Add to ORKGThe importance of turbulent premixed flames in a variety of applications has led to a substantial amount of effort towards improving the understanding of these flames. Although these efforts have increased the understanding, many questions still remain. The use of direct numerical simulation (DNS) in solving these questions is examined
Turbulent premixed hydrocarbon flames in the thin and distributed reaction zones regimes are simulat...
The mean reaction rate in flamelet models for turbulent premixed combustion depends on two basic qua...
Understanding and modeling of turbulent combustion are key problems in the computation of numerous p...
In earlier work (Mantel & Bilger, 1994) the structure of the turbulent premixed flame was investigat...
Direct numerical simulations (DNS) of turbulent combustion have evolved tremendously in the past dec...
Direct numerical simulations (DNS) of turbulent combustion have evolved tremendously in the past dec...
One central ingredient in flamelet models for turbulent premixed combustion is the flame surface den...
The importance of turbulent premixed combustion comes from the fact that it is present in many engin...
Nowadays numerical simulations of premixed turbulent combustion can be performed at high spatial res...
Nowadays numerical simulations of premixed turbulent combustion can be performed at high spatial res...
Nowadays numerical simulations of premixed turbulent combustion can be performed at high spatial res...
Nowadays numerical simulations of premixed turbulent combustion can be performed at high spatial res...
n-heptane/air premixed turbulent flames in the high-Karlovitz portion of the thin reaction zone regi...
n-heptane/air premixed turbulent flames in the high-Karlovitz portion of the thin reaction zone regi...
Turbulent premixed hydrocarbon flames in the thin and distributed reaction zones regimes are simulat...
Turbulent premixed hydrocarbon flames in the thin and distributed reaction zones regimes are simulat...
The mean reaction rate in flamelet models for turbulent premixed combustion depends on two basic qua...
Understanding and modeling of turbulent combustion are key problems in the computation of numerous p...
In earlier work (Mantel & Bilger, 1994) the structure of the turbulent premixed flame was investigat...
Direct numerical simulations (DNS) of turbulent combustion have evolved tremendously in the past dec...
Direct numerical simulations (DNS) of turbulent combustion have evolved tremendously in the past dec...
One central ingredient in flamelet models for turbulent premixed combustion is the flame surface den...
The importance of turbulent premixed combustion comes from the fact that it is present in many engin...
Nowadays numerical simulations of premixed turbulent combustion can be performed at high spatial res...
Nowadays numerical simulations of premixed turbulent combustion can be performed at high spatial res...
Nowadays numerical simulations of premixed turbulent combustion can be performed at high spatial res...
Nowadays numerical simulations of premixed turbulent combustion can be performed at high spatial res...
n-heptane/air premixed turbulent flames in the high-Karlovitz portion of the thin reaction zone regi...
n-heptane/air premixed turbulent flames in the high-Karlovitz portion of the thin reaction zone regi...
Turbulent premixed hydrocarbon flames in the thin and distributed reaction zones regimes are simulat...
Turbulent premixed hydrocarbon flames in the thin and distributed reaction zones regimes are simulat...
The mean reaction rate in flamelet models for turbulent premixed combustion depends on two basic qua...
Understanding and modeling of turbulent combustion are key problems in the computation of numerous p...