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50 Years of CFD in Engineering Sciences [2020]
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Brian Spalding: Some Contributions to Computational Fluid Dynamics During the Period 1993 to 2004
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Some Observations on Thermodynamic Basis of Pressure Continuum Condition and Consequences of Its Violation in Discretised CFD
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The SUPER Numerical Scheme for the Discretization of the Convection Terms in Computational Fluid Dynamics Computations
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Examples of Decompositions for Time and Space Domains and Discretization of Equations for General Purpose Computational Fluid Dynamics Programs and Historical Perspective of Some Key Developments
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Accurate Numerical Modeling of Complex Thermal Processes: Impact of Professor Spalding’s Work
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Numerical Predictions of Temporally Periodic Fluid Flow and Heat Transfer in Spatially Periodic Geometries
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A Finite Volume Procedure for Thermofluid System Analysis in a Flow Network
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Turbulent Round Jet Entrainment—A Historical Perspective
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Eddy-Viscosity Transport Modelling: A Historical Review
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Studies on Mixed Convection and Its Transition to Turbulence—A Review
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Large Eddy Simulation of Flows of Engineering Interest: A Review
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Brian Spalding and Turbulent Combustion
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Hypotheses-Driven Combustion Technology and Design Development Approach Pursued Since Early 1970s
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Heat and Mass Transfer in Fuel Cells and Stacks
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Modeling Proton Exchange Membrane Fuel Cells—A Review
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A Review of Computational Models for Falling Liquid Films
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Study of Pool Boiling Through Numerical Approach
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CFD Modeling of Data Centers
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Validation Problems in Computational Modelling of Natural Convection
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Integral Transform Benchmarks of Diffusion, Convection–Diffusion, and Conjugated Problems in Complex Domains
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A Comparison Between FEM and FVM via the Method of Weighted Residuals
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CFD of the Future: Year 2025 and Beyond