Steve McFarland Aaron Boyd. As I move on to the 5 th hour of heat transfer homework, my hunger suddenly takes over and I cannot concentrate anymore. I.

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Presentation transcript:

Steve McFarland Aaron Boyd

As I move on to the 5 th hour of heat transfer homework, my hunger suddenly takes over and I cannot concentrate anymore. I need a chimichanga! I buy one from the vending machine and pop it in the oven. As I watch it cook, my engineering mind takes over, and I can’t help but wonder, “how hot is the chimichanga at a given time?”

 Using the Lumped Capacitance Method, assuming the chimichanga to behave like a cylindar, and using thermophysical properties of water, we determined the temperature of a chimichanga at different times, cooking at 350 degrees F. T(t) = T ∞ + (To - T ∞)e^(-h As t)/( ρ cp V) Bi = (h Lc)/k

 For full results, see appendix

 Temperature of Chimichanga goes up quickly and levels off around 350 degrees after approximately 1 hour...but you probably don’t want to eat it!  The biot number is too high to validly use the lumped capacitance method, but it gives a good estimate of the temperature at any given time.

 See attached file