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Mathematical Modeling of Fluid Flow and Heat Transfer in Petroleum Industries and Geothermal Applications

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Geothermal energy is the thermal energy generated and stored in the Earth's core, mantle, and crust. Geothermal technologies are used to generate electricity and to heat and cool buildings. To develop accurate models for heat and mass transfer applications involving fluid flow in geothermal applications or reservoir engineering and petroleum industries, a basic knowledge of the rheological and transport properties of the materials involved (drilling fluid, rock properties, etc.)—especially in high-temperature and high-pressure environments—are needed. This Special Issue considers all aspects of fluid flow and heat transfer in geothermal applications, including the ground heat exchanger, conduction and convection in porous media. The emphasis here is on mathematical and computational aspects of fluid flow in conventional and unconventional reservoirs, geothermal engineering, fluid flow, and heat transfer in drilling engineering and enhanced oil recovery (hydraulic fracturing, CO2 injection, etc.) applications.

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Keywords

  • AE energy
  • ammonia
  • apparent permeability
  • aquifer support
  • bottom-hole pressure
  • capacitance-resistance model
  • Carbon Capture and Storage (CCS)
  • carbon capture and utilization (CCU)
  • Cement
  • cement slurries
  • CO2 diffusion
  • CO2 permeability
  • coal and rock fracture
  • Coal excavation
  • complex fracture network
  • comprehensive heat transfer model
  • computational fluid dynamic (CFD)
  • computational fluid dynamics (CFD)
  • conductivity
  • constitutive relations
  • continuity/momentum and energy equations coupled
  • cost of electricity (COE)
  • cost-effective
  • coupled heat conduction and advection
  • critical porosity
  • Diffusion
  • drilling
  • dynamic crack tip
  • dynamic hydraulic-fracturing experiments
  • Economics
  • efficient simulation
  • electricity generation
  • energy conservation analysis
  • energy dissipation
  • enhanced gas recovery
  • enhanced geothermal systems
  • enhanced oil recovery
  • flowback
  • fluid front kinetics
  • fractal
  • fractal theory
  • fracture compressibility
  • fracture simulation
  • fracture uncertainty
  • frequency conversion technology (FCT)
  • geothermal
  • GSHP (ground source heat pump)
  • heat transfer
  • highly viscous fluids
  • huff-‘n-puff
  • hydraulic fracturing
  • impact pressure
  • injection orientation
  • inter-well connectivity
  • karst carbonate reservoir
  • Knudsen diffusion
  • leakage and overflow
  • longitudinal dispersion coefficient
  • main gas pipeline
  • mathematical modeling
  • mercury intrusion porosimetry
  • methane removal
  • Methanol
  • Microstructure
  • multi-pressure system
  • multifractal theory
  • Multiphase flow
  • multiple parallel fractures
  • multiple structural units (MSU)
  • Natural gas
  • Navier-Stokes equations
  • nest of tubes
  • non-newtonian fluids
  • Numerical Simulation
  • particles model
  • percolation model
  • Permeability
  • pipeline network
  • pore size distribution
  • pore structure
  • Porous media
  • pressure fluctuations
  • process simulation
  • production optimization
  • real-scale
  • rheology
  • semi-analytical solution
  • shale oil
  • slippage effect
  • sloshing
  • spatiotemporal characteristics
  • supercritical CO2
  • surface diffusion
  • techno-economic model
  • thixotropy
  • three-dimensional numerical simulation
  • tight oil reservoirs
  • tight reservoir
  • tube bundle model
  • underground coal gasification (UCG)
  • unsteady process
  • variable viscosity
  • Ventilation
  • viscosity
  • wellbore temperature
  • yield stress

Links

DOI: 10.3390/books978-3-03928-721-5

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