Solving Rate of Combustion Problem

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The discussion revolves around calculating the minimum thickness of a fiberglass panel needed to maintain a 40°C temperature difference when exposed to a flame from gasoline combustion. The rate of combustion is given as 0.002 g/s, and the latent heat of combustion for gasoline is 46,000 J/g. Participants clarify that the heat conduction formula requires the temperature difference rather than individual temperatures, and they address unit conversions from g/s to J/s. The final calculation confirms that the heat transfer rate is 92 W, leading to the solution for the fiberglass thickness. This problem illustrates the application of Fourier's Law of Conduction in thermal management scenarios.
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Rate of combustion??

Homework Statement



1. The broader side of a rectangular fiberglass of dimensions 3m x 5m is brought near the flame. The flame is produced upon combustion of gasoline. If the rate of combustion is 0.002 g/s, determine the minimum thickness of the fiberglass so that the temperature difference between hot and cold sides of the fiberglass is 40 degree Celsius. The latent heat of combustion of gasoline is 46,000 J/g.

k = 0.04 W/m.C

Homework Equations



Fourier's Law of Conduction

H = kA(Th-Tc)/L
where:
H - Heat if conduction (Watts of J/s)
k - Thermal Conductivity
A - Area (meter squared)
Th - Hot side temperature in Celsius
Tc - Cold side temperature in Celsius
L - Thickness

Heat of Combustion
Qc = mLc
m - mass in kg
Lc - Latent heat of combustion

The Attempt at a Solution


I really don't know where to start. The rate of conduction that is given is supposed to be H right? But the unit is g/s instead of J/s. And also, there aren't any Th and Tc given. Using the heat of combustion formula, i supposed you can get the mass of gasoline in the given 0.002 g/s. This is the last problem I'm solving. (I solved the other 4 but can't solve this one)
 
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daimlerpogi said:
The broader side of a rectangular fiberglass of dimensions 3m x 5m is brought near the flame. The flame is produced upon combustion of gasoline.
If the rate of combustion is 0.002 g/s, determine the minimum thickness of the fiberglass so that the temperature difference between hot and cold sides of the fiberglass is 40 degree Celsius. The latent heat of combustion of gasoline is 46,000 J/g.

k = 0.04 W/m.C

I really don't know where to start. The rate of conduction that is given is supposed to be H right? But the unit is g/s instead of J/s. And also, there aren't any Th and Tc given. Using the heat of combustion formula, i supposed you can get the mass of gasoline in the given 0.002 g/s.

Hi daimlerpogi ! Welcome to PF! :smile:

You don't need either Th or Tc separately … the formula only needs the combination (Th - Tc), which is 40C.

If you're bothered about the units, just put them side-by-side until you see how to fit them like a jigsaw :biggrin:

In this case, they give you a g/s and a J/g, but you want a J/s. :frown:

ok … just multiply … (J/g)(g/s) = J/s ! :smile:
 


determine the minimum thickness of the fiberglass so that the temperature difference between hot and cold sides of the fiberglass is 40 degree Celsius.

My bad, didn't notice that! Thanks tiny-tim!

I got it now!

(46000 J/g)(0.002 g/s) = 92 W

Thanks again! :D
 

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