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Brian Spalding: Some Contributions to Computational Fluid Dynamics During the Period 1993 to 2004

Some Observations on Thermodynamic Basis of Pressure Continuum Condition and Consequences of Its Violation in Discretised CFD

The SUPER Numerical Scheme for the Discretization of the Convection Terms in Computational Fluid Dynamics Computations

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

Accurate Numerical Modeling of Complex Thermal Processes: Impact of Professor Spalding’s Work

Numerical Predictions of Temporally Periodic Fluid Flow and Heat Transfer in Spatially Periodic Geometries

A Finite Volume Procedure for Thermofluid System Analysis in a Flow Network

Turbulent Round Jet Entrainment—A Historical Perspective

Eddy-Viscosity Transport Modelling: A Historical Review

Studies on Mixed Convection and Its Transition to Turbulence—A Review

Large Eddy Simulation of Flows of Engineering Interest: A Review

Brian Spalding and Turbulent Combustion

Hypotheses-Driven Combustion Technology and Design Development Approach Pursued Since Early 1970s

Heat and Mass Transfer in Fuel Cells and Stacks

Modeling Proton Exchange Membrane Fuel Cells—A Review

A Review of Computational Models for Falling Liquid Films

Study of Pool Boiling Through Numerical Approach

CFD Modeling of Data Centers

Validation Problems in Computational Modelling of Natural Convection

Integral Transform Benchmarks of Diffusion, Convection–Diffusion, and Conjugated Problems in Complex Domains

A Comparison Between FEM and FVM via the Method of Weighted Residuals

CFD of the Future: Year 2025 and Beyond