High heat flux flow boiling in silicon multi-microchannels. I. Heat transfer characteristics of refrigerant R236fa
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Publication:955583
DOI10.1016/J.IJHEATMASSTRANSFER.2008.03.006zbMath1154.80303OpenAlexW1482737903MaRDI QIDQ955583
Matteo Fabbri, Daniele Calmi, Bruno Agostini, John Richard Thome, Urs Kloter, Bruno Michel
Publication date: 20 November 2008
Published in: International Journal of Heat and Mass Transfer (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.ijheatmasstransfer.2008.03.006
Stefan problems, phase changes, etc. (80A22) Experimental work for problems pertaining to classical thermodynamics (80-05)
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Cites Work
- Hydrodynamic cavitation and boiling in refrigerant (R-123) flow inside microchannels
- Unstable and stable flow boiling in parallel microchannels and in a single microchannel
- Examination of heat transfer correlations and a model for flow boiling of R134a in small diameter tubes
- Heat transfer model for evaporation in microchannels. I: Presentation of the model
- Heat transfer model for evaporation in microchannels. II: Comparison with the database
- Characterization of diabatic two-phase flows in microchannels: Flow parameter results for R-134a in a 0.5mm channel
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