Thermal conductivity in a heating system

AI Thread Summary
In a domestic heating system, the radiator's heat transfer is calculated using the mass flow rate of water and the temperature difference between inlet and outlet. The initial calculation incorrectly used the radiator's temperature difference instead of the water's temperature change, leading to a discrepancy in heat transfer rates. The correct approach involves applying conservation of energy, where the power going into the radiator equals the power coming out, factoring in the specific heat capacity of water. The final heat transfer rate to the room is determined by the mass flow rate and the temperature difference of the water. This discussion emphasizes the importance of using the correct parameters in thermal conductivity calculations.
astri_lfc
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Homework Statement




In a domestic heating system, a room is warmed by a 'radiator' through which water passes at a rate of 0.12kg s-1. The steady-state difference between the inlet and outlet temperatures of the water is 6.0 K.

The radiator is made of iron of thermal conductivity 80 W m-1 K-1 and has an effective surface area of 1.5 m2 with walls 2.0 mm thick.
(a) At what rate is heat supplied to the room?
(b) What is the mean temperature difference between the inner and outer surfaces of the radiator walls?
[Specific heat capacity of water = 4.2 x 103 J kg-1 K-1]

Homework Equations



a)q/t = k a ΔT / L
is it true use this equations?

b) q = m c ΔT

The Attempt at a Solution



a)
i put all the data to the formula, but the answer is 360000 w
my teacher give me the answer is 3024 w
which one is true?
 
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Your teacher is right. Show us your work.

Chet
 
k = 80
A = 1.5 m2
L = 2 x 10^-3
delta T = 6 K

q/t = 80 x 1.5 x 6 / (2x10^-3)

so q/t = 360000

what's wrong with thiss? :'(
 
What's wrong is that the 6 C is the temperature rise of the water in passing through the radiator, not the temperature difference across the thickness of the radiator iron. How much heat does the water lose per second in passing through the radiator?

Chet
 
oh i see
so shall i use q/t= m c deltaT ?
 
astri_lfc said:
oh i see
so shall i use q/t= m c deltaT ?
Yes, if m is the mass flow rate and q/t is the rate of heat transfer.

Chet
 
There are two parts to the question.

For part..

a) Apply conservation of energy. In steady state Power going into the rad = Power coming out. Power going in is (m/t)cΔT where (m/t) is the flow rate in kg/s^-1, c = specific heat capacity, and ΔT the temperature difference between input and output pipes (the output pipe isn't at absolute zero so some power is returned to the furnace/boiler)

b) A different equation will apply. Have a go first.
 
Actually there is a better way to explain equation in part a...

Power emitted to the room = Power into the rad - Power returned to the furnace

= mcTflow - mcTreturn
= mcΔT
 
okay thanks a lot! i have found the answer
 

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