04168nam 22007215 450 991074696950332120231003220628.03-031-39850-510.1007/978-3-031-39850-6(MiAaPQ)EBC30769588(Au-PeEL)EBL30769588(DE-He213)978-3-031-39850-6(PPN)272917087(CKB)28449042700041(EXLCZ)992844904270004120231003d2023 u| 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierIntegrated Modeling of Reservoir Fluid Properties and Multiphase Flow in Offshore Production Systems /by Tobias R. Gessner, Jader R. Barbosa Jr1st ed. 2023.Cham :Springer International Publishing :Imprint: Springer,2023.1 online resource (296 pages)Petroleum Engineering,2366-2654Print version: Gessner, Tobias R. Integrated Modeling of Reservoir Fluid Properties and Multiphase Flow in Offshore Production Systems Cham : Springer International Publishing AG,c2023 9783031398490 Chapter 1. Introduction -- Chapter 2. Thermodynamics of petroleum mixtures -- Chapter 3. Developing a fluid model -- Chapter 4. Fluid flow in oil production systems -- Chapter 5. Simulation of offshore production systems -- Chapter 6. Improving the fluid flow model -- Chapter 7. Concluding remarks -- Appendix.The book is intended for practicing engineers in the oil industry, researchers, and graduate students interested in designing and simulating offshore hydrocarbon production systems. It approaches offshore oil production systems from an integrated perspective that combines the modeling of thermophysical properties of reservoir fluids and their flow as a multiphase mixture in wellbores, flow lines, and risers. The first part of the book presents an internally consistent method to compute the critical parameters and acentric factor of Single Carbon Number (SCN) fractions of petroleum mixtures using state-of-the-art multivariate fitting techniques. The procedure is illustrated and validated using flash and differential liberation data from actual field samples. In the second part of the book, mechanistic multiphase flow models are discussed in light of their ability to predict the pressure, temperature, and phase holdup of production fluids in wellbores, flow lines, and risers. Multivariate fitting procedures are again applied to evaluate the sensitivity of the results with respect to closure relationship parameters, such as slug body gas holdup, wall shear stress, and wall roughness in pipelines and production tubing. Finally, the modeling framework is validated using actual field data from offshore production wells.Petroleum Engineering,2366-2654Cogeneration of electric power and heatFossil fuelsUnderground constructionFluid mechanicsSedimentologyMining engineeringFossil FuelUnderground Engineering and Tunnel ConstructionEngineering Fluid DynamicsSedimentologyMining and ExplorationCogeneration of electric power and heat.Fossil fuels.Underground construction.Fluid mechanics.Sedimentology.Mining engineering.Fossil Fuel.Underground Engineering and Tunnel Construction.Engineering Fluid Dynamics.Sedimentology.Mining and Exploration.622.33827622.33827Gessner Tobias R1431191Barbosa Jr Jader R1431192MiAaPQMiAaPQMiAaPQBOOK9910746969503321Integrated Modeling of Reservoir Fluid Properties and Multiphase Flow in Offshore Production Systems3573309UNINA