Philipp Trisjono scite author profile

Premixed flames in the thin and broken reaction zones regime exhibit strong non-linear turbulence-chemistry interactions and are hence challenging to model. In the present study, a direct numerical simulation (DNS) database for a hydrogen-air flame is used to understand the effect of turbulencechemistry interactions on the flame speed. To this end, statistics of the local flame front displacement speed are investigated and the roles of flame stretch due to curvature and strain are analyzed. The local flame speed is found to be on average around 30% lower than the laminar burning velocity, which is shown to be a consequence of strain. Strain effects are then modeled by a recently proposed strained flamelet model, which is validated a priori against the DNS in terms of the flame speed and the reaction source term. The strained flamelet model leads to a moderate improvement of the flame speed prediction and is able to reproduce the decrease of the local flame speed. Moreover, it significantly improves the source term closure, which is demonstrated on the basis of the optimal estimator approach and, overall, describes the investigated DNS flame with very good accuracy.

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On a consistent high-order finite difference scheme with kinetic energy conservation for simulating turbulent reacting flows

Trisjono

Kang

Pitsch

2016

Journal of Computational Physics

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A direct numerical simulation study on NO formation in lean premixed flames

Trisjono

Pitsch

2017

Proceedings of the Combustion Institute

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Direkte numerische Simulationen und Modellierung der Stickoxidbildung in turbulenten Vormischflammen

Trisjono¹,

Schröder²,

Pitsch³

2016

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