Temperature Rise due to Increase in Pressure (Liquid)

AI Thread Summary
The discussion focuses on calculating the temperature rise of diesel due to increased pressure in a pumping system. The user has established a formula based on the work of the pump and is seeking guidance on determining the initial enthalpy (h1) for diesel. It is clarified that with a pump efficiency of 70%, only 70% of the power contributes to enthalpy change, while the rest is converted to heat. A formula involving specific heat and pressure differences is provided to assist in calculating the temperature rise. The user expresses gratitude for the guidance received, indicating successful progress in their calculations.
Skez
Messages
4
Reaction score
0
I need help finding the temperature rise of a liquid (specifically diesel) due to a pressure increase. The system contains a pump at 500 hp and runs at 524 gpm. The inlet temperature is 75 F and the pressure is 150 psi. The exit pressure is about 1155 psi. I have the specific gravity as 0.841. I've reduced my formula to -W=m(h1-h2) where W is the work of a pump, m is the mass flow rate, and h1 and h2 are the enthalpies. I've calculated the mass flow rate to be 3688 lb/min and the work as 21,204 Btu/min. Now, I'm stuck because I can't find the enthalpy for h1 to solve for h2. When I have h2, I was going to use that and the exit pressure to find the final temperature.

So, am I doing this correctly? And if so, how can I determine h1? I can't find any enthalpy/pressure/temperature tables for diesel.
 
Last edited:
Science news on Phys.org
The specific heat of No. 2 Diesel is about 0.43 BTU/lb-F:

http://www.methanol.org/energy/resources/alternative-fuel/alt-fuel-properties.aspx

This should allow you to calculate a temperature rise due to the fuel absorbing the pump work.
 
Last edited by a moderator:
  • Like
Likes 1 person
OH! So, if the pump is working at maybe 70% efficiency, it's safe to assume that 30% of the horsepower isn't moving the fluid and is converted into heat? Then, I'd just take that number and find the temperature rise?

Thanks a lot by the way!
 
Pretty much.
 
Strictly speaking the fluid temperature will rise with pressure increase, even if no irreversible work is applied. But that increase is very small.
 
  • Like
Likes 1 person
Well, I think I have an appropriate number. Thank you both so much!
 
Skez said:
OH! So, if the pump is working at maybe 70% efficiency, it's safe to assume that 30% of the horsepower isn't moving the fluid and is converted into heat? Then, I'd just take that number and find the temperature rise?

Thanks a lot by the way!
No. If the pump is working at 70% efficiency, then 70% of the supplied electrical power translates into enthalpy change. Since diesel fuel is nearly incompressible,

h2-h1=Cp(T2-T1)+V(P2-P1),

where V is the specific volume of the diesel fuel (the reciprocal of the density).

Chet
 
  • Like
Likes 1 person
Oh, I see! Thanks a lot! Using your formula and a different method, I was able to come out with similar answers! I normally use tables so that formula helped me immensely!
 

Similar threads

I Effects on Engine Overheating and Pressure Dynamics
Replies
4
Views
2K
Gas Law - increasing temperature with constant volume held
Replies
23
Views
4K
Liquid temperature under pressure
Replies
1
Views
1K
Thermo: Calculating the temperature drop from gas leaving a system
Replies
11
Views
9K
How to estimate enthalpy change across a compressor in simple vapor compression cycle
Replies
1
Views
153
I Measuring Steam Condensate from my Steam Cleaner
Replies
8
Views
2K
Confused by temperature's effects on air pressure
Replies
11
Views
3K
Water flow from pressurized tank - versus temperature
Replies
5
Views
3K
Dryness fraction of saturated steam
Replies
2
Views
973
Why Did the Temperature Rise in a Sealed Automotive Cooling System?
Replies
18
Views
2K

Hot Threads

Recent Insights

Back
Top