Current research projects

Image Performance tests of refrigerant compressors
Image Innovative Manufacturing Technologies for Cryosorption Systems
Image Non- invasive flow measurements
Image State of system and failure analyses
Image Humidifier System for High-Purity Gases
Image Service offer for Leak Detection and Tightness Test
Image Tribological investigations of oil-refrigerant-material-systems
Image Optimizing HVAC operation with machine learning
Image Range of services laboratory analyses
Image Behavior of multiphase cryogenic fluids
Image Cryogenic liquid piston pumps for cold liquefied gases like LIN, LOX, LHe, LH2, LNG, LAr
Image Preformance measurements of heat exchangers
Image Ice Slurry Generation
Image Thermal engines
Image In-Situ-Swelling Behaviour of Polymer Materials in Flammable Fluids
Image Pulse-Tube-Refrigerator with sealed compressor

You are here:  Home /  Research and Development


Swirl-free on the move...

2019-2021

Christian Friebe

+49-351-4081-5313

project started

CFturbo

...with a contra-rotating fan

In many areas centrifugal fans are used for conveying air. Depending on the installation situation and requirements, the use of a housingless fan, a so-called free-running impeller, can be feasabile. A typical application is, for example, the air conditioning unit (see Figure 1). A disadvantage is the functionally swirling discharge from the impeller. This may lead to poorer acoustics, more pressure loss and lower performance in downstream components such as filters, silencers or heat exchangers.

According to the state of the art, the swirl can be removed from the flow by various means. On the one hand, the use of a spiral housing is possible, on the other hand, the use of discharge guidevanes are possible. The volute casing contradicts the purpose of the free-running impeller and still has a high air speed at the outlet. Both the volute casing and the guide vanes can both help to convert the existing dynamic pressure from the impeller into usable static pressure, but neither is capable of transferring additional energy to the fluid.
Therefore, the task of this research project is to create a swirl-free outflow from an impeller using a new type of contra-rotating impeller. The mode of operation shown in Figure 2 is based on the speed triangles of the two counter-rotating impellers.
On the basis of a speed and volume flow dependent coordination of the two impellers with each other, a shock-free flow is achieved with the contra-rotating design of the second impeller and the relative speed w is further decelerated. Due to the existing pre-swirl, a swirl-free pressure reduction can be achieved despite the reduction in speed.

The following subtasks must be clarified in order to successfully deal with the topic:

  • Design, tuning and optimization of the impellers
  • Development of a suitable drive concept
  • Reduction of leakage in the gap between the two impellers
  • Optimization of the acoustic properties
  • Development of a swirl detector for the control of the fan

The use of a contra-rotating centrifugal fan provides the following advantages:

  • A swirl-free outflow for higher static efficiency, comparable to a housing or a guide vane
  • Optimum flow to the downstream components from a thermodynamic and flow mechanics point of view
  • Optimum efficiency by adjusting the speeds
  • Greater performance with the same construction volume

Your Request

Further Projects - Research and Development