Heat transfer under spray cooling of laser-textured superhydrophilic titanium surface

21 Pages Posted: 6 Jun 2026

See all articles by A.D. Nazarov

A.D. Nazarov

affiliation not provided to SSRN

N.B. Miskiv

affiliation not provided to SSRN

Elena Starinskaya

affiliation not provided to SSRN

E.A. Sendir

affiliation not provided to SSRN

Yu.A. Shikhevich

affiliation not provided to SSRN

Alexey Rodionov

affiliation not provided to SSRN

Sergey Starinskiy

Kutateladze Institute of Thermophysics SB RAS

Abstract

The relevance of this work is related to the need to improve the efficiency of spray cooling of heat surfaces under high thermal load conditions. An experimental study of heat transfer during spray cooling with water of unmodified and laser-textured titanium surfaces measuring 70 × 70 mm² was carried out under heating conditions below the saturation temperature. Laser treatment led to the formation of a developed micro- and sub-microrelief and a significant increase in surface hydrophilicity: the water contact angle decreased from 35.7° for unmodified titanium to 4.8° for the modified surface.It has been shown that under the same heating and spray cooling conditions, the laser-textured surface provides a lower average temperature and more uniform wetting of the working area, including peripheral regions. At a heat flux density of 14.3 W/cm2, the average temperature of the modified surface was 1.4–1.6 °C lower than that of the unmodified surface. The maximum achieved heat flux density increased from 16 W/cm2 for the original surface to 20 W/cm2 for the laser-modified surface. It was found that under identical spray cooling and heating conditions, the heat transfer coefficient of the modified surface exceeded that of the unmodified surface by 14–42%, with the relative increase growing as the coolant flow rate increased. The obtained results indicate that increased hydrophilicity promotes more uniform liquid distribution, efficient liquid film renewal, and intensification of single-phase convective heat transfer. The practical significance of this work lies in substantiating the use of laser texturing of titanium surfaces as a method to enhance the intensity and spatial uniformity of spray cooling over large surfaces.

Keywords: Heat Transfer, spray cooling, laser-textured surface, titanium surface, superhydrophilic surface

Suggested Citation

Nazarov, A.D. and Miskiv, N.B. and Starinskaya, Elena and Sendir, E.A. and Shikhevich, Yu.A. and Rodionov, Alexey and Starinskiy, Sergey, Heat transfer under spray cooling of laser-textured superhydrophilic titanium surface. Available at SSRN: https://ssrn.com/abstract=6889845 or http://dx.doi.org/10.2139/ssrn.6889845

A.D. Nazarov

affiliation not provided to SSRN ( email )

N.B. Miskiv

affiliation not provided to SSRN ( email )

Elena Starinskaya (Contact Author)

affiliation not provided to SSRN ( email )

E.A. Sendir

affiliation not provided to SSRN ( email )

Yu.A. Shikhevich

affiliation not provided to SSRN ( email )

Alexey Rodionov

affiliation not provided to SSRN ( email )

Sergey Starinskiy

Kutateladze Institute of Thermophysics SB RAS ( email )

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