Surface tension driven flow for open microchannels with different turning angles

Autor:	Yu-Feng Chen, Ming-Hung Chen, Ching-Chang Chieng, Shang-Yu ChangChien, Ru-Ji Yu, Fang-Gang Tseng
Rok vydání:	2007
Předmět:	Pressure drop business.industry Chemistry Flow (psychology) Mechanics Condensed Matter Physics Aspect ratio (image) Electronic Optical and Magnetic Materials Open-channel flow Pipe flow Physics::Fluid Dynamics Surface tension Optics Materials Chemistry Meniscus business Microscale chemistry
Zdroj:	Microfluidics and Nanofluidics. 5:193-203
ISSN:	1613-4990 1613-4982
DOI:	10.1007/s10404-007-0237-5
Popis:	Present study examines the flow characteristics of open microchannels with sharp turns by experimental and numerical methods. For the open channel system in microscale, the flow is mainly driven by surface tension at atmospheric pressure. The open channels are of various aspect ratios of depth-to-width, ranging from 0.75 to 3, and of turning angles from 45° to 135°. It is found that the turning angle and the aspect ratio of depth-to-width play major roles in the velocity of liquid front advancing, the meniscus of liquid–gas interface shape, and head loss of flow due to turning. Besides, the radius of curvature of the liquid front is reduced as the liquid front travels downstream and over the turning elbow. The loss coefficient remains the same for turning angles less than 75°, whereas it is increased further and is even more pronounced for turning angles larger than 105°. Numerical predications based on conservation laws agree with the experimental observations, and the flow characteristics are well described for open channel in microscale, as the aspect ratio is greater than or near to 1.5.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_________::a4f4a321fbabf9a7acb73c31b65dd0e8 https://doi.org/10.1007/s10404-007-0237-5 Zobrazit plný text záznamu Full text from SpringerLink