension Method / A.T. Khaleel / F. Wang / F.M. Vargas / M. Tavakkoli / E. Song -- 3.3.9.Gravimetric Method / A.T. Khaleel / F. Wang / F.M. Vargas / M. Tavakkoli / E. Song -- 3.3.10.Nuclear Magnetic Resonance Method / A.T. Khaleel / F. Wang / F.M. Vargas / M. Tavakkoli / E. Song -- 3.3.11.Quartz Crystal Resonator Method / F. Wang / E. Song / A.T. Khaleel / F.M. Vargas / M. Tavakkoli -- 3.4.Indirect Method / A.T. Khaleel / F. Wang / F.M. Vargas / M. Tavakkoli / E. Song -- 3.4.1.Effect of Water / A.T. Khaleel / F. Wang / F.M. Vargas / M. Tavakkoli / E. Song -- 3.4.2.Effect of Electrolytes / A.T. Khaleel / F. Wang / F.M. Vargas / M. Tavakkoli / E. Song -- 3.4.3.Effect of Iron / A.T. Khaleel / F. Wang / F.M. Vargas / M. Tavakkoli / E. Song -- 3.4.4.Effect of Polydispersity / A.T. Khaleel / F. Wang / F.M. Vargas / M. Tavakkoli / E. Song -- 3.5.Kinetics of Asphaltene Precipitation / A.T. Khaleel / F. Wang / F.M. Vargas / M. Tavakkoli / E. Song -- 3.6.Final Remarks / A.T. Khaleel / F. Wang / F.M. Vargas / M. Tavakkoli / E. Song -- References / A.T. Khaleel / F. Wang / F.M. Vargas / M. Tavakkoli / E. Song -- 4.1.The Multiphase Equilibrium Problem / C. Sisco / M.I.L. Abutaqiya / F.M. Vargas / J. Zhang / M. Tavakkoli / F. Wang -- 4.2.Thermodynamic Models for Crude Oils / C. Sisco / M.I.L. Abutaqiya / F.M. Vargas / J. Zhang / M. Tavakkoli / F. Wang -- 4.2.1.Micellar Models / C. Sisco / M.I.L. Abutaqiya / F.M. Vargas / J. Zhang / M. Tavakkoli / F. Wang -- 4.2.2.Solubility Models: Solution Theories / F. Wang / J. Zhang / M.I.L. Abutaqiya / F.M. Vargas / C. Sisco / M. Tavakkoli -- 4.2.2.1.Regular Solution Theory / C. Sisco / M.I.L. Abutaqiya / F.M. Vargas / J. Zhang / M. Tavakkoli / F. Wang -- 4.2.2.2.Hirschberg and de Boer Models / C. Sisco / M.I.L. Abutaqiya / F.M. Vargas / J. Zhang / M. Tavakkoli / F. Wang -- 4.2.2.3.Flory, Huggins, and Zuo / C. Sisco / M.I.L. Abutaqiya / F.M. Vargas / J. Zhang / M. Tavakkoli / F. Wang -- 4.2.2.4.Asphaltene Instability Trend Method / C. Sisco / M.I.L. Abutaqiya / F.M. Vargas / J. Zhang / M. Tavakkoli / F. Wang -- 4.2.3.Solubility Models: Equations of State / C. Sisco / M.I.L. Abutaqiya / F.M. Vargas / J. Zhang / M. Tavakkoli / F. Wang -- 4.2.3.1.Cubic Equation of State / C. Sisco / M.I.L. Abutaqiya / F.M. Vargas / J. Zhang / M. Tavakkoli / F. Wang -- 4.2.3.2.Perturbed-Chain Statistical Associating Fluid Theory Equation of State / C. Sisco / M.I.L. Abutaqiya / F.M. Vargas / J. Zhang / M. Tavakkoli / F. Wang -- 4.2.3.3.Cubic-Plus-Association Equation of State / C. Sisco / M.I.L. Abutaqiya / F.M. Vargas / J. Zhang / M. Tavakkoli / F. Wang -- 4.2.4.Intermolecular Forces in Crude Oil Systems / C. Sisco / M.I.L. Abutaqiya / F.M. Vargas / J. Zhang / M. Tavakkoli / F. Wang -- 4.3.Crude Oil Characterization for Equation of State Models / C. Sisco / M.I.L. Abutaqiya / F.M. Vargas / J. Zhang / M. Tavakkoli / F. Wang -- 4.3.1.Perturbed-Chain Statistical Associating Fluid Theory Characterization with Saturate, Aromatic, Resin, and Asphaltene Analysis / C. Sisco / M.I.L. Abutaqiya / F.M. Vargas / J. Zhang / M. Tavakkoli / F. Wang -- 4.3.1.1.Characterization of Flashed Gas / C. Sisco / M.I.L. Abutaqiya / F.M. Vargas / J. Zhang / M. Tavakkoli / F. Wang -- 4.3.1.2.Characterization of Flashed Liquid / C. Sisco / M.I.L. Abutaqiya / F.M. Vargas / J. Zhang / M. Tavakkoli / F. Wang -- 4.3.1.3.Simulation Parameters Estimation / C. Sisco / M.I.L. Abutaqiya / F.M. Vargas / J. Zhang / M. Tavakkoli / F. Wang -- 4.3.2.Asphaltene Polydispersity / C. Sisco / M.I.L. Abutaqiya / F.M. Vargas / J. Zhang / M. Tavakkoli / F. Wang -- 4.4.Asphaltene Precipitation Modeling Examples / C. Sisco / M.I.L. Abutaqiya / F.M. Vargas / J. Zhang / M. Tavakkoli / F. Wang -- 4.4.1.Monodisperse Asphaltene / C. Sisco / M.I.L. Abutaqiya / F.M. Vargas / J. Zhang / M. Tavakkoli / F. Wang -- 4.5.Final Remarks / C. Sisco / M.I.L. Abutaqiya / F.M. Vargas / J. Zhang / M. Tavakkoli / F. Wang -- References / C. Sisco / M.I.L. Abutaqiya / F.M. Vargas / J. Zhang / M. Tavakkoli / F. Wang -- 5.1.Asphaltene Deposition Experiments / J. Kuang / N. Rajan Babu / F.M. Vargas / A. Chen / M. Tavakkoli / J. Hu -- 5.1.1.Determination of Asphaltene Deposition in Wellbores and Pipelines / M. Tavakkoli / F.M. Vargas / A. Chen / N. Rajan Babu / J. Hu / J. Kuang -- 5.1.1.1.Capillary Deposition Flow Loop / J. Kuang / N. Rajan Babu / F.M. Vargas / A. Chen / M. Tavakkoli / J. Hu -- 5.1.1.2.Quartz Crystal Microbalance / J. Kuang / N. Rajan Babu / F.M. Vargas / A. Chen / M. Tavakkoli / J. Hu -- 5.1.1.3.RealView Deposition Cell / J. Kuang / N. Rajan Babu / F.M. Vargas / A. Chen / M. Tavakkoli / J. Hu -- 5.1.1.4.Packed Bed Column / J. Kuang / N. Rajan Babu / F.M. Vargas / A. Chen / M. Tavakkoli / J. Hu -- 5.1.1.5.Comparisons of Different Techniques / J. Kuang / N. Rajan Babu / F.M. Vargas / A. Chen / M. Tavakkoli / J. Hu -- 5.1.2.Determination of Asphaltene Deposition in Porous Media / J. Kuang / N. Rajan Babu / F.M. Vargas / A. Chen / M. Tavakkoli / J. Hu -- 5.1.2.1.Core-Flooding Test / M. Tavakkoli / A. Chen / J. Hu / J. Kuang / N. Rajan Babu / F.M. Vargas -- 5.1.2.2.Microfluidic Device / M. Tavakkoli / A. Chen / J. Hu / N. Rajan Babu / J. Kuang / F.M. Vargas -- 5.1.2.3.Comparisons of Different Techniques / J. Kuang / N. Rajan Babu / J. Hu / A. Chen / M. Tavakkoli / F.M. Vargas -- 5.2.Assessment of Different Factors That Affect Asphaltene Deposition / J. Kuang / N. Rajan Babu / J. Hu / A. Chen / M. Tavakkoli / F.M. Vargas --, Contents note continued: 5.2.1.Effect of Water / N. Rajan Babu / J. Kuang / J. Hu / F.M. Vargas / M. Tavakkoli / A. Chen -- 5.2.2.Effect of Electrolytes / M. Tavakkoli / A. Chen / J. Hu / N. Rajan Babu / J. Kuang / F.M. Vargas -- 5.2.3.Effect of Corrosion / M. Tavakkoli / A. Chen / J. Hu / N. Rajan Babu / J. Kuang / F.M. Vargas -- 5.2.3.1.Effect of Iron Ions / J. Kuang / N. Rajan Babu / J. Hu / A. Chen / M. Tavakkoli / F.M. Vargas -- 5.2.3.2.Effect of Surface Roughness / J. Kuang / N. Rajan Babu / M. Tavakkoli / A. Chen / J. Hu / F.M. Vargas -- 5.2.4.Effect of Coating / J. Kuang / N. Rajan Babu / J. Hu / A. Chen / M. Tavakkoli / F.M. Vargas -- 5.3.Final Remarks / J. Kuang / N. Rajan Babu / J. Hu / A. Chen / M. Tavakkoli / F.M. Vargas -- References / J. Kuang / N. Rajan Babu / J. Hu / A. Chen / M. Tavakkoli / F.M. Vargas -- 6.1.Asphaltene Deposition in Wellbore and Pipelines / N. Rajan Babu / P. Lin / J. Zhang / M. Tavakkoli / F.M. Vargas -- 6.1.1.Modeling Asphaltene Deposition / N. Rajan Babu / P. Lin / J. Zhang / M. Tavakkoli / F.M. Vargas -- 6.1.1.1.Initial Works / N. Rajan Babu / P. Lin / J. Zhang / M. Tavakkoli / F.M. Vargas -- 6.1.1.2.Models Based on Capillary Deposition Tests / N. Rajan Babu / P. Lin / J. Zhang / M. Tavakkoli / F.M. Vargas -- 6.1.1.3.Models Based on Deposition Tests in New Geometries / N. Rajan Babu / P. Lin / J. Zhang / M. Tavakkoli / F.M. Vargas -- 6.1.2.Development of Asphaltene Deposition Tool / N. Rajan Babu / P. Lin / J. Zhang / M. Tavakkoli / F.M. Vargas -- 6.1.2.1.Assumptions / N. Rajan Babu / P. Lin / J. Zhang / M. Tavakkoli / F.M. Vargas -- 6.1.2.2.Model Development / N. Rajan Babu / P. Lin / J. Zhang / M. Tavakkoli / F.M. Vargas -- 6.1.3.Modeling Asphaltene Aggregation / N. Rajan Babu / P. Lin / J. Zhang / M. Tavakkoli / F.M. Vargas -- 6.2.Asphaltene Deposition in Porous Media / N. Rajan Babu / P. Lin / J. Zhang / M. Tavakkoli / F.M. Vargas -- 6.2.1.Deposition Models for Porous Media / N. Rajan Babu / P. Lin / J. Zhang / M. Tavakkoli / F.M. Vargas -- 6.2.2.Introduction to Lattice-Boltzmann Modeling / N. Rajan Babu / P. Lin / J. Zhang / M. Tavakkoli / F.M. Vargas -- 6.2.2.1.Distribution Function / N. Rajan Babu / P. Lin / J. Zhang / M. Tavakkoli / F.M. Vargas -- 6.2.2.2.Boltzmann Transport Equation / N. Rajan Babu / P. Lin / J. Zhang / M. Tavakkoli / F.M. Vargas -- 6.2.2.3.The Bhatnagar, Gross, and Krook Model / N. Rajan Babu / P. Lin / J. Zhang / M. Tavakkoli / F.M. Vargas -- 6.2.2.4.Lattice Arrangement / N. Rajan Babu / P. Lin / J. Zhang / M. Tavakkoli / F.M. Vargas -- 6.2.3.Application of Lattice-Boltzmann Modeling / N. Rajan Babu / P. Lin / J. Zhang / M. Tavakkoli / F.M. Vargas -- 6.2.3.1.Assumptions / N. Rajan Babu / P. Lin / J. Zhang / M. Tavakkoli / F.M. Vargas -- 6.2.3.2.Model Development / N. Rajan Babu / P. Lin / J. Zhang / M. Tavakkoli / F.M. Vargas -- 6.3.Modeling of Asphaltene Transport Properties / N. Rajan Babu / P. Lin / J. Zhang / M. Tavakkoli / F.M. Vargas -- 6.3.1.Density / N. Rajan Babu / P. Lin / J. Zhang / M. Tavakkoli / F.M. Vargas -- 6.3.2.Viscosity / N. Rajan Babu / P. Lin / J. Zhang / M. Tavakkoli / F.M. Vargas -- 6.3.2.1.Lohrenz-Bray-Clark Method / N. Rajan Babu / P. Lin / J. Zhang / M. Tavakkoli / F.M. Vargas -- 6.3.2.2.Friction Theory / N. Rajan Babu / P. Lin / J. Zhang / M. Tavakkoli / F.M. Vargas -- 6.3.2.3.Corresponding State Principle Models / N. Rajan Babu / P. Lin / J. Zhang / M. Tavakkoli / F.M. Vargas -- 6.3.2.4.Effect of Asphaltene Precipitation on Apparent Viscosity of Oil / N. Rajan Babu / P. Lin / J. Zhang / M. Tavakkoli / F.M. Vargas -- 6.3.3.Diffusion Coefficient / N. Rajan Babu / P. Lin / J. Zhang / M. Tavakkoli / F.M. Vargas -- 6.4.Final Remarks / N. Rajan Babu / P. Lin / J. Zhang / M. Tavakkoli / F.M. Vargas -- References / N. Rajan Babu / P. Lin / J. Zhang / M. Tavakkoli / F.M. Vargas -- 7.1.Prevention of Asphaltene Deposition / J. Kuang / A.T. Khaleel / J. Yarbrough / P. Pourreau / M. Tavakkoli / F.M. Vargas -- 7.1.1.Chemical Inhibition / J. Kuang / A.T. Khaleel / J. Yarbrough / P. Pourreau / M. Tavakkoli / F.M. Vargas -- 7.1.1.1.Mechanisms of Inhibition / J. Kuang / A.T. Khaleel / J. Yarbrough / P. Pourreau / M. Tavakkoli / F.M. Vargas -- 7.1.1.2.Testing Procedures / J. Kuang / A.T. Khaleel / J. Yarbrough / P. Pourreau / M. Tavakkoli / F.M. Vargas -- 7.1.2.Control of Operating Conditions / J. Kuang / A.T. Khaleel / J. Yarbrough / P. Pourreau / M. Tavakkoli / F.M. Vargas -- 7.1.2.1.Effect of Pressure and Temperature / J. Kuang / A.T. Khaleel / J. Yarbrough / P. Pourreau / M. Tavakkoli / F.M. Vargas -- 7.1.2.2.Effect of Composition / J. Kuang / A.T. Khaleel / J. Yarbrough / P. Pourreau / M. Tavakkoli / F.M. Vargas -- 7.1.3.Coatings / J. Kuang / A.T. Khaleel / J. Yarbrough / P. Pourreau / M. Tavakkoli / F.M. Vargas -- 7.2.Remediation of Asphaltene Deposition / J. Kuang / A.T. Khaleel / J. Yarbrough / P. Pourreau / M. Tavakkoli / F.M. Vargas -- 7.2.1.Solvent Wash / J. Kuang / A.T. Khaleel / J. Yarbrough / P. Pourreau / M. Tavakkoli / F.M. Vargas -- 7.2.2.Mechanical Removal / J. Kuang / A.T. Khaleel / J. Yarbrough / P. Pourreau / M. Tavakkoli / F.M. Vargas -- 7.3.Best Practices / J. Kuang / A.T. Khaleel / J. Yarbrough / P. Pourreau / M. Tavakkoli / F.M. Vargas -- 7.3.1.Improper Assessment of Conventional Asphaltene Inhibitors / J. Kuang / A.T. Khaleel / J. Yarbrough / P. Pourreau / M. Tavakkoli / F.M. Vargas -- 7.3.2.New Generation of Asphaltene Inhibitors / J. Kuang / A.T. Khaleel / J. Yarbrough / P. Pourreau / M. Tavakkoli / F.M. Vargas -- References / J. Kuang / A.T. Khaleel / J. Yarbrough / P. Pourreau / M. Tavakkoli / F.M. Vargas -- 8.1.Asphaltene Precipitation from Crude Oils / M.I.L. Abutaqiya / C. Sisco / J. Kuang / P. Lin / F. Wang / M. Tavakkoli / F.M. Vargas -- 8.1.1.Case Study #1: Screening Asphaltene Instability in Reservoir Samples / M.I.L. Abutaqiya / C. Sisco / J. Kuang / P. Lin / F. Wang / M. Tavakkoli / F.M. Vargas -- 8.1.2.Case Study #2: Modeling Asphaltene Precipitation in Reservoir Fluids with Gas Injection / M.I.L. Abutaqiya / C. Sisco / J. Kuang / P. Lin / F. Wang / M. Tavakkoli / F.M. Vargas -- 8.1.2.1.Injection of Hydrocarbon Gas / M.I.L. Abutaqiya / C. Sisco / J. Kuang / P. Lin / F. Wang / M. Tavakkoli / F.M. Vargas -- 8.1.2.2.Injection of Nonhydrocarbon Gas / M.I.L. Abutaqiya / C. Sisco / J. Kuang / P. Lin / F. Wang / M. Tavakkoli / F.M. Vargas -- 8.1.3.Case Study #3: Detection of Experimental Discrepancies on Asphaltene Onset and Bubble Pressures / M.I.L. Abutaqiya / C. Sisco / J. Kuang / P. Lin / F. Wang / M. Tavakkoli / F.M. Vargas -- 8.1.4.Case Study #4: Effect of Oil Commingling and Oil-Based Mud / M.I.L. Abutaqiya / C. Sisco / J. Kuang / P. Lin / F. Wang / M. Tavakkoli / F.M. Vargas -- 8.1.4.1.Effect of Oil Commingling / M.I.L. Abutaqiya / C. Sisco / J. Kuang / P. Lin / F. Wang / M. Tavakkoli / F.M. Vargas -- 8.1.4.2.Effect of Oil-Based Mud Contamination / M.I.L. Abutaqiya / C. Sisco / J. Kuang / P. Lin / F. Wang / M. Tavakkoli / F.M. Vargas -- 8.1.5.Case Study #5: Effect of Asphaltene Polydispersity / M.I.L. Abutaqiya / C. Sisco / J. Kuang / P. Lin / F. Wang / M. Tavakkoli / F.M. Vargas -- 8.1.6.Case Study #6: Comparison between Different Thermodynamic Models / M.I.L. Abutaqiya / C. Sisco / J. Kuang / P. Lin / F. Wang / M. Tavakkoli / F.M. Vargas -- 8.2.Asphaltene Deposition in Pipelines and Porous Media / M.I.L. Abutaqiya / C. Sisco / J. Kuang / P. Lin / F. Wang / M. Tavakkoli / F.M. Vargas -- 8.2.1.Case Study #7: Field Applications of the Asphaltene Deposition Tool / M.I.L. Abutaqiya / C. Sisco / J. Kuang / P. Lin / F. Wang / M. Tavakkoli / F.M. Vargas -- 8.2.1.1.Sensitivity Analysis of Scaling Factor / M.I.L. Abutaqiya / C. Sisco / J. Kuang / P. Lin / F. Wang / M. Tavakkoli / F.M. Vargas -- 8.2.1.2.Comparison of Steady-State Simulator and Pseudo-Transient Simulator / M.I.L. Abutaqiya / C. Sisco / J. Kuang / P. Lin / F. Wang / M. Tavakkoli / F.M. Vargas -- 8.2.2.Case Study #8: Effect of Corrosion on Asphaltene Deposition / M.I.L. Abutaqiya / C. Sisco / J. Kuang / P. Lin / F. Wang / M. Tavakkoli / F.M. Vargas -- 8.2.3.Case Study #9: Asphaltene Deposition in Porous Media / M.I.L. Abutaqiya / C. Sisco / J. Kuang / P. Lin / F. Wang / M. Tavakkoli / F.M. Vargas -- 8.2.3.1.Asphaltene Deposition in Microchannels / M.I.L. Abutaqiya / C. Sisco / J. Kuang / P. Lin / F. Wang / M. Tavakkoli / F.M. Vargas -- 8.2.3.2.Fluid Flow and Deposition Modeling in Real Porous Media / M.I.L. Abutaqiya / C. Sisco / J. Kuang / P. Lin / F. Wang / M. Tavakkoli / F.M. Vargas -- 8.3.Mitigation Strategies for Asphaltene Deposition / M.I.L. Abutaqiya / C. Sisco / J. Kuang / P. Lin / F. Wang / M. Tavakkoli / F.M. Vargas -- 8.3.1.Case Study #10: Analysis of the Poor Performance of Some Asphaltene Dispersants to Reduce Asphaltene Deposition / M.I.L. Abutaqiya / C. Sisco / J. Kuang / P. Lin / F. Wang / M. Tavakkoli / F.M. Vargas -- 8.4.Final Remarks / M.I.L. Abutaqiya / C. Sisco / J. Kuang / P. Lin / F. Wang / M. Tavakkoli / F.M. Vargas -- References / M.I.L. Abutaqiya / C. Sisco / J. Kuang / P. Lin / F. Wang / M. Tavakkoli / F.M. Vargas -- 9.1.Lessons Learned / S. Enayat / F. Lejarza / R. Doherty / A.T. Khaleel / C. Sisco / J. Kuang / M.I.L. Abutaqiya / N. Rajan Babu / M. Tavakkoli / F.M. Vargas -- 9.1.1.Crude Oil and Asphaltene Characterization / S. Enayat / F. Lejarza / R. Doherty / A.T. Khaleel / C. Sisco / J. Kuang / M.I.L. Abutaqiya / N. Rajan Babu / M. Tavakkoli / F.M. Vargas -- 9.1.2.Experimental Techniques for Determination of Asphaltene Precipitation and Deposition / S. Enayat / F. Lejarza / R. Doherty / A.T. Khaleel / C. Sisco / J. Kuang / M.I.L. Abutaqiya / N. Rajan Babu / M. Tavakkoli / F.M. Vargas -- 9.1.3.Modeling Methods for Prediction of Asphaltene Precipitation and Deposition / S. Enayat / F. Lejarza / R. Doherty / A.T. Khaleel / C. Sisco / J. Kuang / M.I.L. Abutaqiya / N. Rajan Babu / M. Tavakkoli / F.M. Vargas --, and Contents note continued: 9.1.4.Asphaltene Mitigation and Remediation Strategies / S. Enayat / F. Lejarza / R. Doherty / A.T. Khaleel / C. Sisco / J. Kuang / M.I.L. Abutaqiya / N. Rajan Babu / M. Tavakkoli / F.M. Vargas -- 9.1.5.Case Studies and Field Applications / S. Enayat / F. Lejarza / R. Doherty / A.T. Khaleel / C. Sisco / J. Kuang / M.I.L. Abutaqiya / N. Rajan Babu / M. Tavakkoli / F.M. Vargas -- 9.2.Current Research and Future Directions / S. Enayat / F. Lejarza / R. Doherty / A.T. Khaleel / C. Sisco / J. Kuang / M.I.L. Abutaqiya / N. Rajan Babu / M. Tavakkoli / F.M. Vargas -- 9.2.1.Interrelation of Asphaltenes and Other Flow Assurance Problems / S. Enayat / F. Lejarza / R. Doherty / A.T. Khaleel / C. Sisco / J. Kuang / M.I.L. Abutaqiya / N. Rajan Babu / M. Tavakkoli / F.M. Vargas -- 9.2.1.1.Interaction and Coprecipitation of Wax and Asphaltene / S. Enayat / F. Lejarza / R. Doherty / A.T. Khaleel / C. Sisco / J. Kuang / M.I.L. Abutaqiya / N. Rajan Babu / M. Tavakkoli / F.M. Vargas -- 9.2.1.2.Gas Hydrates Formation Induced by Asphaltene Precipitation / S. Enayat / F. Lejarza / R. Doherty / A.T. Khaleel / C. Sisco / J. Kuang / M.I.L. Abutaqiya / N. Rajan Babu / M. Tavakkoli / F.M. Vargas -- 9.2.2.Experimental Determination of Asphaltene Precipitation Onset at High Pressure and High Temperature (Indirect Method at High Pressure and High Temperature) / S. Enayat / F. Lejarza / R. Doherty / A.T. Khaleel / C. Sisco / J. Kuang / M.I.L. Abutaqiya / N. Rajan Babu / M. Tavakkoli / F.M. Vargas -- 9.2.3.Challenges in Asphaltene Precipitation and Deposition Modeling / S. Enayat / F. Lejarza / R. Doherty / A.T. Khaleel / C. Sisco / J. Kuang / M.I.L. Abutaqiya / N. Rajan Babu / M. Tavakkoli / F.M. Vargas -- 9.2.4.Development of New Generation of Asphaltene Inhibitors / S. Enayat / F. Lejarza / R. Doherty / A.T. Khaleel / C. Sisco / J. Kuang / M.I.L. Abutaqiya / N. Rajan Babu / M. Tavakkoli / F.M. Vargas -- 9.2.5.Separation and Utilization of Asphaltene for Production of Novel Materials / S. Enayat / F. Lejarza / R. Doherty / A.T. Khaleel / C. Sisco / J. Kuang / M.I.L. Abutaqiya / N. Rajan Babu / M. Tavakkoli / F.M. Vargas -- 9.3.Final Remarks / S. Enayat / F. Lejarza / R. Doherty / A.T. Khaleel / C. Sisco / J. Kuang / M.I.L. Abutaqiya / N. Rajan Babu / M. Tavakkoli / F.M. Vargas -- References / S. Enayat / F. Lejarza / R. Doherty / A.T. Khaleel / C. Sisco / J. Kuang / M.I.L. Abutaqiya / N. Rajan Babu / M. Tavakkoli / F.M. Vargas.
- Summary
- "As global consumption of fossil fuels such as oil increases, previously abundant sources have become depleted or plagued with obstructions. Asphaltene deposition is one of such obstructions which can significantly decrease the rate of oil production. This book offers concise yet thorough coverage of the complex problem of asphaltene precipitation and deposition in oil production. It covers fundamentals of chemistry, stabilization theories and mechanistic approaches of asphaltene behavior at high temperature and pressure. Asphaltene Deposition: Fundamentals, Prediction, Prevention, and Remediation explains techniques for experimental determination of asphaltene precipitation and deposition and different modeling tools available to forecast the occurrence and magnitude of asphaltene deposition in a given oil field. It discusses strategies for mitigation of asphaltene deposition using chemical inhibition and corresponding challenges, best practices for asphaltene remediation, current research, and case studies. "--Provided by publisher.
- Subject(s)
- Genre(s)
- ISBN
- 9781315268866 (e-book)
9781351977326 (e-book : PDF) - Bibliography Note
- Includes bibliographical references and index.
- Other Forms
- Also available in print format.
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