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  • Enhanced surfaces manufactured using pulsed laser texturing for highly efficient two-phase cooling
    Roni, Md Rakibul Hasan ...
    Efficient thermal management is critical for high power-density systems. Pool boiling offers a highly effective mode of heat transfer due to the energy intensive liquid-to-vapor phase transition ... which can absorb large quantities of heat at a relatively constant temperature. However, due to the potential absence of adequate and correctly sized nucleation sites, as well as poor surface wettability and wickability, the performance of pool boiling on smooth surfaces is sub-optimal. Surface modifications increase nucleation site density as well as tune surface wetting characteristics and liquid supply capability which are key pathways for augmenting boiling heat transfer. In this study, engineered surfaces are fabricated on pure copper substrates using nanosecond laser treatment. Pool boiling heat transfer experiments are conducted at atmospheric pressure using deionized water as the working fluid. Two types of surfaces: cross-hatch patterned, and checkerboard patterned are created for pool boiling investigation. The spacing between two consecutive lines of the cross-hatch pattern was varied to determine the relationship between line spacing and critical heat flux (CHF). For checkerboard surfaces, multiple samples were prepared by changing the size of the square checker regions. Results show that a moderate improvement of CHF (∼ 56 %) and a significant enhancement of boiling heat transfer coefficient (∼ 730 %) can be attained on the laser textured surfaces compared to the smooth copper surface. These results demonstrate that boiling behavior can be manipulated by tuning geometry-driven liquid and vapor transport mechanisms. The findings provide insights into the relationship between surface topology and boiling heat transfer characteristics, offering guidelines for high performance pool boiling surface design.
    Source: Applied thermal engineering. - ISSN 1359-4311 (Vol. 288, pt. 1, [article no.] 129497, 2026, str. 1-15)
    Type of material - article, component part ; adult, serious
    Publish date - 2026
    Language - english
    COBISS.SI-ID - 263566339

    Link(s):

    https://www.sciencedirect.com/science/article/pii/S135943112504089X
    Repository of the University of Ljubljana – RUL
    DOI

source: Applied thermal engineering. - ISSN 1359-4311 (Vol. 288, pt. 1, [article no.] 129497, 2026, str. 1-15)
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