Investigation of Entropy Generation Through the Operation of an Unlooped Pulsating Heat Pipe

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JAFARMADAR S.; f. Mobadersani; MIRZAEE I.

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Journal Paper

Paper Information

Journal: International Journal of Engineering Year:2016 | Volume:29 | Issue:8 (TRANSACTIONS B: Applications) Page(s): 1151-1159

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Title

Investigation of Entropy Generation Through the Operation of an Unlooped Pulsating Heat Pipe

Author(s)

JAFARMADAR S. | f. Mobadersani | MIRZAEE I. | Issue Writer Certificate

Keywords

Pulsating Heat Pipe

Unlooped

Second Law of Thermodynamics

Entropy Generation

Numerical Analysis

Abstract

In the present study, an Unlooped Pulsating Heat Pipe has been considered with two liquid slugs and three neighboring vapor plugs. The governing equations including momentum, energy and mass equations are solved explicitly, with the exception of the energy equation of liquid slugs. The aim of the present study is to calculate the Entropy Generation through the performance of a Pulsating Heat Pipe. Additionally, the effects of different pipe diameters and evaporator temperatures have been investigated. Besides, Bejan number has been derived for each case study to investigate the share of heat transfer in Entropy Generation. The results show that by increasing the pipe diameter, the sensible and latent heat transferred into the Pulsating Heat Pipe enhance and the liquid slugs oscillate at high amplitudes. On the other hand, the Entropy Generation value increases as the pipe diameter increases. The evaluated Bejan numbers show that the share of viscous effects in Entropy Generation decreases with increasing pipe diameter. Previous studies have reported that there is a threshold of Pulsating Heat Pipe diameter to operate. However, the results of the present work demonstrate that the use of Pulsating Heat Pipes are not feasible in small diameters. Moreover, the results show that the heat removing performance of Pulsating Heat Pipe improves as the temperature difference of the evaporator and condenser increases. Ourresults demonstrate increments in total Entropy Generation in high evaporator temperatures. Moreover, the Bejan number will increase by any increment in the evaporator temperature and this phenomenon reveals the insignificant role of viscous effects in high evaporator temperatures. To validate the calculations, the results have been compared to those of the previous works. This comparison shows very good agreement.

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APA: Copy

JAFARMADAR, S., f., Mobadersani, & MIRZAEE, I.. (2016). Investigation of Entropy Generation Through the Operation of an Unlooped Pulsating Heat Pipe. INTERNATIONAL JOURNAL OF ENGINEERING, 29(8 (TRANSACTIONS B: Applications)), 1151-1159. SID. https://sid.ir/paper/723910/en

Vancouver: Copy

JAFARMADAR S., f. Mobadersani, MIRZAEE I.. Investigation of Entropy Generation Through the Operation of an Unlooped Pulsating Heat Pipe. INTERNATIONAL JOURNAL OF ENGINEERING[Internet]. 2016;29(8 (TRANSACTIONS B: Applications)):1151-1159. Available from: https://sid.ir/paper/723910/en

IEEE: Copy

S. JAFARMADAR, Mobadersani f., and I. MIRZAEE, “Investigation of Entropy Generation Through the Operation of an Unlooped Pulsating Heat Pipe,” INTERNATIONAL JOURNAL OF ENGINEERING, vol. 29, no. 8 (TRANSACTIONS B: Applications), pp. 1151–1159, 2016, [Online]. Available: https://sid.ir/paper/723910/en

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