EigenMoments: Difference between revisions

Revision as of 08:55, 18 February 2013

Laminar flame speed is a property of a combustible mixture.^[1] It is the speed at which an un-stretched laminar flame will propagate through a quiescent mixture of unburned reactants. Laminar flame speed is given the symbol s_L. According to the thermal flame theory of Mallard and Le Chatelier, the un-stretched laminar flame speed is dependent on only three properties of a chemical mixture: the thermal diffusivity of the mixture, the reaction rate of the mixture and the temperature through the flame zone:

$s_{L}^{\circ} = \sqrt{α \dot{ω} (\frac{T_{b} - T_{i}}{T_{i} - T_{u}})}$

$α$ is thermal diffusivity,

$\dot{ω}$ is reaction rate,

and the temperature subscript u is for unburned, b is for burned and i is for ignition temperature.

While the laminar flame speed is a property of the mixture alone, the same is not true for turbulent flame speed - or turbulent burning velocity as it is more correctly called. As flow velocity increases and turbulence is introduced, a flame will begin to wrinkle, then corrugate and eventually the flame front will be broken and transport properties will be enhanced by turbulent eddies in the flame zone. As a result, the flame front of a turbulent flame will propagate at a velocity that is not only a function of the mixture's chemical properties but also properties of the flow and turbulence.

References

43 year old Petroleum Engineer Harry from Deep River, usually spends time with hobbies and interests like renting movies, property developers in singapore new condominium and vehicle racing. Constantly enjoys going to destinations like Camino Real de Tierra Adentro.

↑ http://www.clarke-energy.com/2013/laminar-flame-speed/ Laminar Flame Speed

[1] ttp://www.clarke-energy.com/2013/laminar-flame-speed/ Laminar Flame Speed

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+'''Laminar flame speed''' is a property of a combustible mixture.<ref>http://www.clarke-energy.com/2013/laminar-flame-speed/ Laminar Flame Speed</ref>  It is the speed at which an un-stretched [[laminar]] flame will propagate through a quiescent mixture of unburned reactants.  Laminar flame speed is given the symbol ''s''<sub>L</sub>.  According to the thermal flame theory of [[Ernest-François Mallard|Mallard]] and [[Henry Louis Le Chatelier|Le Chatelier]], the un-stretched laminar flame speed is dependent on only three properties of a chemical mixture: the [[thermal diffusivity]] of the mixture, the [[reaction rate]] of the mixture and the temperature through the flame zone:
+<math>
+s_\mathrm{L}^{\circ} = \sqrt{\alpha \dot{\omega} \left( \dfrac{T_\mathrm{b} - T_\mathrm{i}}{T_\mathrm{i} - T_\mathrm{u}} \right)}
+</math>
+<math> \alpha </math> is thermal diffusivity,
+<math> \dot{\omega} </math> is reaction rate,
+and the temperature subscript '''u''' is for unburned, '''b''' is for burned and '''i''' is for ignition temperature.
+While the laminar flame speed is a property of the mixture alone, the same is not true for turbulent flame speed - or turbulent burning velocity as it is more correctly called.  As flow velocity increases and [[turbulence]] is introduced, a flame will begin to wrinkle, then corrugate and eventually the flame front will be broken and transport properties will be enhanced by turbulent eddies in the flame zone.  As a result, the flame front of a turbulent flame will propagate at a velocity that is not only a function of the mixture's chemical properties but also properties of the flow and turbulence.
+==See also==
+* [[Flame speed]]
+* [[Chemical kinetics]]
+== References ==
+{{Reflist}}
+[[Category:Combustion]]

EigenMoments: Difference between revisions

Revision as of 08:55, 18 February 2013

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