Vacuum super insulated transfer lines in flexible and rigid construction.
We take over the project planning, production and installation of your cryogenic piping systems in vacuum super insulated design for the liquid gases nitrogen, oxygen, helium and argon.
Thanks to the super-insulation, even larger distances can be bridged economically. Our experienced engineers guarantee you safe and cost-saving operation of your cryogenic plants with our piping systems through the consistently applied modular principle. To ensure that cryogenic liquefied gas is always directly available at the point of use, components such as phase separators and gas phase separators are included in the scope of delivery.
Our solutions for the transfer of liquefied gases:
The transfer lines can be designed in various nominal widths with plug-in or welded couplings. Vacuum super insulated hand valves, pneumatic valves as well as pressure and level controls complete the range of the cryogenic piping system.
An overview of all Cryotherm cryotechnical products for transferring liquefied gases:
Superinsulated phase separation stations
- Economical with discontinuous withdrawal
- Keep the (shortest possible) line section between phase separator and tapping point constantly cold
- Low pressure at the tapping point (= geodetic height of the liquid column)
- Arrangement at any position in the pipe system
- Ideal for small consumers and/or numerous tapping points
- Emergency supply function
- Most selected separation system
- Electrical control
Convincing advantages:
- Safe shipping for medical-biological samples
- up to 44,880 sequins of 0.25 millilitres each
- low pressure at the tapping point (= geodetic height of the liquid column)
- Arrangement at any point in the pipe system
- ideal for small consumers and/or numerous tapping points
- emergency supply function
- Most-selected separation system
- electrical control
Technical data of the
phase separation station:
type | vertical | horizontal | |||
content, geometric (l) | 50 | 100 | 50 | 100 | 200 |
PN/Pmax. (barg.) | 1.5 / 3 | 1.5 / 3 | 1.5 / 3 | 1.5 / 3 | 1.5 / 3 |
weight, empty / full (kg) | 50 / 95 | 68 / 158 | 50 / 95 | 68 / 158 | 90 / 270 |
diameter, outside A (mm) | 340 | 450 | 450 | 550 | 650 |
B (mm) | - | - | 740 | 940 | 1100 |
C (mm) | 772 | 837 | 90 | 90 | 90 |
D (mm) | 1192 | 1312 | 650 | 750 | 772 |
E (mm) | 1360 | 1480 | 830 | 930 | 1380 |
F (mm) | 270 | 270 | 350 | 350 | 450 |
H (mm) | 350 | 350 | 350 | 350 | 450 |
filling connection | DN14 female | DN14 female | DN14 female | DN14 female | DN14 female |
take-out port | DN14 male | DN14 male | DN14 male | DN14 male | DN14 male |
exhaust connection | DN25 / 1" | DN25 / 1" | DN25 / 1" | DN25 / 1" | DN25 / 1" |
pressure control | electric | electric | electric | electric | electric |
To obtain and process pure liquid nitrogen for various applications, it may be necessary to use a phase separator.