Thermal treatment and deposition of alumina in metallic microchannels

Abstract: The objective of this work is the generation of a suitable surface, in microchannels of AISI 304 stainless steel for the manufacture of a microreactor, which ensures the anchoring of the active phase. The novelty of the work lies in achieving stabilization layer to work in different environments. The roughness generation was carried out by thermal treatment and passivation via alumina deposition by the impregnation method. The characterization was made with SEM-EDX and confocal microscope images. In a humid at… Show more

“…Generally, a fluid located on a planar solid surface will produce a specific angle of contact between the solid and fluid [17][18][19]. The contact angle made by the fluid droplet over different surfaces like a flat surface, wire [20,21], and tube [22] were calculated and reported. The majority of the research carried out in the area of boiling of nanofluid has reported an increase in critical heat flux (CHF) due to the decrease in contact angle (enhanced surface wettability).…”

Effect of shot blasting on droplet contact angle of carbon aided phase change nanocomposites

“…Generally, a fluid located on a planar solid surface will produce a specific angle of contact between the solid and fluid [17][18][19]. The contact angle made by the fluid droplet over different surfaces like a flat surface, wire [20,21], and tube [22] were calculated and reported. The majority of the research carried out in the area of boiling of nanofluid has reported an increase in critical heat flux (CHF) due to the decrease in contact angle (enhanced surface wettability).…”

Effect of shot blasting on droplet contact angle of carbon aided phase change nanocomposites

Ni/CeZr deposition on metallic mesh supports for CO2 methanation. Adherence and morphology

Ni/Ce-Zr Deposition on Metallic Mesh Supports for Co2 Methanation. Adherence and Morphology