- #1
Majorana
- 91
- 43
- TL;DR
- Looking for components and materials suitable for working in contact with helium at (relatively) high temperature and pressure.
Hello everybody,
we are setting up the prototype of an equipment, that will be filled with pressurized helium. There is a small external heat exchanger, and the prototype has also manometers and thermometers inserted at various stations through the walls of the pressure case. The working temperature of helium will be higher than 350°C (623 K), with pressures up to about 30 Bar (3 MPa) and possibily higher.
Now, I have learned that helium, just like hydrogen, has some interesting peculiarities. Working with helium is definitely NOT like working with air. Helium - I read - has the capacity to seep where air could not (hydrogen is the same). Manufacturers of compressors warn that a compressor originally designed to work with air would NOT work with helium, because all the seals, gaskets, greases etc used with air, are not leakproof with helium. The same holds for all the materials and components fitted on the prototype case: valves, manometers, gaskets, sealing greases or tapes used on threaded connections, the external heat exchanger, and so on. The usual flexible tubes, with the safety steel wire mesh outer sleeve and inner pressure tube made of synthetic (polymer) rubber, are another big question: will hot helium escape through the material (possibly degrading its strenght at the same time)??... The fact that helium is hot in our application will probably make everything worse (the folks at NASA have decades of experience with helium, but they use to work at cryogenic temperatures, as far as I know, where helium behaves quite differently than at 350+°C, so I don't know whether any useful info might come from there).
There is a well-known effect with hydrogen: the embrittlement of several types of steel when exposed to an hydrogen atmosphere ("hydrogen embrittlement"), due to the ability of hydrogen to seep into the reticular structure of steel. I don't know if the same danger exists with helium. So far, a search for the term "helium embrittlement" returned nothing, but maybe that somebody out there has more actual information than a stupid search engine... I remember that many years ago, a famous (in my country) laser physicist and engineer explained me that, in HeNe laser tubes, that usually have a hollow cylindrical aluminium cathode, when the laser is NOT in use, the helium in the mixture tends to be slowly absorbed into the aluminium cathode over time. Later, when the tube is powered and heats up to working temperature, the cathode expels the helium again. That is the proof that, even when cold and at very low pressure like in an unpowered HeNe laser tube, helium *can* actually seep into some metals (aluminium, at the very least) and possibly other materials.
Basically, what I need is a series of advices, hints, suggestions, and information about equipment sources, in order to identify the most appropriate materials, components and equipment to work with helium at high temperature and pressure.
● Compressor - A compressor is needed in order to fill the equipment case at the required pressure. This is the only piece of equipment that does not need to withstand high temperatures (the filling is done only once, with ambient temp helium coming from a cylinder). There is more than a manufacturer of helium compressors, of course, but the problem is that the machines I found so far are huge, enormous industrial compressors, that deliver pressures and especially flows far exceeding our needs (they are intended to fill hundreds of high-pressure helium cylinders per day). We need a small helium compressor, able to exceed the 30 Bar final pressure required in the equipment case, but giving just a small flow, something similar in size and performances (pressure apart) to a domestic refrigerator compressor, or the compressors used with airbrushes in hobby modeling. I think that some small laboratory helium compressor could perhaps do the job, but it's not easy to find, also because I don't know if there are manufacturers specialized in lab helium equipment.
● Valves - Valves are required at the connection ports to evacuate air from the pressure case, and to fill it with helium after purging. On the web I found a few warnings against using valves not specifically designed to work with helium (like most ball valves) because that gas would slowly make its way through the valve, even if perfectly closed and airtight. As of this writing I could not find any ads about valves designed for hot helium. My question is: if I can't find any valve specifically advertised to work with hot helium, what type of valve should I look for, that works reliably under those conditions?
● Forbidden materials - Is there any material(s) that for any reason should NOT stay in contact with hot, pressurized helium?
● Sealing materials - Where there are threaded connections (purge/filling ports, instrumentation ports, to/from tubes towards the external heat exchanger etc.) I am not sure about what type of sealing materials should be used, or NOT used. Is the usual white Teflon tape for threaded connections good with hot helium? Or is there any specific grease or sealant to be used instead?
● Gaskets - Same as above. Are high-temperature FKM (Viton) gaskets adequate for working with hot helium, or should I look for some specific materials?...
Thank you very much in advance to everybody for any information or suggestion you can provide!
we are setting up the prototype of an equipment, that will be filled with pressurized helium. There is a small external heat exchanger, and the prototype has also manometers and thermometers inserted at various stations through the walls of the pressure case. The working temperature of helium will be higher than 350°C (623 K), with pressures up to about 30 Bar (3 MPa) and possibily higher.
Now, I have learned that helium, just like hydrogen, has some interesting peculiarities. Working with helium is definitely NOT like working with air. Helium - I read - has the capacity to seep where air could not (hydrogen is the same). Manufacturers of compressors warn that a compressor originally designed to work with air would NOT work with helium, because all the seals, gaskets, greases etc used with air, are not leakproof with helium. The same holds for all the materials and components fitted on the prototype case: valves, manometers, gaskets, sealing greases or tapes used on threaded connections, the external heat exchanger, and so on. The usual flexible tubes, with the safety steel wire mesh outer sleeve and inner pressure tube made of synthetic (polymer) rubber, are another big question: will hot helium escape through the material (possibly degrading its strenght at the same time)??... The fact that helium is hot in our application will probably make everything worse (the folks at NASA have decades of experience with helium, but they use to work at cryogenic temperatures, as far as I know, where helium behaves quite differently than at 350+°C, so I don't know whether any useful info might come from there).
There is a well-known effect with hydrogen: the embrittlement of several types of steel when exposed to an hydrogen atmosphere ("hydrogen embrittlement"), due to the ability of hydrogen to seep into the reticular structure of steel. I don't know if the same danger exists with helium. So far, a search for the term "helium embrittlement" returned nothing, but maybe that somebody out there has more actual information than a stupid search engine... I remember that many years ago, a famous (in my country) laser physicist and engineer explained me that, in HeNe laser tubes, that usually have a hollow cylindrical aluminium cathode, when the laser is NOT in use, the helium in the mixture tends to be slowly absorbed into the aluminium cathode over time. Later, when the tube is powered and heats up to working temperature, the cathode expels the helium again. That is the proof that, even when cold and at very low pressure like in an unpowered HeNe laser tube, helium *can* actually seep into some metals (aluminium, at the very least) and possibly other materials.
Basically, what I need is a series of advices, hints, suggestions, and information about equipment sources, in order to identify the most appropriate materials, components and equipment to work with helium at high temperature and pressure.
● Compressor - A compressor is needed in order to fill the equipment case at the required pressure. This is the only piece of equipment that does not need to withstand high temperatures (the filling is done only once, with ambient temp helium coming from a cylinder). There is more than a manufacturer of helium compressors, of course, but the problem is that the machines I found so far are huge, enormous industrial compressors, that deliver pressures and especially flows far exceeding our needs (they are intended to fill hundreds of high-pressure helium cylinders per day). We need a small helium compressor, able to exceed the 30 Bar final pressure required in the equipment case, but giving just a small flow, something similar in size and performances (pressure apart) to a domestic refrigerator compressor, or the compressors used with airbrushes in hobby modeling. I think that some small laboratory helium compressor could perhaps do the job, but it's not easy to find, also because I don't know if there are manufacturers specialized in lab helium equipment.
● Valves - Valves are required at the connection ports to evacuate air from the pressure case, and to fill it with helium after purging. On the web I found a few warnings against using valves not specifically designed to work with helium (like most ball valves) because that gas would slowly make its way through the valve, even if perfectly closed and airtight. As of this writing I could not find any ads about valves designed for hot helium. My question is: if I can't find any valve specifically advertised to work with hot helium, what type of valve should I look for, that works reliably under those conditions?
● Forbidden materials - Is there any material(s) that for any reason should NOT stay in contact with hot, pressurized helium?
● Sealing materials - Where there are threaded connections (purge/filling ports, instrumentation ports, to/from tubes towards the external heat exchanger etc.) I am not sure about what type of sealing materials should be used, or NOT used. Is the usual white Teflon tape for threaded connections good with hot helium? Or is there any specific grease or sealant to be used instead?
● Gaskets - Same as above. Are high-temperature FKM (Viton) gaskets adequate for working with hot helium, or should I look for some specific materials?...
Thank you very much in advance to everybody for any information or suggestion you can provide!
Hydrogen with steel, for example, seems to do worse things at room temperature: 
