Experimental study on Pulsating Heat Pipe, P Venkataramana, V Mani Kumar, S Gouse Mohiddin (9786208445751) — Readings Books

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Home / Experimental study on Pulsating Heat Pipe
Experimental study on Pulsating Heat Pipe
Paperback

Experimental study on Pulsating Heat Pipe

P Venkataramana, V Mani Kumar, S Gouse Mohiddin
$156.99
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The PHP is made from brass with an outer diameter of 3 mm and an inner diameter of 2 mm. The parameters have been chosen for the variation in internal diameter, heat input, fill ratio, working fluid, and device orientation. The study employed aluminium oxide (Al2O3) and water nanofluids as chosen as working fluids, including varying volume concentrations of Al2O3 nanoparticles at 0.05%, 0.5%, and 1%. Experiments are carried out in the 0?, 30?, 45?, 60?, 75?, and 90? orientations with watt loads heat inputs ranging from 0 to 100 watts. The transient and steady-state experiments are conducted, and operating temperatures are measured using T-type thermocouples. The commercial CFD package of ANSYS FLUENT R15.0 solves the governing equations. The results reveal that the thermal resistance of aluminium oxide and water nanofluid was the lowest, 22% less than that of water.

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Format
Paperback
Publisher
LAP Lambert Academic Publishing
Date
15 May 2025
Pages
68
ISBN
9786208445751

The PHP is made from brass with an outer diameter of 3 mm and an inner diameter of 2 mm. The parameters have been chosen for the variation in internal diameter, heat input, fill ratio, working fluid, and device orientation. The study employed aluminium oxide (Al2O3) and water nanofluids as chosen as working fluids, including varying volume concentrations of Al2O3 nanoparticles at 0.05%, 0.5%, and 1%. Experiments are carried out in the 0?, 30?, 45?, 60?, 75?, and 90? orientations with watt loads heat inputs ranging from 0 to 100 watts. The transient and steady-state experiments are conducted, and operating temperatures are measured using T-type thermocouples. The commercial CFD package of ANSYS FLUENT R15.0 solves the governing equations. The results reveal that the thermal resistance of aluminium oxide and water nanofluid was the lowest, 22% less than that of water.

Read More
Format
Paperback
Publisher
LAP Lambert Academic Publishing
Date
15 May 2025
Pages
68
ISBN
9786208445751

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