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Development of advanced scientific technologies, investigations in the field of fundamental physics, power engineering, superconductivity, cosmonautics and instrument-making industry have predetermined the need of the national economy for cryogenic helium systems. Cryogenmash is one of the pioneers of their practical creation and application. We have created the base for development of new helium systems of an arbitrary configuration on the basis of our own scientific and technical achievements, verified practically.
Today the enterprise is ready to execute a full complex of activities on development, manufacture, putting into operation of the equipment of the following helium systems:
- Helium liquefiers producing 200 to 2400 l/hour;
- Refrigerators with cold capacities from 50 to 3000 W at 20 1,5 Ê° temperature;
- Cryostats of volumes up to 100 m3 and over, including those with current leads;
- Cryogenic helium reservoirs 1.25; 16 and 40 m3 in volume, with highly efficient insulation and nitrogen screens;
- Cryogenic shells of superconducting cables of rigid and flexible designs;
- Cryogenic equipment for superconducting electric motors and generators, energy storages and magnetohydrodynamic generators with superconducting magnets;
- Systems of compression, purification and utilization of helium, heat exchange apparatuses, turboexpanders and valves.
At Customers' request, with due regard for all their requirements, the specialists of Cryogenmash are ready to prepare a technical and commercial proposal for a cryogenic system or a required helium equipment.
Cryogenmash has executed a large complex of R&D works and delivered cryogenic supply helium systems for a number of scientific centers.
The cryogenic helium equipment made by Cryogenmash is supplied to customers at maximum mounting readiness; it is successfully operated both in Russia and abroad.
Brief Reference List
| Customer |
Description of cryogenic systems. Equipment
| Date |
|
ÒÎÊÀÌÀÊ-7 Cryostat with superconducting magnet system. Helium refrigerator, capacity 180 l/hr, |
1974-77 ãã. |
| Research Power Engineering Institute ENIN, Moscow |
ÑÏÊ-100, ÃÑÏÊ-50 Cryogenic equipment for pilot superconducting cables of rigid and flexible designs. |
1975-76 ãã. |
| Kurchatov Institute of Atomic Energy, Moscow |
Test stand for magnet systems ÑÈÌÑ Helium cryogenic system ÒÎÊÀÌÀÊ-15 |
1978-82 ãã. |
| High Temperature Institute of Academy of Sciences, Moscow |
Cryogenic system of ÌÃÄÝÑ-100 generator rated at 100 ÌW. |
1984-86 ãã. |
| Institute of High Energy Physics, Protvino |
Cryogenic system of magnet calibration stand ÓÍÊ |
1987-90 ãã. |
| Institute of Nuclear Physics, Novosibirsk |
Cryogenic system of accelerator ÂÝÏÏ-4 |
1990-96 ãã. |
| Geneva, CERN |
ËÝÏ-200 Cryogenic pipelines of accelerator LEP to supply liquid helium to cavities. |
1992-96 ãã. |
| Indian Space Centre SHAR. India |
Helium fine purification system with low-temperature purification unit ÍÎ-10/70 (10 kg/hr at 70 Ê) |
1996-98 ãã. |
| India IREL, Kalpakam |
Set of equipment of helium liquefier ÎÃ-300 Unit of oil purification and drying of helium. |
2002-2005 ãã. |
| Institute of High Energy Physics IHEP, Protvino |
Set of superfluid helium pipelines for cooling power supply devices of magnetic field correction. |
2004 ã. |
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