Experimental studies on evaporation kinetics of gold nanofluid droplets: Influence of nanoparticle sizes and coating on thermal performance

Archive ouverte : Article de revue

Zaaroura, Ibrahim | Harmand, Souad | Carlier, Julien | Toubal, Malika | Fasquelle, Aurélie | Nongaillard, Bertrand

Edité par HAL CCSD ; Elsevier

International audience. In this work, a series of experiments investigate the evaporation of gold nanofluid sessile droplets on a perfluorodecyltrichlorosilane (PFTS) silicon substrate heated to 77 °C. The evaporation processes of different nanofluid droplets of the same initial volume, all for a 1% Cv volume concentration prepared from the 0.1 mM original suspension, are visualized to examine the size effect of gold nanoparticles (2.2, 5 and 10 nm) and the impact of surface coating (with and without Citrate capping in phosphate-buffered saline solvent) on enhancing heat transfer. This study open access to understand the size effect of gold nanoparticle in very small scale and the different types of surfactant on heat and mass transfer during the evaporation of droplet. Two methods are used to analyze the evaporation process, an optical one coupled to an infrared thermography method and an acoustic method. These complementary methods have the ability to investigate clearly the solid/liquid and liquid/vapor interfaces at the same time. From the optical observation, using a Drop Shape Analyzer (Kruss system), the evolution in time of the shape of the droplets (contact angle, base diameter and volume) are measured under controlled conditions (Humidity = 50%, Tatm = 23 °C). Then, the evaporation rate is deduced from the measurements of the evolution of volume in time. At the same time, an infrared camera is used to observe the droplet surface gradient temperature, air/liquid interface, due to thermal Marangoni flow. The acoustic method, based on a high- frequency echography principle, allowed to monitor the stability of nanoparticles inside the droplets (Au-water mixture) during the process of evaporation. From the kinetics of the reflection coefficient at the interface of the silicon substrate over which the nanofluids are deposited, the results show that the evaporation rate of 5 nm Au-water mixture (phosphate buffered saline solvent only) was faster than that of 10 nm Au-water mixture. While with citrate capping-PBS, the evaporation rate of the largest particle sizes (10 nm Au-water mixture) was the fastest than that of the smaller sizes (2.2 and 5 nm). Also, the 5 nm gold nanofluids with PBS showed the highest evaporation rate (+35%) than that of citrate capping gold nanofluids (+15%). As results, the addition of a surfactant (citrate capping) decreases the effectiveness of the heat transfer of gold nanofluids. This seems to be due to the absence of Marangoni cells in droplets made of Au-water mixtures (Citrate capping-PBS). Moreover, reducing in the thermal conductivity of gold nanofluid due to the surfactant coating by covering the gold nanoparticles surface and this eventually affected the nanofluid thermal properties. This is further supported by the acoustic method, which clearly shows worse stability of the nanoparticles in the latter case.

Consulter en ligne

Suggestions

Du même auteur

Thermal performance of self-rewetting gold nanofluids: application to two-p...

Archive ouverte: Article de revue

Zaaroura, Ibrahim | 2021-08

International audience. This paper presents an experimental analysis of the phenomenon of phase change inside a porous medium using different types of working fluids. It represents the impact of these fluids on impr...

Nanofluids dynamic viscosity evolution using high-frequency acoustic waves:...

Archive ouverte: Article de revue

Zaaroura, Ibrahim | 2021-11-01

International audience. Many interests are shown on nanofluids as it's suitable for cooling applications. Knowing the physical properties of nanofluids such as viscosity plays a key role in practical heat transfer s...

Modeling and Prediction of the Dynamic Viscosity of Nanofluids by a Homogen...

Archive ouverte: Article de revue

Zaaroura, Ibrahim | 2021-08

International audience. Nanofluids are an innovative technology that can be used to improve the efficiency of heat transfer in systems such as coolers. Thermal system design requires access to all the physical prope...

Du même sujet

Major Improvement in the Cycling Ability of Pseudocapacitive Vanadium Nitri...

Archive ouverte: Article de revue

Jrondi, Aiman | 2023

International audience. Vanadium nitride film made using a thin film deposition technique is a promising electrode material for micro-supercapacitor applications owing to its high electrical conductivity and high vo...

Phototunable chip-scale topological photonics: 160 Gbps waveguide and demul...

Archive ouverte: Article de revue

Kumar, Abhishek | 2022-12

The authors declare that all the data supporting the findings of thisstudy are openly available in NTU research data repository DR-NTU athttps://doi.org/10.21979/N9/5FK01V.. International audience. The revolutionary...

GDR HOWDI 2022 Meeting : GAP(111)B-SE Surface for TMD epitaxial growth

Archive ouverte: Poster de conférence

Chapuis, Niels | 2022-05-09

International audience. Over the past few years, 2D-Transition Metal Dichalcogenides (TMDs) have revealed great potential for optoelectronics and nanoelectronics devices, thanks to their exceptional properties, not ...

Tunable Topological Acoustic Tamm States in Comblike Structures Based on Ba...

Archive ouverte: Article de revue

Khattou, Soufyane | 2022-12

International audience. We investigate the existence of acoustic Tamm states at the interface between two one-dimensional (1D) comblike phononic crystals (PnCs) based on slender tubes and discuss their topological o...

[Review] Emerging topics in nanophononics and elastic, acoustic, and mechan...

Archive ouverte: Article de revue

Krushynska, Anastasiia | 2023

International audience. This broad review summarizes recent advances and “hot” research topics in nanophononics and elastic, acoustic, and mechanical metamaterials based on results presented by the authors at the EU...

Assessment of Large Critical Electric Field in Ultra-wide Bandgap p- type S...

Archive ouverte: Article de revue

Chi, Zeyu | 2023

International audience. The spinel Zinc Gallate ZnGa2O4 stands out among the emerging ultra-wide bandgap (~5eV) semiconductors as the ternary complex oxide with the widest gap where bipolar conductivity (electrons a...

Chargement des enrichissements...