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Publications by Marcus S. Day
A Conservative, Thermodynamically Consistent Numerical Approach for Low Mach Number Combustion. Part I: Single-Level Integration
Combustion Theory and Modelling
Chemistry
Astronomy
Energy Engineering
Fuel Technology
Simulation
Chemical Engineering
Modeling
Power Technology
Physics
Related publications
Conservative High-Order Finite-Difference Schemes for Low-Mach Number Flows
Journal of Computational Physics
Numerical Analysis
Applied Mathematics
Simulation
Computer Science Applications
Modeling
Computational Mathematics
Astronomy
Physics
An Adaptive Projection Method for Unsteady, Low-Mach Number Combustion
Combustion Science and Technology
Chemistry
Astronomy
Energy Engineering
Fuel Technology
Chemical Engineering
Power Technology
Physics
Comparison of Two-Phase Darcy’s Law With a Thermodynamically Consistent Approach
Transport in Porous Media
Catalysis
Chemical Engineering
Direct Numerical Simulation of Homogeneous Turbulence in Combination With Premixed Combustion at Low Mach Number Modelled by the $G$-Equation
Journal of Fluid Mechanics
Mechanics of Materials
Condensed Matter Physics
Mechanical Engineering
Thermodynamically Consistent Analytical Approach for Streamline Simulations of Multicomponent Hydrocarbon Reservoirs
Numerical Solution of Low-Mach-Number Flows Using the Rational Runge-Kutta Scheme.
Nihon Kikai Gakkai Ronbunshu, B Hen/Transactions of the Japan Society of Mechanical Engineers, Part B
Condensed Matter Physics
Mechanical Engineering
Numerical Simulation of Laminar Flames at Low Mach Number by Adaptive Finite Elements
Combustion Theory and Modelling
Chemistry
Astronomy
Energy Engineering
Fuel Technology
Simulation
Chemical Engineering
Modeling
Power Technology
Physics
Improved Flux Formulations for Unsteady Low Mach Number Flows
A Thermodynamically Consistent Model of Finite-State Machines
Interface Focus
Biochemistry
Biophysics
Biomaterials
Bioengineering
Biotechnology
Biomedical Engineering