Experimental study on critical heat flux during flow boiling of R134a in a vertical helically coiled tube

Abstract: This paper carried out an experimental study on the critical heat flux during flow boiling of R134a in a vertical helically coiled tube. The length, inner diameter, coil diameter, and pitch of the test tube were 1.85 m, 8 mm, 205 mm, and 25 mm, respectively. Experiments cover the mass flux range of 190–400 kg·m−2·s−1, heat flux of 15–55 kW·m−2, inlet pressure of 0.8–1.1 MPa, and inlet vapor quality of 0.01–0.35. The effects of critical heat flux identification method, mass flux, system pressure, and inlet vapo… Show more

“…At low mass flux and high heat flux, the helical tubes were covered by regions of vapor quality lower than 0.1, and NB was the main heat dissipation mechanism. Both researchers reported good agreement with the correlation for straight vertical tubes proposed by [12].…”

Water Flow Boiling in Micro/Mini Channels Using Volume of Fluid Model

“…At low mass flux and high heat flux, the helical tubes were covered by regions of vapor quality lower than 0.1, and NB was the main heat dissipation mechanism. Both researchers reported good agreement with the correlation for straight vertical tubes proposed by [12].…”

Water Flow Boiling in Micro/Mini Channels Using Volume of Fluid Model

Flow and thermal analysis of the transition scheme between micro-channel and micro-jet cooling solution