Current research projects

Image Range of services laboratory analyses
Image Refrigerants, lubricants and mixtures
Image Energy efficiency consulting - cogeneration systems
Image Optimizing HVAC operation with machine learning
Image Verification of storage suitability of cryo tubes
Image Intelligent innovative power supply for superconducting coils
Image Lifetime prediction of hermetic compressor systems
Image Electrochemical decontamination of electrically conducting surfaces „EDeKo II“
Image Investigation of coolants
Image Service offer for Leak Detection and Tightness Test
Image Calibration leak for the water bath leak test
Image Humidifier System for High-Purity Gases
Image Cool Up
Image Testzentrum PLWP at ILK Dresden
Image 3D - Air flow sensor
Image Hybrid- Fluid for CO2-Sublimation Cycle

You are here:   /  Home


Development of a Cryogenic Magnetic Air Separation Unit

Federal Ministry for Economic Affairs and Climate Action

02/2022-07/2024

Erik Neuber

+49-351-4081-5122

Oxygen Enrichment by Applied Cryogenic Magnetohydrodynamics

Nowadays, for oxygen enrichment from air, various commercial options are available, among other things, pressure swing adsorption, cryogenic rectification, and membranes. Although well-established, most of these methods do have a relative high specific energy demand for small-to-medium production rates (in this context: 0–100 TPD (tonnes per day) of oxygen) and relative high purities (at least 90 vol% of oxygen) [1].

To close this gap, ILK Dresden intends to develop and optimise an efficient cryogenic magnetic air separation unit that enables oxygen enrichment by means of OGMS (open-gradient magnetic separation). Motivated by provisional first-shot experiments, for a first setup, the following parameters are being targeted:

  • Operating pressure: 1–3 bar(a);
  • Degree of purity: 95 vol% oxygen;
  • Production rate: 5 standard l/min oxygen;
  • Specific energy demand: 160–180 kWh/t oxygen;
  • Required time for start-up: 30–60 min;
  • Continuous operation;
  • Less maintenance requirements than pressure swing adsorption;
  • Comparable space requirements as pressure swing adsorption.

Moreover, based on the experimental results, the scalability of the system for higher production rates of up to 100 TPD oxygen shall be analysed.

For this patented technology, ILK Dresden is looking for industrial partners that have interest in financial participation, specific applications, or further developments.

Granted Patent:

DE 10 2021 109 146 A1


Your Request

Further Projects