Experimental research on boiling heat transfer mechanism of a pump-driven loop thermosiphon for R134a coolant

Author:

Ding Tao,Chen Xiaoxuan,Zhao Tian,Zhu Chaoyi,Zhang Hainan,Li Zhen

Funder

National Natural Science Foundation of China

National Key Research and Development Program of China

Publisher

Elsevier BV

Reference27 articles.

1. Experimental investigation on flow boiling heat transfer and pressure drop of HFC-134a inside a vertical helically coiled tube;Aria;Heat Transfer Eng.,2012

2. Evaporation heat transfer and friction characteristics of R-134a flowing downward in a vertical corrugated tube;Aroonrat;Exp. Therm Fluid Sci.,2011

3. Basu S, Ndao S, Michna G J, et al. Flow boiling of R134a in circular microtubes—Part I: study of heat transfer characteristics. 2011.

4. Research on the refrigerant distribution and distinctive flow phenomena in a two-phase loop thermosyphon through a holistic visualization method;Cao;Int. J. Refrig,2021

5. Novel energy recovery systems for the efficient cooling of data centers using absorption chillers and renewable energy resources. 13th intersociety conference on thermal and thermomechanical phenomena in electronic systems;Chiriac;IEEE,2012

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