Hybrid numerical models for predictions of thermofluid phenomena in engineering systems, with application to a loop heat pipe in steady operation

Author:

Atabaki Nima,Jesuthasan Nirmalakanth,Baliga Bantwal R. (Rabi)

Funder

Natural Sciences and Engineering Research Council of Canada

McGill University

Canadian Space Agency

Publisher

Elsevier

Reference134 articles.

1. A 1-D/2-D model and experimental results for a closed-loop thermosyphon with vertical heat transfer sections;Bernier;Int. J. Heat Mass Transf.,1992

2. A natural circulation model of the closed loop, two-phase thermosyphon for electronics cooling;Haider;ASME J. Heat Transfer,2002

3. Hybrid numerical methods combining segmented network and multidimensional models for simulating thermofluid systems;Lamoureux,2014

4. Hybrid numerical methods combining discretized multidimensional and segmented-quasi-one-dimensional models for simulating thermofluid systems;Lamoureux;Int. J. Num. Methods Heat Fluid Flow,2015

5. Experimental investigation of steady and transient operations of a single-phase closed-loop vertical thermosyphon;Lokhmanets;Int. J. Therm. Sci.,2019

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