Heat Transfer in a Loop Heat Pipe using Diamond-H2O Nanofluid
The main aim of this study is to enhance the thermal performance of loop heat pipe (LHP) charged with nanofluid as the working fluid. Thus, experiments are conducted to investigate heat transfer characteristics of using diamond-H2O nanofluid with nanoparticle mass concentration ranged from 0% to 3%...
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my.uniten.dspace-103922018-11-08T08:55:32Z Heat Transfer in a Loop Heat Pipe using Diamond-H2O Nanofluid Gunnasegaran, P. Abdullah, M.Z. Yusoff, M.Z. Kanna, R. The main aim of this study is to enhance the thermal performance of loop heat pipe (LHP) charged with nanofluid as the working fluid. Thus, experiments are conducted to investigate heat transfer characteristics of using diamond-H2O nanofluid with nanoparticle mass concentration ranged from 0% to 3% in a LHP as a working medium for heat input range from 20 W to 60 W. The three-dimensional model, laminar flow and heat transfer governing equations are solved using the finite volume method. The simulations are carried out with three-dimensional model based on the characterization of the working fluid inside the LHP to give an insight into the heat transfer and fluid flow mechanism. The LHP performance is evaluated in terms of temperature distributions and total thermal resistance of LHP. It is inferred that the temperatures obtained at all points in evaporator side of LHP charged with diamond-H2O nanofluid are lower and reach their steady state faster than LHP charged with pure water. At the constant heat input, test results showed the average decrease of 5.7%−10.8% at nanoparticle mass concentrations ranging from 0.5% to 3% in Rth of LHP as compared with pure water (0%). © 2018, © 2018 Taylor & Francis Group, LLC. 2018-11-07T08:10:36Z 2018-11-07T08:10:36Z 2018 Article 10.1080/01457632.2017.1363616 en |
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The main aim of this study is to enhance the thermal performance of loop heat pipe (LHP) charged with nanofluid as the working fluid. Thus, experiments are conducted to investigate heat transfer characteristics of using diamond-H2O nanofluid with nanoparticle mass concentration ranged from 0% to 3% in a LHP as a working medium for heat input range from 20 W to 60 W. The three-dimensional model, laminar flow and heat transfer governing equations are solved using the finite volume method. The simulations are carried out with three-dimensional model based on the characterization of the working fluid inside the LHP to give an insight into the heat transfer and fluid flow mechanism. The LHP performance is evaluated in terms of temperature distributions and total thermal resistance of LHP. It is inferred that the temperatures obtained at all points in evaporator side of LHP charged with diamond-H2O nanofluid are lower and reach their steady state faster than LHP charged with pure water. At the constant heat input, test results showed the average decrease of 5.7%−10.8% at nanoparticle mass concentrations ranging from 0.5% to 3% in Rth of LHP as compared with pure water (0%). © 2018, © 2018 Taylor & Francis Group, LLC. |
| format |
Article |
| author |
Gunnasegaran, P. Abdullah, M.Z. Yusoff, M.Z. Kanna, R. |
| spellingShingle |
Gunnasegaran, P. Abdullah, M.Z. Yusoff, M.Z. Kanna, R. Heat Transfer in a Loop Heat Pipe using Diamond-H2O Nanofluid |
| author_facet |
Gunnasegaran, P. Abdullah, M.Z. Yusoff, M.Z. Kanna, R. |
| author_sort |
Gunnasegaran, P. |
| title |
Heat Transfer in a Loop Heat Pipe using Diamond-H2O Nanofluid |
| title_short |
Heat Transfer in a Loop Heat Pipe using Diamond-H2O Nanofluid |
| title_full |
Heat Transfer in a Loop Heat Pipe using Diamond-H2O Nanofluid |
| title_fullStr |
Heat Transfer in a Loop Heat Pipe using Diamond-H2O Nanofluid |
| title_full_unstemmed |
Heat Transfer in a Loop Heat Pipe using Diamond-H2O Nanofluid |
| title_sort |
heat transfer in a loop heat pipe using diamond-h2o nanofluid |
| publishDate |
2018 |
| _version_ |
1644494963822559232 |
| score |
13.160551 |