Two-phase flow in microchannels. Experimental Thermal and Fluid Science 26, 703-714.A. Serizawa, Z. Feng, Z. Kawara, Two-phase flow in microchannels, Exp. Thermal Fluid Sci. 26 (6-7) (2002) 703-714.Serizawa A,Feng Z,Kawara Z.Two-phase flow in microchannels. Experimental Thermal and ...
microchannelsboilingtwo-phase flowpressure dropheat fluxIntroduction Macro-to-Microscale Transition Flow Patterns in Microscale Channels Pressure Drop Boiling Heat Transfer Critical Heat Flux Two-phase Flow Instabilities Prediction Methods Referencesdoi:10.1002/9783527631445.ch3John R. Thome...
Two–phase flow inmicrochannelsand microcapillaries has been an area of keen interest since the last few decades, because of its numerous applications in lab–on–a–chip,microreactors, and several other chemical and biological science (Kreutzer et al., 2005). Considerable attention has been devote...
Serizawa A, Feng A, Kawara Z (2002) Two-phase flow in microchannels. Exp Thermal Fluid Sci 26(6–7):703–714. doi:10.1016/S0894-1777(02)00175-9 Article Google Scholar Shah RK, London AL (1978) Laminar flow forced convection in ducts, supplement 1 to advances in heat transfer. Aca...
a. Characterization of two-phase flow in microchannels. Ph.D. thesis (2002). Pham, Q. V., Choi, K. I. & Oh, J. T. Condensation heat transfer characteristics and pressure drops of R410A, R22, R32, and R290 in a multiport rectangular channel. Sci. Technol. Built Environ. 25(10)...
The literature survey on this issue has been categorized into adiabatic and phase change work, which has been summarized in this paper. 1.1. Adiabatic works The works of Suo and Griffith [1] were among the first studies concentrating on flow patterns in microchannels. They detected three ...
Entire flow as liquid m: Mean NBD: Nucleate boiling dominant r: Receding SP: Single-phase sat: Saturated condition TP: Two-phase t: Thermal V: Vapor . (5 pages) Author information Authors and Affiliations Rochester Institute of Technology, Rochester, NY, USA ...
The present study explores experimentally the two-phase flow instability in a microchannel heat sink with 15 parallel microchannels. The hydraulic diameter for each channel is 86.3 μm. Flow boiling in the present microchannel heat sink demonstrates significantly different two-phase flow patterns under ...
This paper mainly presents comprehensive review on the research regarding adiabatic and diabatic gas–liquid two-phase flow patterns, bubble growth, flow pattern transitions and flow pattern maps in microchannels over the past 15 years. First, criteria for distinction of macro- and micro-channels are...
This review article highlights the critical impact of surface roughness in modifying the structure of two-phase flow within mini- and microchannels, particularly in processes such as boiling and condensation. Channel surface roughness enhances flow resistance, affects the distribution of vapor bubbles, an...