Using Fluid mechanics to rate power output of an engine.

In summary: No. There will still be friction between the moving parts of the pump, between the pump and the water, and within the water. All this friction creates heat.
  • #1
siegelaaron94
3
0
I trying to come up with a way to measure the power output of an engine using a water pump, And I wanted some one to go over my math and check for flaws in my thoughts. My idea is to measure the flow rate and the pressure of the output of the water pump.

Using this math to solve for power
Power = Fv
Pressure = F/A
R = Av

Pressure*A = F

Power = Pressure*A*v = Pressure*R
 
Science news on Phys.org
  • #2
siegelaaron94 said:
I trying to come up with a way to measure the power output of an engine using a water pump, And I wanted some one to go over my math and check for flaws in my thoughts. My idea is to measure the flow rate and the pressure of the output of the water pump.

Using this math to solve for power
Power = Fv
Pressure = F/A
R = Av

Pressure*A = F

Power = Pressure*A*v = Pressure*R

I believe this will work.
 
  • #3
Thanks for responding and the help. I am sure it will work the only thing that I think might be wrong is the way I come up with the force.
 
  • #4
R is volumetric flow rate? That's correct... but then you also need to divide by pump efficiency to get input power.
 
  • #5
siegelaaron94 said:
Thanks for responding and the help. I am sure it will work the only thing that I think might be wrong is the way I come up with the force.

Why do you think your force is wrong?

ps. a belated, welcome to Physics Forums. :smile:
 
  • Like
Likes 1 person
  • #6
russ_watters said:
R is volumetric flow rate? That's correct... but then you also need to divide by pump efficiency to get input power.

I was thinking more of the ideal case. I was also thinking of using a positive displacement pump which i think that would solve that problem, right?
 
  • #7
siegelaaron94 said:
I was thinking more of the ideal case. I was also thinking of using a positive displacement pump which i think that would solve that problem, right?

No. There will still be friction between the moving parts of the pump, between the pump and the water, and within the water. All this friction creates heat.
Solving the problem is pretty simple though. Insulate the pump, thus preventing any heat loss through the pump housing. Measure the water temperature at the inlet and outlet of the pump. This, along with the flow rate and the heat capacity of water will tell you how much of the input energy is converted to heat. This heat represents most of the inefficiency of the pump. Add this to the hydraulic energy you already measured and that should be very close to the energy output of your engine.
 

Related to Using Fluid mechanics to rate power output of an engine.

1. What is fluid mechanics?

Fluid mechanics is a branch of physics that deals with the study of fluids (liquids and gases) and the forces acting upon them. It involves the study of fluid behavior, such as flow, pressure, and density, and how these properties affect the motion of objects in a fluid.

2. How is fluid mechanics used to rate power output of an engine?

In an engine, fluid mechanics is used to analyze the flow of air and fuel through the system and how it affects the overall performance and power output. By understanding the principles of fluid mechanics, engineers can design more efficient and powerful engines by optimizing the flow of fluids through the system.

3. What are some key factors that affect power output in an engine?

The main factors that affect power output in an engine include the type of fuel used, the design and size of the engine, the compression ratio, and the efficiency of the combustion process. Additionally, the flow of fluids through the engine, as analyzed by fluid mechanics, also plays a crucial role in determining power output.

4. Can fluid mechanics be used to improve the performance of an engine?

Yes, by understanding the principles of fluid mechanics and how they apply to engine design, engineers can make improvements to the engine's design and optimize the flow of fluids to improve performance. This can lead to increased power output, better fuel efficiency, and reduced emissions.

5. Are there any limitations to using fluid mechanics to rate power output of an engine?

While fluid mechanics is a valuable tool for analyzing and improving engine performance, it is not the only factor that affects power output. Other factors such as the design and materials used in the engine, as well as external conditions like temperature and altitude, also play a role in determining power output.

Similar threads

B Lorenz COP of a heat pump and the temperatures of the hot/cold reservoirs
    • Thermodynamics
Replies
3
Views
2K
I Measuring Steam Condensate from my Steam Cleaner
    • Thermodynamics
Replies
8
Views
1K
Measuring Power output of DC generator
    • Electrical Engineering
2
Replies
38
Views
893
Question about electrical power compared to mechanical power
    • General Engineering
Replies
8
Views
2K
Calculating Output Pressure for 15L N2/min
    • Mechanical Engineering
Replies
15
Views
2K
Pumping power calculation of a vertical closed-loop system
    • Mechanical Engineering
Replies
4
Views
2K
B Magnetic field and generator power output
    • Electromagnetism
Replies
5
Views
1K
Power delivered/Internal work done by a car's engine
    • Thermodynamics
Replies
21
Views
1K
Ammonia Rankine cycle heat engine calculation
    • Advanced Physics Homework Help
Replies
6
Views
1K
Water flow from pressurized tank - versus temperature
    • Thermodynamics
Replies
5
Views
2K

Hot Threads

Recent Insights

Back
Top