Help setting up heat transfer equation

  • Thread starter Thread starter William12
  • Start date Start date
  • Tags Tags
    Heat Heat transfer
AI Thread Summary
To determine the mass flow rate of water needed to cool a hot material from 350F to 290F, the heat transfer equation must account for the energy absorbed by the water, the latent heat of vaporization, and the energy released by the hot material. The equation is set up as: Energy absorbed by water + Latent Heat of Vaporization - Energy released by hot material = 0. The specific heat values and temperature changes must be consistent; converting all temperatures to Celsius or Kelvin is recommended for accuracy, especially since the latent heat term is involved. The discussion highlights a potential oversight in temperature conversion, which could significantly affect the calculated mass flow rate of water. Ensuring all units are consistent is crucial for an accurate solution.
William12
Messages
8
Reaction score
0
Water is being sprayed at a hot flowing material to cool it from 350F to 290F. Let's assume that steam is produced when the water hits the hot material. How would I set up the heat transfer equation to solve for the mass flow rate of water required to cool it from 350 to 290?

Assumptions
Specific Heat of Water = 4.186 KJ/Kg-K
Specific Heat of Hot Material = 2.177 KJ/Kg-k
Mass Flow Rate of Hot Material = 1.512 Kg/s
Latent Heat of Vaporization = 2260 KJ/Kg
Temperature of Water = 75F
Evaporation Temperature of Water = 212FThis is how I set up the equation...

Energy absorbed by Water + Latent Heat of Vaporization - Energy released by Hot Material = 0

MFRwater*Cwater*(TwaterOUT-TwaterIN) + Lwater*MFRwater - MFRmaterial*Cmaterial*(TmaterialOUT-TmaterialIN) = 0

Now, solving for MFRwater ...

MFRwater = [MFRmaterial*Cmaterial*(350-290)] / [Cwater*(212-75) + Lwater]

When I plug in the numbers, I get a REALLY small answer. Am I missing a part of the equation? Is my algebra wrong? Am I using the right value for the specific heat of water, later heat of vaporization, and evaporation temperature of water? Or did I do everything correctly?
 
Science news on Phys.org
I think C is the Specific Heat. You seem to specify it in degrees K but you use degrees F in the equation. Why not convert to Celsius or Kelvin throughout?
 
tech99 said:
I think C is the Specific Heat. You seem to specify it in degrees K but you use degrees F in the equation. Why not convert to Celsius or Kelvin throughout?
Yes. Just divide the temperature changes by 1.8.

Chet
 
Chestermiller said:
Yes. Just divide the temperature changes by 1.8.

Chet
tech99 said:
I think C is the Specific Heat. You seem to specify it in degrees K but you use degrees F in the equation. Why not convert to Celsius or Kelvin throughout?

I thought that when dealing with a temperature difference, you didn't have to convert? That's why I left the temperatures in Fahrenheit
 
William12 said:
I thought that when dealing with a temperature difference, you didn't have to convert? That's why I left the temperatures in Fahrenheit
Not with the latent heat term in there.

Chet
 
wow... I completely blanked out on that thank you. As far as setting up the equation, did I miss anything tho? I am sure the temperature change is going to change my answer
 

Thread 'Entropy and configurations of microstates'

I was watching a Khan Academy video on entropy called: Reconciling thermodynamic and state definitions of entropy. So in the video it says: Let's say I have a container. And in that container, I have gas particles and they're bouncing around like gas particles tend to do, creating some pressure on the container of a certain volume. And let's say I have n particles. Now, each of these particles could be in x different states. Now, if each of them can be in x different states, how many total...
View full post »
Thread 'Why work is PdV and not (P+dP)dV in an isothermal process?'

Thread 'Why work is PdV and not (P+dP)dV in an isothermal process?'

Let's say we have a cylinder of volume V1 with a frictionless movable piston and some gas trapped inside with pressure P1 and temperature T1. On top of the piston lay some small pebbles that add weight and essentially create the pressure P1. Also the system is inside a reservoir of water that keeps its temperature constant at T1. The system is in equilibrium at V1, P1, T1. Now let's say i put another very small pebble on top of the piston (0,00001kg) and after some seconds the system...
View full post »

Similar threads

I What is the Role of Convective Heat Transfer in Cavitation of Cryogenic Fluids?
Replies
7
Views
2K
A Practical use of an overall heat transfer coefficient?
Replies
14
Views
2K
A Calculating the heat loss of an open water tank (aquarium)
Replies
2
Views
3K
I Warm-up time for a hollow cylinder
Replies
5
Views
2K
Heat transfer coefficient and ζ
Replies
4
Views
2K
Heat capacity vs Thermal conductivity in a LN2 bath
Replies
26
Views
4K
Heat transfer: transient state
Replies
4
Views
2K
I Energy balance over a methanol reformer
Replies
4
Views
2K
Heat Transfer -- Newton's law of cooling
Replies
8
Views
2K
I 1D Heat Transfer Analytical Wall
Replies
3
Views
2K

Hot Threads

Recent Insights

Back
Top