Abstract
In order to improve a refrigeration system’s energy efficiency, the separation efficiency of its oil separator should be improved. To do so, we turned to nature for inspiration. A Namib Desert beetle collects water in fog by using its skin, which combines hydrophilic and hydrophobic surfaces. Inspired by nature’s design, we applied a surface with oleophilic and oleophobic patterns to an oil separator used in a refrigeration system. In order to make the oil separator, an appropriate design was established using computational fluid dynamics. A cyclone-type oil separator was produced with an oleophobic-treated surface on its lower cup. The efficiency of the treated surface of this oil separator was tested with an open-type experimental setup using an oil mist generator. To obtain conditions similar to those of a refrigeration system in the open-type experimental setup, the oil particle diameter and working fluid pressure were set to yield a Stokes number similar to that of oil particles in the oil separator of the refrigeration system. The oil separator with the treated oleophilic–oleophobic surface improved its oil separation efficiency by 1.67% and its pressure drop by 2.48% compared to a conventional cyclone-type oil separator.
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Abbreviations
- D :
-
Cyclone diameter [m]
- d p :
-
diameter [m]
- Q d :
-
Amount of oil remaining in the oil mist generator [mL]
- Q t :
-
Amount of oil trapped in the oil separator [mL]
- Q :
-
Flow rate of gas and oil [m/s]
- Stk :
-
Stokes number
- x ef :
-
Oil separation efficiency
- µ g :
-
Viscosity of gas [kg/ms]
- ρ g :
-
Density of gas [kg/m]
- ρ p :
-
Density of particle [kg/m]
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Jang, S., Ahn, J. & Lim, S.H. Performance of oil-separator adopting nature-inspired surface. Int. J. Precis. Eng. Manuf. 16, 2205–2211 (2015). https://doi.org/10.1007/s12541-015-0284-x
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DOI: https://doi.org/10.1007/s12541-015-0284-x