Numerical Modeling of Turbulent Combustion

Numerical Modeling of Turbulent Combustion by Luc Vervisch and Pascale Domingo invites combustion scientists, CFD engineers, and graduate students into the heart of one of today’s most challenging engineering problems: predicting turbulent reacting flows with accuracy and efficiency.

Start with a clear overview of modern numerical approaches—RANS, LES, and DNS—and follow through to practical strategies for coupling detailed chemical kinetics with turbulent transport. The authors balance rigorous theory with real-world relevance, explaining how models are constructed, calibrated, and validated against experiments so you can trust simulation results in engines, gas turbines, and industrial burners.

For researchers and practitioners across Europe, North America, and Asia-Pacific, this title is an essential reference. It presents modeling workflows, discusses computational cost versus fidelity, and offers guidance on choosing the right technique for design optimization, environmental compliance, or fundamental research. Whether you’re developing new combustion concepts or improving existing systems, the book equips you with the analytical tools and judgment needed to advance projects from concept to reliable simulation.

Packed with clear explanations, illustrative examples, and expert insight from two leading authors in the field, this work helps you reduce uncertainty, accelerate development cycles, and improve performance and emissions predictions. Ideal for advanced students, research labs, and engineering teams, it bridges academic theory and industrial practice.

Discover how robust numerical modeling can transform your understanding of turbulent combustion. Add Numerical Modeling of Turbulent Combustion by Luc Vervisch and Pascale Domingo to your professional library today and bring sharper, faster, more reliable simulations to your next project.

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