Steam generation thermodynamics

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Ali Ahmad
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a cylindrical tank with volume V
a volume of water is inside the tank and the rest is air
now if coal combustion is releasing heat into the tank Qin
and when the gauge reads a certain pressure "P", the valve is opened which allows steam to exit the boiler
what's the mass flow rate of the steam?
 

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this is a part of a senior project that I am working on.
you can assume anything to simplify it
assume it's a bachelor's degree level question
 
Ignore the previous question.
now let's say that the tank is vacuumed and has a volume "Vt", and the valve is closed
then a volume "Vw" of water at T1=20C is added to the tank
water is heated using an external heat source (coal combustion) until its temperature reaches T2=120C
what is the mass of steam generated in the tank, and when the valve is opened, what is the flow rate of steam? what is the pressure in the tank?
assume the cross-sectional area of the pipe is "Ap" and ignore heat losses
 
Ali Ahmad said:
Ignore the previous question.
now let's say that the tank is vacuumed and has a volume "Vt", and the valve is closed
then a volume "Vw" of water at T1=20C is added to the tank
water is heated using an external heat source (coal combustion) until its temperature reaches T2=120C
what is the mass of steam generated in the tank, and when the valve is opened, what is the flow rate of steam? what is the pressure in the tank?
assume the cross-sectional area of the pipe is "Ap" and ignore heat losses
What are your thoughts on how this would be approached?
 
after t seconds, the heat rate is:
Qdot = mw . (cp2 . T2 - cp1 . T1) / t
control volume thermodynamics
Ein - Eout = dE/dt (assuming steady)
Ein = Eout
Qdot = mout . u2 -------eq1
at T2=120C
P2=gauge pressure reading just before opening the valve
then from steam tables, we get u2 and substitute in eq1 to find mout
and how do I find the amount of vapor generated after t seconds?