A REVIEW OF EXPERIMENTAL STUDY AND CFD BASED SIMULATION OF CLOSED LOOP PULSATING HEAT PIPE

Monika Tiwari; Nilesh Diwakar

doi:10.29121/granthaalayah.v4.i7.2016.2619

Authors

Monika Tiwari Research Scholar, M.E. (Thermal Engg.), Department of Mechanical Engineering, Truba Institute of Engineering &Information Technology, Bhopal, (M.P.), INDIA
Dr. NileshDiwakar HOD,Department of Mechanical Engineering, Truba Institute of Engineering & Information Technology, Bhopal, (M.P.), INDIA

DOI:

https://doi.org/10.29121/granthaalayah.v4.i7.2016.2619

Keywords:

Oscillating Behavior, Cooling Fluid, Heat Pipe

Abstract [English]

Closed loop pulsating heat pipe is very effective tool for removal of heat from very small electronic devices. In this study various literature related to CLPHP are studied and various parameters that effect the performance of CLPHP. It was found from literature that length of pipe, Number of turns, cooling fluid effect the performance of pipe.

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References

Balkrishna Mehta, Sameer Khandekar, Taylor bubble-train flows and heat transfer in the context of Pulsating Heat Pipes, International Journal of Heat and Mass Transfer Science Direct 79 (2014) pp. 279–290.

M. Aboutalebi, A.M. NikravanMoghaddam, N. Mohammadi, M.B. Shafii, Experimental investigation on performance of a rotating closed loop pulsating heat pipe, International Communications in Heat and Mass Transfer Science Direct 45 (2013) pp 137–145. DOI: https://doi.org/10.1016/j.icheatmasstransfer.2013.04.008

Ching-Ming Chiang , Kuo-Hsiang Chien , Han-Ming Chen , Chi-Chuan Wang, Theoretical study of oscillatory phenomena in a horizontal closed-loop pulsating heat pipe with asymmetrical arrayed mini channel, International Communications in Heat and Mass Transfer Science Direct 39 (2012) pp. 923–930.

Alberto Garc , Antonio Viedma , Experimental study of mixed convection and pressure drop in helically dimpled tubes for laminar and transition flow , International Journal of Heat and Mass Transfer Science Direct 45 (2002) pp 5091–5105 DOI: https://doi.org/10.1016/S0017-9310(02)00215-6

B.I. Pavel, A.A. Mohamad, An experimental and numerical study on heat transfer enhancement for gas heat exchangers fitted with porous media, International Journal of Heat and Mass Transfer Science Direct 47 (23) (2004) pp .4939–4952.

J.P. Meyer , J.A. Olivier , Transitional flow inside enhanced tubes for fully developed and developing flow with different types of inlet disturbances , International Journal of Heat and Mass Transfer Science Direct (2010)

K. Yakut, B. Sahin, The effects of vortex characteristics on performance of coiled wire turbulators used for heat transfer augmentation, Applied Thermal Engineering Science Direct24 (16) (2004) pp 2427–2438. DOI: https://doi.org/10.1016/j.applthermaleng.2004.03.008

M. Rahimi, S.R. Shabanian, A.A. Alsairafi, Experimental and CFD studies on heat transfer and friction factor characteristics of a tube equipped with modified twisted tape inserts, Chemical Engineering and Processing: Process Intensification 48 (3) (2009) pp 762–770. DOI: https://doi.org/10.1016/j.cep.2008.09.007

Pedro G. Vicente b, Antonio Viedma a , Enhancement of laminar and transitional flow heat transfer in tubes by means of wire coil inserts , International Journal of Heat and Mass Transfer 50 (2007) Science Direct pp. 3176–3189

P. Promvonge, Heat transfer behaviors in round tube with conical ring inserts, Energy Conversion and Management 49 (1) (2008) pp. 8–15.

R. Sethumadhavan, M.R. Rao, Turbulent flow heat transfer and fluid friction in helical wire coil inserted tubes, International Journal of Heat and Mass Transfer Science Direct26 (12) (1983) pp. 1833–1845.

S. Eiamsa-ard, S. Rattanawong, P. Promvonge, Turbulent convection in round tube equipped with propeller type swirl generators, International Communications in Heat and Mass Transfer Science Direct36 (4) (2009) pp . 357–364.

S. Eiamsa-ard, S. Pethkool, C. Thianpong, P. Promvonge, Turbulent flow heat transfer and pressure loss in a double pipe heat exchanger with louvered strip inserts, International Communications in Heat and Mass Transfer Science Direct35 (2) (2008) pp. 120–129.

S.W. Chang, T.L. Yang, J.S. Liou, Heat transfer and pressure drop in tube with broken twisted tape insert, Experimental Thermal and Fluid Science 32 (2) (2007) pp 489–501. DOI: https://doi.org/10.1016/j.expthermflusci.2007.06.002

S.W. Chang, Y.J. Jan, J.S. Liou, Turbulent heat transfer and pressure drop in tube fitted with serrated twisted tape, International Journal of Thermal Sciences Science Direct46 (5) (2007) pp. 506–518.

S.K. Saha, Thermohydraulics of turbulent flow through rectangular and square ducts with axial corrugation roughness and twisted-tapes with and without oblique teeth, Experimental Thermal and Fluid Science 34 (6) (2010) pp. 744–752.

S.R. Shabanian ,CFD and experimental studies on heat transfer enhancement in an air coolerequipped with different tube inserts , International Communications in Heat and Mass Transfer Science Direct38 (2011) pp 383–390 DOI: https://doi.org/10.1016/j.icheatmasstransfer.2010.12.015

V. Kongkaitpaiboon, K. Nanan, S. Eiamsa-ard, Experimental investigation of heat transfer and turbulent flow friction in a tube fitted with perforated conical-rings, International Communications in Heat and Mass Transfer Science Direct37 (5) (2010) pp. 560–567.

V. Yakhot, S.A. Orszag, Renormalization group analysis of turbulence, I, Basic theory, Journal of Science Computer 1 (1) (1986) pp 3–51. DOI: https://doi.org/10.1007/BF01061452

Z. Zhang, D. Ma, X. Fang, X. Gao, Experimental and numerical heat transfer in a helically baffled heat exchanger combined with one three-dimensional finned tube, Chemical Engineering and Processing: Process Intensification 47 (9–10) (2008) pp. 1738–1743.