Current research projects

Image Tensile and compression testing
Image Low temperature – test facilities
Image Multifunctional electronic modules for cryogenic applications
Image Cryogenic liquid piston pumps for cold liquefied gases like LIN, LOX, LHe, LH2, LNG, LAr
Image Innovative Manufacturing Technologies for Cryosorption Systems
Image Humidifier System for High-Purity Gases
Image Verification of storage suitability of cryo tubes
Image Performance tests of refrigerant compressors
Image All-in-one device for freeze-drying and production of biomaterial
Image Intelligent innovative power supply for superconducting coils
Image Refrigerants, lubricants and mixtures
Image Innovative small helium liquefier
Image Thermal engines
Image Computational fluid dynamics CFD
Image Tribological investigations of oil-refrigerant-material-systems
Image Panel with indirect evaporative cooling via membrane

You are here:  Home /  Research and Development


Micro fluidic expansion valve

PTJ (03ET1207A)

Dipl.-Ing. Sandra Tippmann

+49-351-4081-5131

Hahn-Schickard-Gesellschaft für angewandte Forschung e.V., Liebherr-Hausgeräte Ochsenhausen GmbH

for increasing of the efficiency of small and compact cooling units

Since the first household refrigerators and freezers were developed in the 1920s, the refrigerant has been expanded via a thin, meter-long capillary tube as a throttle (throttle capillary). Adjustable valves instead of the capillary tube, which enable precise adjustment of the cooling capacity, so-called expansion valves, have so far been reserved only for larger cooling systems due to the technical challenge with small cooling capacities.

The aim of this joint project was the development and analysis of an adjustable, energy and cost efficient microfluidic expansion valve on the basis of microsystems technologies for the use in small cooling units with a cooling capacity from 30 to 200 W. Thereby especially

  • the power consumption and
  • the necessary manufacturing resources have to be reduced.
  • At the same time advantages in the handling comfort for end-users and 
  • the cost structure have to be reached.

To achieve these objectives, microfluidic principles and technologies, as well as microsystems design and mounting technologies were used. This contained the selection of appropriate materials including the proof of its stability and durability to the occurring refrigerant-oil-mixtures. Furthermore, a control concept has been deflected and adapted to the properties of the micro expansion valve.

In this joint project, the first electronic micro-expansion valve was developed, which was specially adapted to the small cooling capacities of household refrigerators and freezers (approx. 30-200 W). The integration of functional patterns in conventional household refrigerators and freezers has shown that energy savings of approx. 4% compared to a throttle capillary can be achieved. On the 72 million household refrigerators and freezers available in Germany, this corresponds to an estimated electricity saving potential of 400,000 MWh per year or the annual electricity consumption of 250,000 people.


Your Request

Further Projects - Research and Development

Image

Behavior of multiphase cryogenic fluids

experimental und numerical investigations

Image

Innovative Parahydrogen Generator Based on Magnets

Magnetic Gas Separation of the Hydrogen Isomers

Image

Innovative cryogenic cooling system for the recondensation / liquefaction of technical gases up to 77 K

high performance efficiency, environmental friendliness, compactness, cost-effectiveness

Image

Intelligent innovative power supply for superconducting coils

Compact, powerful power supply with 4-quadrant converter

Image

Laseroptical measurement

PIV and LDA / PDA