Fabrication And Analysis Of Pin Fin Test Rig


EOI: 10.11242/viva-tech.01.05.013

Download Full Text here



Citation

Mr. Arpit Vaneshwar Gawad, Mr. Prathamesh Sudhakar Jangam, Mr. Siddesh Dilip Meher, Mr.Pranit Subhash Mhatre, "Fabrication And Analysis Of Pin Fin Test Rig", VIVA-IJRI Volume 1, Issue 6, Article 13, pp. 1-7, 2023. Published by Computer Engineering Department, VIVA Institute of Technology, Virar, India.

Abstract

The purpose of this study is originally to give an overview of the Fins and description of recent enhancement of fin shapes that increase the heat transfer rate. The ideal or main purpose of this design is to ameliorate the performance of the fins using different figure and material. In recent times, advance bias induce and dissipate tremendous quantum of heat & power. For numerous cooling operations these bias has come a major challenge. Aged style heat cesspools were frequently inadequate for cooling newer, hotter handlingfactors. So for determining optimum fin figure, we've considered different shapes (rectangular, circular, tapered, conical, parabolic etc.) and different material (copper, aluminium, mild steel, brass, stainless steel). Through analysis of different leg- fin shapes (combination of one of the shapes with different material), we've calculated heat transfer rate and optimized with all aspects to get advanced heat transfer rate. In the present work, trials have been conducted to find the temperature distribution within the leg fin made of different material and shapes and steady state heat transfer analysis has been carried using a finite element software ANSYS to test and validate results. The temperature distribution at different regions of leg fin are estimated by FEM and compared with the results attained by experimental and logical work. The principle enforced in this design is to increase the heat dispersion rate by using the unnoticeable working fluid, nothing but air. We know that, by adding the face area we can increase the heat dispersion rate. The main end of the design is to optimize the thermal properties by varying figure, material and consistence of fins.

Keywords

Pin-fin, Ammeter, Voltmeter, Temperature Indicator, Dimmer Stat, D.P Switches, Centrifugal Blower.

References

  1. M. Balakrishna, A. Punith Durga Prasad, D. Madhusudhan, CH. Sai Kiran, B. N. V. S. Lokesh Kumar, Experimental Analysis of Pin- Fin By Varying Geometry and Material, International Journal of Innovative Technology and Exploring Engineering (IJITEE) Vol. 9, no. 6, pp. 704-709, 2020.
  2. Mr. V.Durga Sateesh Jutta, Sri. Rajashekar, Heat Transfer Enhancement Using Pin Fin Apparatus, Vol. 6, no. 9, pp. 708-715, 2019.
  3. Anil Kumar Patil ,Vishwjeet Choudhary, Manoj Kumar, Experimental investigation of enhanced performance of pin fin heat sink with wings, pp. 546-562, 2019.
  4. K. Siva, S. Sivakumar, M. Mohanraj, Experimental thermodynamic analysis of a forced convection solar air heater using absorber plate with pin-fins, pp. 1-9,2018.
  5. Karan Sangaj, Sudarshan Shinde, Rameez Shane Taiwan, Apurva Potdar, Aditya Suryawanshi, “Thermal And Parametric Analysis Of Pin-Fin” International Research Journal of Engineering and Technology (IRJET) Vol. 5, no. 2, pp. 708-714, 2018.
  6. Manoj Dange, M S Deshmukh, Experimental Analysis of Cylindrical Staggered Pin Fin Heat Sink for Force Convective Heat Transfer Variation and its Enhancement International Journal of Latest Engineering Research and Applications (IJLERA) Vol. 02, no. 8, pp. 128-133,2017.
  7. Allan Harry Richard.T.L, Agilan.H, Experimental Analysis of Heat Transfer Enhancement Using Fins in Pin Fin Apparatus, International Journal Of Core Engineering & Management (IJCEM) Vol. 2, no. 1, pp. 123-132, 2015.
  8. Md. Abdul Raheem Junaidi, Raghavendra Rao, S. Irfan Sadaq, Mohd Moinuddin Ansari, Thermal Analysis of Splayed Pin Fin Heat Sink, International Journal of Modern Communication Technologies & Research (IJMCTR) Vol. 2, no. 4, pp. 48-53, 2014.
  9. Carlos A. Rubio-Jimenez, Satish G. Kandlikar, and Abel Hernandez-Guerrero, Numerical Analysis of Novel Micro Pin Fin Heat Sink With Variable Fin Density, Vol. 5, no. 5, pp. 825-833, 2012. 23
  10. M. Shaukatullah, Wayne R. Storr, Bernt J. Hansen, and Michael A. Gaynes, Design and Optimization of Pin Fin Heat Sinks for Low Velocity Applications, Vol. 19, no. 4, pp. 486-494, 1996.