Thermodynamics (Mass flow rate & Volume flow rate)

AI Thread Summary
Steam enters a nozzle at 400°C with a velocity of 20 m/s, and the specific volume is given as 0.1 m³/kg. The volume flow rate is calculated as 0.2 m³/s using the formula voldot = A * V. To find the mass flow rate, the relationship between specific volume and density is clarified, emphasizing that density can be obtained by taking the reciprocal of specific volume. The confusion arises from the interpretation of this relationship, but it is confirmed that density is indeed the inverse of specific volume. Understanding these concepts is crucial for solving the problem effectively.
jaredogden
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Homework Statement



Steam at 400oC enters a nozzle with an average velocity of 20 m/s. If the specific volume and the flow area at the inlet are measured as 0.1 m^3/kg and 0.01 m^2 respectively, determine (a) the volume flow rate in m^3/s, and (b) the mass flow rate in kg/s


Homework Equations



voldot = AV
mdot = (rho)(voldot)


The Attempt at a Solution



voldot = (0.01m^2)*(20m/s)
= 0.2 m^3/s

mdot = ?*(0.2m^3/s)

I am unsure what to do here. I am given specific volume 0.1 m^3/kg but I need density (kg/m^3) so if specific volume is V/m and density is m/v.. gosh I can't even think straight this late I feel like I'm going to pull some illegal math move and just do the reciprocal of specific volume to get density..
 
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Hi jaredogden,
jaredogden said:
I am unsure what to do here. I am given specific volume 0.1 m^3/kg but I need density (kg/m^3) so if specific volume is V/m and density is m/v.. gosh I can't even think straight this late I feel like I'm going to pull some illegal math move and just do the reciprocal of specific volume to get density..
Sounds like you're feeling a bit uncomfortable about how specific volume and density are related. Try this:
http://en.wikipedia.org/wiki/Volume_(thermodynamics)#Specific_volume
 
Well I know that specific volume is the inverse of density but I remember seen on a website that specific volume is the inverse of density but you can't get density by doing the inverse of specific volume so I was confused.
 
jaredogden said:
Well I know that specific volume is the inverse of density but I remember seen on a website that specific volume is the inverse of density but you can't get density by doing the inverse of specific volume so I was confused.
If specific volume is the inverse of density then why can't you get density by taking the inverse of specific volume? It's just a straightforward equation that relates one to the other, isn't it?
 
Well that was my thinking and when I read that I got really confused and didn't understand what the guy running that website was saying. Thanks for the help though.
 

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