Advanced search
Publication Cover
Experimental Heat Transfer
A Journal of Thermal Energy Generation, Transport, Storage, and Conversion
Volume 23, 2010 - Issue 2
Submit an article Journal homepage
616
Views
36
CrossRef citations to date
0
Altmetric
Original Articles

Two-Phase Closed-Loop Thermosyphon for Electronic Cooling

C.-C. Chang Department of Mechanical Engineering, National Taiwan University, Taipei, Taiwan
,
S.-C. Kuo Department of Mechanical Engineering, National Taiwan University, Taipei, Taiwan
,
M.-T. Ke Department of Energy and Refrigerating Air-Conditioning Engineering, National Taipei University of Technology, Taipei, Taiwan
&
S.-L. Chen Department of Mechanical Engineering, National Taiwan University, Taipei, Taiwan
Pages 144-156 | Received 11 Nov 2008, Accepted 14 May 2009, Published online: 18 Mar 2010

Citations (36)

Keep up to date with the latest research on this topic with citation updates for this article.

Subscribe to citation updates

Read on this site (1)

Maziar Mohammadi, Mehdi Taslimifar, Mohammad Hassan Saidi, Mohammad Behshad Shafii, Hossein Afshin & Siamak Kazemzadeh Hannani. (2014) Ferrofluidic Open Loop Pulsating Heat Pipes: Efficient Candidates for Thermal Management Of Electronics. Experimental Heat Transfer 27:3, pages 296-312.
Read now

Articles from other publishers (35)

Yurong Yang, Shixue Wang, Yu Zhu & Guoyin Zhang. (2023) Experimental study on heat transfer characteristics of the phase change chambers for heat flux enhancement. International Journal of Heat and Mass Transfer 217, pages 124675.
Crossref
Abolfazl Maleknezhad, Amirreza Ghahremani & Mohammad Behshad Shafii. (2023) Experimental investigation of electricity generation from geyser boiling of working fluid during thermal performance of the thermosyphon heat pipe. International Communications in Heat and Mass Transfer 149, pages 107144.
Crossref
Kathan Gajjar & Huei-Ping Huang. (2023) Conjugate heat transfer for single phase immersion cooling of CPU. Case Studies in Thermal Engineering 52, pages 103728.
Crossref
Manuel Vincent, Omidreza Ghaffari, Yaser Nabavi Larimi, Francis Grenier, Simon Jasmin, Luc Fréchette & Julien Sylvestre. (2023) Experimental investigation of the thermal resistance of advanced two-phase thermosyphon heatsinks. Applied Thermal Engineering, pages 122108.
Crossref
Abolfazl Maleknezhad, Amirreza Ghahremani & Mohammad Behshad Shafii. (2023) Simultaneous power generation and heat recovery within a novel thermosyphon heat pipe: An experimental study and correlation development. Case Studies in Thermal Engineering, pages 103482.
Crossref
Jianxun Chen, Jinping Liu, Xiongwen Xu, Lingjiao Liang & Yinhao Yu. (2023) Criteria for evaluating working fluids in loop gravity-assisted heat systems. Korean Journal of Chemical Engineering 40:9, pages 2128-2137.
Crossref
Ahmad F. Zueter, Muhammad S.K. Tareen, Greg Newman & Agus P. Sasmito. (2023) Dynamic CFD modeling coupled with heterogeneous boiling for deep two phase closed thermosyphons in artificial ground freezing. International Journal of Heat and Mass Transfer 203, pages 123781.
Crossref
Enzo M. Minazzo, Gautier Rouaze, Jackson B. Marcinichen, John R. Thome & L. Winston Zhang. (2022) Air-Cooled Closed Loop Thermosyphon Cooling System Experimental Campaign: Effects of Working Fluid, Heat Load and Air Flow Rate. Air-Cooled Closed Loop Thermosyphon Cooling System Experimental Campaign: Effects of Working Fluid, Heat Load and Air Flow Rate.
R.S. Anand, C.P. Jawahar, A. Brusly Solomon, Evangelos Bellos & X. Ajay Vasanth. (2022) Experimental investigation of a two-phase closed thermosyphon with Al 2 O 3 /R134a nanorefrigerant . Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, pages 095440892210939.
Crossref
Kuiming Wang, Chengzhi Hu, Bo Jiang, Xianfeng Hu & Dawei Tang. (2022) Numerical simulation on the heat transfer characteristics of two-phase loop thermosyphon with high filling ratios. International Journal of Heat and Mass Transfer 184, pages 122311.
Crossref
Ahmed Elkholy, Can Unlusoy & Roger Kempers. (2022) Thermal performance of a two-phase loop thermosyphon with an additively manufactured evaporator. Applied Thermal Engineering 202, pages 117692.
Crossref
Vijay Kumar, Manabendra Pathak & Mohd. Kaleem Khan. (2022) Heat Transfer Characteristics of a Closed-Loop Two-Phase Thermosyphon System With a Structured Heating Surface. Journal of Thermal Science and Engineering Applications 14:1.
Crossref
Jingyu Cao, Zhanying Zheng, Muhammad Asim, Mingke Hu, Qiliang Wang, Yuehong Su, Gang Pei & Michael K.H. Leung. (2020) A review on independent and integrated/coupled two-phase loop thermosyphons. Applied Energy 280, pages 115885.
Crossref
A. Elkholy & R. Kempers. (2020) Experimental investigation of geyser boiling in a small diameter two-phase loop thermosyphon. Experimental Thermal and Fluid Science 118, pages 110170.
Crossref
Felipe Valenzuela & Alfonso Ortega. (2020) A Novel Heat Exchanger Effectiveness Approach for Exploring Performance Limits of Two-Phase Mini-Channel Boilers. A Novel Heat Exchanger Effectiveness Approach for Exploring Performance Limits of Two-Phase Mini-Channel Boilers.
Chiara Falsetti, Raffaele L. Amalfi, Todd Salamon, Jackson B. Marcinichen & John R. Thome. (2020) Experimental Analysis of the Condenser Design in a Thermosiphon System for Cooling of Telecommunication Electronics. IEEE Transactions on Components, Packaging and Manufacturing Technology 10:6, pages 963-973.
Crossref
K Gopi Kannan & R Kamatchi. (2020) Augmented heat transfer by hybrid thermosyphon assisted thermal energy storage system for electronic cooling. Journal of Energy Storage 27, pages 101146.
Crossref
Xiaoxu Cai, Shugang Wang, Jihong Wang, Tengfei Zhang & Xiaozhou Wu. 2020. Proceedings of the 11th International Symposium on Heating, Ventilation and Air Conditioning (ISHVAC 2019). Proceedings of the 11th International Symposium on Heating, Ventilation and Air Conditioning (ISHVAC 2019) 769 780 .
Trijo TharayilNeha GittyLazarus Godson AsirvathamSomchai Wongwises. (2019) Effect of Filling Ratio and Tilt Angle on the Performance of a Mini-Loop Thermosyphon. Journal of Thermal Science and Engineering Applications 11:6.
Crossref
Leigang Zhang, Bo Xu, Juan Shi & Zhenqian Chen. (2019) Experimental study on condensation heat transfer of FC-72 in a narrow rectangular channel with ellipse-shape pin fins: Ground and microgravity experiments. International Journal of Heat and Mass Transfer 141, pages 1272-1287.
Crossref
Chiara Falsetti, Raffaele L. Amalfi, Todd Salamon, Jackson B. Marcinichen & John R. Thome. (2019) Experimental Characterization of Different Condenser Technologies in a Passive Two-Phase Cooling System for Thermal Management of Electronics. Experimental Characterization of Different Condenser Technologies in a Passive Two-Phase Cooling System for Thermal Management of Electronics.
Vasco Abreu, Matthew Harrison, Joshua Gess & Ana S. Moita. (2018) Two-Phase Thermosiphon Cooling Using Integrated Heat Spreaders With Copper Microstructures. Two-Phase Thermosiphon Cooling Using Integrated Heat Spreaders With Copper Microstructures.
Nicolas Lamaison, Raffaele L. Amalfi, Todd Salamon, Jackson B. Marcinichen & John R. Thome. (2018) Role of a Liquid Accumulator in a Passive Two-Phase Liquid Cooling System for Electronics: Experimental Analysis. Journal of Electronic Packaging 140:1.
Crossref
S. Jengsooksawat, S. Rittidech & K. Booddachan. (2018) Loop Thermosyphon with Vapor Chamber Installation for Energy Thrift in a Chilli Oven. Journal of Engineering Thermophysics 27:1, pages 119-135.
Crossref
JacksonB. Marcinichen, Raffaele L. Amalfi, Nicolas Lamaison, Todd Salamon & John R. Thome. (2017) Two-phase liquid cooling system for electronics, part 4: Modeling and simulations. Two-phase liquid cooling system for electronics, part 4: Modeling and simulations.
Nicolas Lamaison, Chin Lee Ong, Jackson B. Marcinichen & John R. Thome. (2017) Two-phase mini-thermosyphon electronics cooling: Dynamic modeling, experimental validation and application to 2U servers. Applied Thermal Engineering 110, pages 481-494.
Crossref
Moundheur Zarroug, Peter Lundberg & Fariba Bahrami. (2016) An analysis of the relaxation oscillations of a nonlinear thermosyphon. International Journal of Non-Linear Mechanics 87, pages 137-152.
Crossref
Nicolas Lamaison, Jackson B. Marcinichen, Chin Lee Ong & John R. Thome. (2016) Two-phase mini-thermosyphon electronics cooling, Part 4: Application to 2U servers. Two-phase mini-thermosyphon electronics cooling, Part 4: Application to 2U servers.
Nicolas Lamaison, Jackson B. Marcinichen, Chin Lee Ong & John R. Thome. (2016) Two-phase mini-thermosyphon electronics cooling, Part 3: Transient modeling and experimental validation. Two-phase mini-thermosyphon electronics cooling, Part 3: Transient modeling and experimental validation.
Jackson B. Marcinichen, Nicolas Lamaison, Chin L. Ong & John R. Thome. (2016) Two-phase mini-thermosyphon electronics cooling, Part 2: Model and steady-state validations. Two-phase mini-thermosyphon electronics cooling, Part 2: Model and steady-state validations.
Chin Lee Ong, Nicolas Lamaison, Jackson B. Marcinichen & John R. Thome. (2016) Two-phase mini-thermosyphon electronics cooling, Part 1: Experimental investigation. Two-phase mini-thermosyphon electronics cooling, Part 1: Experimental investigation.
Miguel Moura, Emanuele Teodori, Ana S. Moita & Antonio L.N. Moreira. (2016) 2 phase microprocessor cooling system with controlled pool boiling of dielectrics over micro-and-nano structured Integrated Heat Spreaders. 2 phase microprocessor cooling system with controlled pool boiling of dielectrics over micro-and-nano structured Integrated Heat Spreaders.
Shwin-Chung Wong & Jhong-Cing Huang. (2016) RETRACTED: Visualization experiments on the condensation process in the vertical tube condenser of a loop thermosyphon. International Journal of Heat and Mass Transfer 92, pages 948-956.
Crossref
Jackson B. Marcinichen, Sylwia Szczukiewicz, Nicolas Lamaison & John R. Thome. (2014) Towards development of a passive datacenter cooling technology: On-server thermosyphon cooling loop under dynamic workload. Towards development of a passive datacenter cooling technology: On-server thermosyphon cooling loop under dynamic workload.
S. Jengsooksawat, S. Rittidech & K. Booddachan. (2015) Loop Thermosyphon with Vapour Chamber: A Thermodynamic Study. Advances in Mechanical Engineering 6, pages 487191.
Crossref

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.