Universal Journal of Mechanical Engineering Vol. 1(3), pp. 69 - 82
DOI: 10.13189/ujme.2013.010301
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Numerical Analysis of Transport Phenomenon inside a Pulse Tube Refrigerator Coupled with Fuzzy Logic Controller


S.K. Rout1, Ahmed Kadhim Hussein2,*, R.K. Sahoo1, S.K. Sarangi1, M. Hasanuzzaman3
1 Department of Mechanical Engineering, NIT Rourkela-769008, Odisha, India
2 Mechanical Engineering Department, College of Engineering, Babylon University, Babylon City, Iraq
3 UM Power Energy Dedicated Advanced Centre (UMPEDAC), Level 4, Wisma R&D, University of Malaya, 59990 Kuala Lumpur, Malaysia

ABSTRACT

This research article illustrates a numerical study of single stage coaxial as well as inline Inertance-Type Pulse Tube Refrigerator (ITPTR). In this present work a computational fluid dynamic (CFD) approach has been adopted for numerical simulation purpose. The detail analysis of cool down behaviour, heat transfer at the cold end and the pressure variation inside the whole system has been carried out by using the most powerful computational fluid dynamic software package FLUENT. A number of cases have been solved by changing the porosity of the regenerator from 0.5 to 0.9 while the rest of the considered parameter is remains unchanged. The operating frequency for all the studied cases is (34 Hz) while the other system dimensions and the boundary conditions are considered unchanged for all cases. The results show that the porosity value of (0.6) produces a better cooling effect on the cold end of the pulse tube refrigerator. The variations of the pressure inside the pulse tube refrigerator during the process are also analysed. In this work an attempt has been made to make a thermally non-equilibrium model applied numerically to the porous region by considering two different energy equations to the solid matrix and for the fluid inside the porous medium and the results are compared with the thermally equilibrium model. In fact, to get an optimum parameter experimentally is a very tedious for iterance pulse tube refrigerator job, so that the CFD approach gives a better solution which is the main purpose of the present work. In the next part the fuzzy logic approach is applied to optimize the different component parameters that affect the cooling performance of the ITPTR. The investigation is performed with different design parameters such as the length and diameter of pulse tube and regenerator given as an input to the fuzzy controller while the output from the controller is the cold end temperature. The predicted optimum results have been verified by performing the confirmation tests.

KEYWORDS
Pulse Tube Refrigerator, Heat Exchanger, Porosity, Fuzzy Logic, CFD

Cite This Paper in IEEE or APA Citation Styles
(a). IEEE Format:
[1] S.K. Rout , Ahmed Kadhim Hussein , R.K. Sahoo , S.K. Sarangi , M. Hasanuzzaman , "Numerical Analysis of Transport Phenomenon inside a Pulse Tube Refrigerator Coupled with Fuzzy Logic Controller," Universal Journal of Mechanical Engineering, Vol. 1, No. 3, pp. 69 - 82, 2013. DOI: 10.13189/ujme.2013.010301.

(b). APA Format:
S.K. Rout , Ahmed Kadhim Hussein , R.K. Sahoo , S.K. Sarangi , M. Hasanuzzaman (2013). Numerical Analysis of Transport Phenomenon inside a Pulse Tube Refrigerator Coupled with Fuzzy Logic Controller. Universal Journal of Mechanical Engineering, 1(3), 69 - 82. DOI: 10.13189/ujme.2013.010301.