Penning Measuring gauge configuration

AI Thread Summary
Penning pressure gauges are utilized for measuring pressures from approximately 1E-7 to 1 mbar and are positioned outside the recipient behind a valve to avoid higher pressures. The discussion highlights concerns about increased measured pressure when using smaller valves, potentially due to trapped particles in the gauge. Participants speculate that reduced diameter in front of the gauge could lead to more particles being entrapped, affecting pressure readings. Specific dimensions of the setup are provided, indicating a notable increase in end pressure with a DN16 valve compared to DN40, despite the vacuum conditions remaining constant. The consensus suggests that the relationship between gauge size and pressure measurement is complex, with no definitive documentation available to correlate results effectively.
Ryyder
Messages
5
Reaction score
0
We use, among others, Penning pressure gauges for determining pressures (aprox. 1E-7 to 1 mbar (about the same in Torr... for the Americans here ;-) ).
The Penning is placed just outside the recipient, behind a valve to make sure its never in pressures of 1mbar or more.

When using a smaller valve, the measured end pressure is higher (entrapped particles probably?). But the question now is, how to pre-determine how much higher the measured pressure will be due to this effect, without having to measure for each application.

My feeling is that a smaller valve and therefore smaller pipes in front of the gauge, result in relatively more particles being entrapped in the volume of the gauge. But I can't find a good way of approximating the effect.

More general:
* What is the effect a decreased diameter in front of the measurement?

Any thoughts are welcome!
Ryyder
 
Last edited:
Engineering news on Phys.org
No ideas at all? I was thinking it might be due to free path length being a lot more then the length and diameter of the pipe in front of the Penning.

If the inlet to this pipe is made smaller, molecules might get trapped inside the pipe?
 
Basically one is measuring the pressure of a vacuum?

Perhaps there is no one here who works with vacuum systems on a regular basis.


How small is small? Or what are typical dimensions?
 
Yes, measuring the pressure of the vacuum. And yes, maybe not many people have experience or direct knowledge, could be.

The dimensions are as follows, for two cases (in mm):
* Penning is typically DN40
* Pipe from penning to valve is DN40 or DN16, ~75 mm long
* Valve is DN40 or DN16
* Pipe from valve to recipient (the vacuum) is DN40, ~20 mm long

For the DN16 valve we see a clear increase in end pressure that is measured for the vacuum, even though we know the vacuum itself has the same end pressure (or at least will not change in the order of decades).
 
hi ryder..
the penning gauge and the size of the whole are directly linked for certain..ive worked with edwards and leybold gauges many years , no one has ever to my mid actually produced a document to corrulte any results..its the nature of the gauge I am afraid..ill put link to our gauges section if you ley me know ill could possibly geta pdf on sucha unit for you http://www.absolute-vacuum.com/product_gauges.php
 
Last edited by a moderator:

Thread 'Bubble formation in 4 mm gap vessel'

How did you find PF?: Via Google search Hi, I have a vessel I 3D printed to investigate single bubble rise. The vessel has a 4 mm gap separated by acrylic panels. This is essentially my viewing chamber where I can record the bubble motion. The vessel is open to atmosphere. The bubble generation mechanism is composed of a syringe pump and glass capillary tube (Internal Diameter of 0.45 mm). I connect a 1/4” air line hose from the syringe to the capillary The bubble is formed at the tip...
View full post »
Thread 'Physics of Stretch: What pressure does a band apply on a cylinder?'

Thread 'Physics of Stretch: What pressure does a band apply on a cylinder?'

Scenario 1 (figure 1) A continuous loop of elastic material is stretched around two metal bars. The top bar is attached to a load cell that reads force. The lower bar can be moved downwards to stretch the elastic material. The lower bar is moved downwards until the two bars are 1190mm apart, stretching the elastic material. The bars are 5mm thick, so the total internal loop length is 1200mm (1190mm + 5mm + 5mm). At this level of stretch, the load cell reads 45N tensile force. Key numbers...
View full post »

Thread 'Find 3D Printer & Software Resources for Prototype Creation'

I'd like to create a thread with links to 3-D Printer resources, including printers and software package suggestions. My motivations are selfish, as I have a 3-D printed project that I'm working on, and I'd like to buy a simple printer and use low cost software to make the first prototype. There are some previous threads about 3-D printing like this: https://www.physicsforums.com/threads/are-3d-printers-easy-to-use-yet.917489/ but none that address the overall topic (unless I've missed...
View full post »

Similar threads

Modeling Air Compression Cylinder
Replies
45
Views
5K
Underground pump vault airflow considerations
Replies
15
Views
3K
Automotive HELP: High Performance Free Flow Exhaust For Single Cylinder (153cc) Engine
Replies
3
Views
36K
I Progress In Calculating The HLbL Contribution To Muon g-2
Replies
0
Views
2K
Measuring Velocity based on change in Pressure
Replies
7
Views
2K
Atomic displacements, replacements, and radiation damage of structural materials
Replies
1
Views
709
Is my fictional Solar System stable and realistic?
Replies
21
Views
4K
I What Key Issues Should Cosmologists Address in the ΛCDM Model?
Replies
1
Views
3K
Is Over-Engineering Hindering Your Success in Engineering Projects?
Replies
3
Views
12K
Evidence for pre Big Bang physical universe?
Replies
31
Views
8K

Hot Threads

Recent Insights

Back
Top