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Experimental Heat Transfer
A Journal of Thermal Energy Generation, Transport, Storage, and Conversion
Volume 21, 2008 - Issue 3
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Original Articles

Visualization and Experimental Analysis of Fluid Behavior in Grooved Heat Pipes

R. Jacolot Laboratoire d'Etudes Thermiques, UMR CNRS ENSMA 6608, Chasseneuil Cedex, France
,
C. Romestant Laboratoire d'Etudes Thermiques, UMR CNRS ENSMA 6608, Chasseneuil Cedex, France
,
V. Ayel Laboratoire d'Etudes Thermiques, UMR CNRS ENSMA 6608, Chasseneuil Cedex, France
,
Y. Bertin Laboratoire d'Etudes Thermiques, UMR CNRS ENSMA 6608, Chasseneuil Cedex, France
&
J. Hugon Thalès Alenia Space, Cannes La Bocca Cedex, France
Pages 188-205 | Received 30 Aug 2007, Accepted 31 Jan 2008, Published online: 05 Jun 2008

Citations (9)

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Read on this site (1)

R. Bertossi, Z. Lataoui, V. Ayel, C. Romestant & Y. Bertin. (2009) Modeling of Thin Liquid Film in Grooved Heat Pipes. Numerical Heat Transfer, Part A: Applications 55:12, pages 1075-1095.
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Articles from other publishers (8)

Xidong Zhu, Yu Dong, Jianjie Cheng, Yao Yao, Jun Bao, Yu Wang & Jinxiang Liu. (2021) Numerical study on thermohydraulic behavior in evaporator section of wicked copper-water heat pipe at low superheat. IOP Conference Series: Earth and Environmental Science 680:1, pages 012074.
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Naimish S. Pandya, Akshaykumar N. Desai, Arun Kumar Tiwari & Zafar Said. (2021) Influence of the geometrical parameters and particle concentration levels of hybrid nanofluid on the thermal performance of axial grooved heat pipe. Thermal Science and Engineering Progress 21, pages 100762.
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Akshaykumar N. Desai, V. K. Singh & Rajesh N. Patel. (2019) Effect of Geometrical Parameters on the Thermal Performance of Ammonia-Based Trapezoidal-Shaped Axial Grooved Heat Pipe. Journal of Heat Transfer 141:12.
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In Guk Kim, Kyung Mo Kim, Yeong Shin Jeong & In Cheol Bang. (2017) Flow visualization and heat transfer performance of annular thermosyphon heat pipe. Applied Thermal Engineering 125, pages 1456-1468.
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Massimo Furrer, Luca Saraceno, Andrea Mariani & Gian Piero Celata. (2016) Evaporating flow experimental tests in small square open channels. International Journal of Thermal Sciences 108, pages 195-208.
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Mobin Arab & Ali Abbas. (2014) A model-based approach for analysis of working fluids in heat pipes. Applied Thermal Engineering 73:1, pages 751-763.
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Massimo Furrer, Luca Saraceno, Andrea Mariani & Gian Piero Celata. (2013) Capillary pressure influence on open channels pressure drop. International Journal of Thermal Sciences 70, pages 102-113.
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Gianfranco Canti, Gian Piero Celata, Maurizio Cumo, Massimo Furrer & Luca Saraceno. (2012) Effect of droplets generation in the boiling limit conditions: Heat pipe visualization. International Journal of Thermal Sciences 52, pages 1-7.
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