How does burning velocity change with turbulence?

Burning velocity is the speed at which a flame propagates through a combustible mixture. When turbulence is introduced into the combustion process, it enhances mixing between the fuel and oxidizer. This improved mixing accelerates the combustion reaction, leading to an increase in the burning velocity.

In turbulent conditions, the turbulence creates fluctuations in concentration and temperature, allowing the reactants to come together more efficiently. This results in a higher rate of reaction and an increase in the speed at which the combustion front moves through the fuel-air mixture. Therefore, under turbulent conditions, burning velocity typically increases due to the more effective mixing dynamics that promote faster combustion reactions.

In contexts where turbulence is consistent, the impact on burning velocity can be significant, making turbulence a critical factor in understanding combustion dynamics in various environments, including industrial applications and safety assessments.