Saturated pool boiling enhancement using porous lattice structures produced by Selective Laser Melting
Pool boiling heat transfer of saturated FC-72 under atmospheric pressure was studied for porous lattice structures fabricated using the Selective Laser Melting (SLM) technique. The substrates possess repeating geometry of octet-truss unit cell and were varied with unit cell sizes of 2.0 mm, 3.0 mm a...
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sg-ntu-dr.10356-1044902023-03-04T17:20:53Z Saturated pool boiling enhancement using porous lattice structures produced by Selective Laser Melting Wong, Kin Keong Leong, Kai Choong School of Mechanical and Aerospace Engineering Singapore Centre for 3D Printing Nucleate Pool Boiling Porous Media Engineering::Mechanical engineering Pool boiling heat transfer of saturated FC-72 under atmospheric pressure was studied for porous lattice structures fabricated using the Selective Laser Melting (SLM) technique. The substrates possess repeating geometry of octet-truss unit cell and were varied with unit cell sizes of 2.0 mm, 3.0 mm and 5.0 mm and structure heights of 2.5 mm, 5.0 mm and 10.0 mm. In comparison with a plain surface, the porous structures show significant enhancement in nucleate boiling heat transfer coefficients and delay of Critical Heat Flux (CHF). The enhancement is attributed to the increased surface area, increased nucleation site density and capillary-assisted suction of the porous structure. The porous structure allows sustained liquid replenishment which delayed the hydrodynamic choking and CHF significantly. The best performing substrate with the 3-mm unit cell size and 5-mm structure height has an average nucleate boiling heat transfer coefficient of 1.35 W/cm2·K, which is 2.81 times that of the plain surface at 0.48 W/cm2·K. Heat transfer mechanisms are proposed for the different heat flux levels of the porous structures based on visual observations. The boiling patterns are classified as low, mid, high and very-high heat flux levels. At high heat flux level, two separate modes of stable and unstable boiling patterns are observed. For the stable boiling pattern, there are distinct bubble departure and liquid replenishment pathways, thus allowing a good convection flow. However, for the unstable boiling pattern, there is major liquid–vapor counter-flow, which disrupts the orderly liquid replenishment pathway. NRF (Natl Research Foundation, S’pore) Accepted version 2019-09-26T06:10:47Z 2019-12-06T21:33:59Z 2019-09-26T06:10:47Z 2019-12-06T21:33:59Z 2018 Journal Article Wong, K. K., & Leong, K. C. (2018). Saturated pool boiling enhancement using porous lattice structures produced by Selective Laser Melting. International Journal of Heat and Mass Transfer, 121, 46-63. doi:10.1016/j.ijheatmasstransfer.2017.12.148 0017-9310 https://hdl.handle.net/10356/104490 http://hdl.handle.net/10220/50021 10.1016/j.ijheatmasstransfer.2017.12.148 en International Journal of Heat and Mass Transfer © 2017 Elsevier Ltd. All rights reserved. This paper was published in International Journal of Heat and Mass Transfer and is made available with permission of Elsevier Ltd. 24 p. application/pdf |
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Nucleate Pool Boiling Porous Media Engineering::Mechanical engineering Wong, Kin Keong Leong, Kai Choong Saturated pool boiling enhancement using porous lattice structures produced by Selective Laser Melting |
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Pool boiling heat transfer of saturated FC-72 under atmospheric pressure was studied for porous lattice structures fabricated using the Selective Laser Melting (SLM) technique. The substrates possess repeating geometry of octet-truss unit cell and were varied with unit cell sizes of 2.0 mm, 3.0 mm and 5.0 mm and structure heights of 2.5 mm, 5.0 mm and 10.0 mm. In comparison with a plain surface, the porous structures show significant enhancement in nucleate boiling heat transfer coefficients and delay of Critical Heat Flux (CHF). The enhancement is attributed to the increased surface area, increased nucleation site density and capillary-assisted suction of the porous structure. The porous structure allows sustained liquid replenishment which delayed the hydrodynamic choking and CHF significantly. The best performing substrate with the 3-mm unit cell size and 5-mm structure height has an average nucleate boiling heat transfer coefficient of 1.35 W/cm2·K, which is 2.81 times that of the plain surface at 0.48 W/cm2·K. Heat transfer mechanisms are proposed for the different heat flux levels of the porous structures based on visual observations. The boiling patterns are classified as low, mid, high and very-high heat flux levels. At high heat flux level, two separate modes of stable and unstable boiling patterns are observed. For the stable boiling pattern, there are distinct bubble departure and liquid replenishment pathways, thus allowing a good convection flow. However, for the unstable boiling pattern, there is major liquid–vapor counter-flow, which disrupts the orderly liquid replenishment pathway. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Wong, Kin Keong Leong, Kai Choong |
| format |
Article |
| author |
Wong, Kin Keong Leong, Kai Choong |
| author_sort |
Wong, Kin Keong |
| title |
Saturated pool boiling enhancement using porous lattice structures produced by Selective Laser Melting |
| title_short |
Saturated pool boiling enhancement using porous lattice structures produced by Selective Laser Melting |
| title_full |
Saturated pool boiling enhancement using porous lattice structures produced by Selective Laser Melting |
| title_fullStr |
Saturated pool boiling enhancement using porous lattice structures produced by Selective Laser Melting |
| title_full_unstemmed |
Saturated pool boiling enhancement using porous lattice structures produced by Selective Laser Melting |
| title_sort |
saturated pool boiling enhancement using porous lattice structures produced by selective laser melting |
| publishDate |
2019 |
| url |
https://hdl.handle.net/10356/104490 http://hdl.handle.net/10220/50021 |
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1759855248556425216 |