Entrance to centrifugal pump = pressure lost in entrance to container?

AI Thread Summary
The discussion addresses the pressure loss experienced at the entrance of a container compared to that at the entrance of a hydraulic centrifugal pump. It confirms that there is an irreversible loss in stagnation pressure in both scenarios, primarily due to flow dynamics. The pressure loss at the pump entrance is acknowledged as significant, similar to that at the container entrance. The analysis of such pressure losses is typically conducted using the Darcy Weisbach equation or similar methodologies. Understanding these losses is crucial for accurate hydraulic system design and efficiency.
Femme_physics
Gold Member
Messages
2,548
Reaction score
1
Does the local pressure lost endured in an entrance to a container (k =1) equal to the same local pressure lost of an entrance to a hydraulic Centrifugal pump (in basic hydraulic with mostly ideal conditions - neglecting friction). Or do we ignore it as local pressure lost?
 
Engineering news on Phys.org
Hi Femme_physics. Not sure exactly what you're asking but there is an irreversible loss in stagnation pressure anywhere there is flow unless work is being done on the fluid. So there's an irreversible pressure loss at the entrance to a pump and there's an irreversible pressure loss for flow into or out of a vessel. We typically analyze that pressure loss using the Darcy Weisbach equation or similar method.
 
Thread 'I need a concave mirror with a focal length length of 150 feet'

Thread 'I need a concave mirror with a focal length length of 150 feet'

I need to cut down a 3 year old dead tree from top down so tree causes no damage with small pieces falling. I need a mirror with a focal length of 150 ft. 12" diameter to 36" diameter will work good but I can't think of any easy way to build it. Nothing like this for sale on Ebay. I have a 30" Fresnel lens that I use to burn stumps it works great. Tree service wants $2000.
View full post »

Thread 'Questions about the Tesla turbine'

Hi all, i have some questions about the tesla turbine: is a tesla turbine more efficient than a steam engine or a stirling engine ? about the discs of the tesla turbine warping because of the high speed rotations; does running the engine on a lower speed solve that or will the discs warp anyway after time ? what is the difference in efficiency between the tesla turbine running at high speed and running it at a lower speed ( as fast as possible but low enough to not warp de discs) and: i...
View full post »

Similar threads

Why is it easier on the heart in a horizontal position?
Replies
3
Views
2K
Evaporating water using heat and reducing vapour pressure
Replies
8
Views
8K
Does Fluid Dynamics Explain Pressure Gradients in a Frictionless Tube?
Replies
48
Views
6K
System curve and centrifugal pump suitability
Replies
16
Views
3K
I Hydrostatic pressure inside an inverted tube
Replies
12
Views
2K
I Find Best Water Nozzle Type & Pressure for Longest Distance
Replies
32
Views
9K
Pump has a suction lift of more than 10.3 m
Replies
6
Views
7K
Is My Calculation for Bicycle Pump Pressure Incorrect?
3
Replies
116
Views
6K
Alternative expansion valve in heat pumps
Replies
6
Views
6K
Maximum number of microchannels in parallel for a syringe pump
Replies
2
Views
1K

Hot Threads

Recent Insights

Back
Top