Current research projects

Image Software modules
Image Tensile and compression testing
Image Reducing the filling quantity
Image Range of services laboratory analyses
Image Test procedures for electrical components
Image Behavior of multiphase cryogenic fluids
Image High Capacity Pulse Tube Cooler
Image Thermal engines
Image Energy efficiency consulting - cogeneration systems
Image Industry 4.0 membrane heat and mass exchanger (i-MWÜ4.0)
Image Verification of storage suitability of cryo tubes
Image Ice Slurry Generation
Image Ionocaloric cooling
Image Performance tests of condensing units
Image Testzentrum PLWP at ILK Dresden
Image Computational fluid dynamics CFD

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Innovative Parahydrogen Generator Based on Magnets

Euronorm GmbH

Erik Neuber

+49-351-4081-5122

Magnetic Gas Separation of the Hydrogen Isomers

Molecular hydrogen occurs in two isomeric forms which differ in their configuration of the nuclear spin: orthohydrogen and parahydrogen, whereas the latter accounts for only 25% of the whole gas at room temperature. Contrary to this, parahydrogen in its concentrated form is utilised especially for hyperpolarisation (so-called PHIP – Parahydrogen Induced Polarisation), which is a widespread method in the fields of medicine and chemistry to enhance the contrast of MRI and NMR apparatus.
However, all procedures for the production of this spin isomer are based upon cryogenic methods, which have comparatively high expenses for energy and maintenance. Because of this, there exists the demand for a cheap and efficient method to enrich parahydrogen for direct use in successive applications.

Project Goals

  • Development of an innovative ortho–para converter, which works at room temperature by using the principle of magnetic gas separation;
  • Measurement of the separation ability of the chosen principle at room temperature and optimisation of the resulting effect and
  • Enrichment up to 99% of parahydrogen at a variable volume flow (pursued are at least 4 standard litres per minute).

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Further Projects - Research and Development

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Investigation of material-dependent parameters

Investigation of the permeation behavior

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Cool Up

Upscaling Sustainable Cooling

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Ionocaloric cooling

Ionocaloric solid-liquid phase cooling process

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Low temperature – test facilities

thermal cycling tests at very low temperatures