Development of a Flat-plate Cryogenic Oscillating Heat Pipe for Improving HTS Magnet Cooling

Natsume, Kyohei; Mito, T.; Yanagi, N.; Tamura, H.

doi:10.1016/j.phpro.2013.05.010

Cited by 14 publications

(6 citation statements)

References 5 publications

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“…Bo Jiao et al [70], successfully operated two cryogenic PHPs with 100 and 500mm adiabatic lengths with hydrogen as working fluid capable of transporting heat over a long distance. K. Natsume et al [102], successfully implemented a prototype of a PHP suitable for cooling HTS (High Temperature superconducting) magnets operating on cryogenic working fluids like Ne, H2 and N2. Luis Di.…”

Section: Cryogenicsmentioning

confidence: 99%

A Review on Pulsating Heat Pipes: Latest Research, Applications and Future Scope

Dave¹,

Dandale

Shrivastava

et al. 2021

Journal of Thermal Engineering

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Heat pipes have become popular as passive heat dissipation devices for many applications ranging from electronics to heat recovery in recent years. Pulsating Heat Pipe abbreviated as PHP is an exclusive category of a heat pipe which does have wick structure. It transfers heat between its evaporator and condenser sections due to the to and fro movement of working fluid caused due to the continuous change of phase taking place in it. Its operation involves combined hydrodynamic and thermodynamic effects causing the two-phase flow, making it difficult to fully understand it. Nevertheless, the PHPs have drawn the attention of investigators worldwide due to their simplicity in construction and a wide range of applications requiring high heat flux transfer. This review starts with a prologue of the attempts made by various investigators to explain the operation of PHPs through mathematical modeling. Later numerical simulations through Computational Fluid Dynamics of PHP performed by various investigators have been discussed. Review of latest experimental investigations performed on PHPs, is presented concisely in a tabular form. Novel concepts like the application of nanofluids, magnetic field and surfactant, applied for enhancing the performance of the PHPs have been discussed. At the end, applications of PHP and future scope have been discussed.

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Section: Cryogenicsmentioning

confidence: 99%

A Review on Pulsating Heat Pipes: Latest Research, Applications and Future Scope

Dave¹,

Dandale

Shrivastava

et al. 2021

Journal of Thermal Engineering

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show abstract

“…The effective thermal diffusivity and quick response enable oscillating heat pipe to make early detection of local temperature (Natsume et al, 2013). …”

Section: Figmentioning

confidence: 99%

Development of Flat Plate Oscillating Heat Pipe as a Heat Transfer Device

Mehta¹,

Mehta²

2017

Frontiers in Heat Pipes

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Heat transfer management is present issue which is progressively increasing importance in line with technology. Effective thermal management is needed to serve to the present trends of power & flux level of upcoming micro devices. This article describes the development of flat plate oscillating heat pipe (FP-OHP) as new entry in the family of two phase heat transfer system. As a unique heat transfer device, flat plate oscillating heat pipe has been considered have a smart prospect due to its advantages: simple fabrication methods & structure, low cost & outstanding heat transfer capability. The development of FP-OHP application is founded on the basis of experimental and theoretical research on two phase heat transfer in FP-OHP. With substantial expectation of FP-OHP application in the coming years, this article attempts to review the development of FP-OHP products. Simultaneously, some favorable and innovative applications of FP-OHP are also studied. This article is predicted to provide fundamental reference for future researcher.

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“…The hydrogen was used as working fluid, and an equivalent thermal conductivity that averages all cross sections of the OHP sheet reached 1,000 W/m•K. [11], [12] The cooling property of the element HTS coil was calculated by using the finite element method to confirm the effectiveness of the HTS coil that built in the OHP. Finally, it is planned to experiment on the element HTS coil, and to compare it with this numerical calculation.…”

Section: Enhancement Of Cooling Property Of Hts Coilmentioning

confidence: 99%

Highly Efficient Liquid Hydrogen Storage System by Magnetic Levitation Using HTS Coils

Mito

Kawagoe

Yanagi

et al. 2017

IEEE Trans. Appl. Supercond.

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Development of a Flat-plate Cryogenic Oscillating Heat Pipe for Improving HTS Magnet Cooling

Cited by 14 publications

References 5 publications

A Review on Pulsating Heat Pipes: Latest Research, Applications and Future Scope

A Review on Pulsating Heat Pipes: Latest Research, Applications and Future Scope

Development of Flat Plate Oscillating Heat Pipe as a Heat Transfer Device

Highly Efficient Liquid Hydrogen Storage System by Magnetic Levitation Using HTS Coils

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