An analytic probability density function for partially premixed flames with detailed chemistry

Article Thermodynamics

A New Analytic pdf for Simulations of Premixed Turbulent Combustion

Michael Pfitzner

Summary: A new reaction rate source term omega m(c) is proposed for modeling premixed combustion with a single progress variable c. The study shows that the model performs well in terms of computational accuracy and efficiency.

FLOW TURBULENCE AND COMBUSTION (2021)

Add to Collection

Article Thermodynamics

Evaluation of mean species mass fractions in premixed turbulent flames: A DNS study

A. N. Lipatnikov et al.

Summary: The study analyzes DNS data from a lean, complex chemistry, hydrogen-air flame to examine three different models for evaluating mean concentrations of various species in turbulent combustion research. The best predictions are obtained by using a Probability Density Function to average species mole fractions and density directly from laminar-flame profiles. This approach proves useful for evaluating mean mole fractions of different species in turbulent flames.

PROCEEDINGS OF THE COMBUSTION INSTITUTE (2021)

Add to Collection

Article Thermodynamics

Experimental assessment of the progress variable space structure of premixed flames subjected to extreme turbulence

Aaron W. Skiba et al.

Summary: Flamelet models in turbulent premixed combustion rely on the assumptions that flame structures remain layer-like and scalar structures are similar to those in laminar flames. This study evaluates the validity of these assumptions under high turbulent Reynolds numbers. The results show that flamelet models can accurately describe C-R distributions in moderately turbulent flames.

PROCEEDINGS OF THE COMBUSTION INSTITUTE (2021)

Add to Collection

Article Thermodynamics

A near-exact analytic solution of progress variable and pdf for single-step Arrhenius chemistry

Michael Pfitzner et al.

Summary: A new chemical reaction rate source term is proposed and its implications for premixed flame modeling are discussed. Analytic flame profiles, 1D laminar flame pdfs, and the evaluation of laminar flame Eigenvalues are derived and compared to classical results. A method to evaluate progress variable pdf from DNS data is introduced, which factorizes into flat flame pdf, geometrical wrinkling factor, and correction factor.

COMBUSTION AND FLAME (2021)

Add to Collection

Article Thermodynamics

Prediction of mean radical concentrations in lean hydrogen-air turbulent flames at different Karlovitz numbers adopting a newly extended flamelet-based presumed PDF

A. N. Lipatnikov et al.

Summary: The study analyzes complex-chemistry reactions in flames and proposes a new flamelet concept for predicting average concentrations of various species. The application of flamelet PDF shows varying effectiveness in different reaction zones, and a method combining with other closure relations is suggested for improvement.

COMBUSTION AND FLAME (2021)

Add to Collection

Article Thermodynamics