mir
Guest
Good evening,
small clarifying exercise:
I have a flow that enters a tank:
flow rate = 4.2 mc/h
flow density = 1100 kg/mc
cp flow = 1 kcal/(kg k)
t reservoir = 40 °c (liquid temperature in the tank)
Tinial flow = 50 °C
to calculate the thermal power that brings me the flow in the tank:
p flow = flow flow rate * density flow * cp flow * (intinitial flow - t reservoir)
i.e., without considering the dispersions, I should "cut" this power to the tank to keep the temperature constant .... does it seem correct?
Thank you.
♪
small clarifying exercise:
I have a flow that enters a tank:
flow rate = 4.2 mc/h
flow density = 1100 kg/mc
cp flow = 1 kcal/(kg k)
t reservoir = 40 °c (liquid temperature in the tank)
Tinial flow = 50 °C
to calculate the thermal power that brings me the flow in the tank:
p flow = flow flow rate * density flow * cp flow * (intinitial flow - t reservoir)
i.e., without considering the dispersions, I should "cut" this power to the tank to keep the temperature constant .... does it seem correct?
Thank you.
♪