In this paper the experimental flow boiling heat transfer results of a minichannel are presented. A series of experiments was conducted to measure the heat transfer coefficients in a minichannel made of stainless steel (AISI 316) having an internal diameter of 1.7mm and a uniformly heated length of 220mm. R134a was used as working fluid and experiments were performed at two different system pressures corresponding to saturation temperatures of 27 °C and 32 °C. Mass flux was varied from 50 kg/m2 s to 600 kg/m2 s and heat flux ranged from 2kW/m2 to 156kW/m2. The test section was heated directly using a DC power supply. The direct heating of the channel ensured uniform heating and heating was continued until dry out was reached. The experimental results show that the heat transfer coefficient increases with imposed wall heat flux while mass flux and vapour quality have no considerable effect. Increasing the system pressure slightly enhances the heat transfer coefficient. The heat transfer coefficient is reduced as dryout is reached. It is observed that dryout phenomenon is accompanied with fluctuations and a larger standard deviation in outer wall temperatures.
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ASME 2009 Second International Conference on Micro/Nanoscale Heat and Mass Transfer
December 18–21, 2009
Shanghai, China
Conference Sponsors:
- Nanotechnology Institute
ISBN:
978-0-7918-4390-1
PROCEEDINGS PAPER
Flow Boiling Heat Transfer Characteristics of a Minichannel Up to Dryout Condition
Rashid Ali,
Rashid Ali
Royal Institute of Technology, Stockholm, Sweden
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Bjo¨rn Palm,
Bjo¨rn Palm
Royal Institute of Technology, Stockholm, Sweden
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Mohammad H. Maqbool
Mohammad H. Maqbool
Royal Institute of Technology, Stockholm, Sweden
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Rashid Ali
Royal Institute of Technology, Stockholm, Sweden
Bjo¨rn Palm
Royal Institute of Technology, Stockholm, Sweden
Mohammad H. Maqbool
Royal Institute of Technology, Stockholm, Sweden
Paper No:
MNHMT2009-18224, pp. 25-34; 10 pages
Published Online:
October 26, 2010
Citation
Ali, R, Palm, B, & Maqbool, MH. "Flow Boiling Heat Transfer Characteristics of a Minichannel Up to Dryout Condition." Proceedings of the ASME 2009 Second International Conference on Micro/Nanoscale Heat and Mass Transfer. ASME 2009 Second International Conference on Micro/Nanoscale Heat and Mass Transfer, Volume 2. Shanghai, China. December 18–21, 2009. pp. 25-34. ASME. https://doi.org/10.1115/MNHMT2009-18224
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