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Numerical simulation of Microfluidic devices

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Main Authors:	Uda, Hashim, Prof. Dr., P.N A. Diyana, Tijjani Adam, Shuwa
Other Authors:	uda@unimap.edu.my
Format:	Working Paper
Language:	English
Published:	Institute of Electrical and Electronics Engineers (IEEE) 2013
Subjects:	Microfluidics devices Micro total analysis system (μTA S) Laboratory- on -a-chip Miniaturized Fluid flow Mixing concentration distribution Fluid flow pressure Fluid flow velocity field Micromixer Microchannel Microchamber Simulation
Online Access:	http://dspace.unimap.edu.my/xmlui/handle/123456789/26549
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id	my.unimap-26549
record_format	dspace
spelling	my.unimap-265492014-04-08T09:01:47Z Numerical simulation of Microfluidic devices Uda, Hashim, Prof. Dr. P.N A. Diyana Tijjani Adam, Shuwa uda@unimap.edu.my pu3_aliaa@yahoo.com Microfluidics devices Micro total analysis system (μTA S) Laboratory- on -a-chip Miniaturized Fluid flow Mixing concentration distribution Fluid flow pressure Fluid flow velocity field Micromixer Microchannel Microchamber Simulation Link to publisher's homepage at http://ieeexplore.ieee.org Microfluidic devices present a unique powerful platform for working with living cells. The length and volume scales of these devices in miniaturize system make it possible to perform detailed analyses with several advantages. The small volume facilitates response detection by effectively increasing the local concentration of the analyte. Microfluidic lab-on-chip technologies represent a revolution in laboratory experimentation, bringing the benefits of miniaturization to many researchers. This project aim on simulation of the fluid flow, the mixing concentration distribution to the interaction of protein and other biological reagents, fluid flow pressure, and fluid flow velocity field with designing Micromixer, Microchannel and Microchamber for Microfluidic devices using simulation software COMSOL Multiphysics 3.5. Fluid flow patterns, concentration distribution and velocity field were observed by using simulation software. Fluid flow patterns obtained at the junction and The component consists of a PDMS microchannel to give a continuous open circuit flow, a 0.7μm/s was obtained. 2013-07-10T04:14:16Z 2013-07-10T04:14:16Z 2012-09-19 Working Paper p. 26-29 978-1-4673-2395-6 http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6417083 http://hdl.handle.net/123456789/26549 en Institute of Electrical and Electronics Engineers (IEEE)
institution	Universiti Malaysia Perlis
building	UniMAP Library
collection	Institutional Repository
continent	Asia
country	Malaysia
content_provider	Universiti Malaysia Perlis
content_source	UniMAP Library Digital Repository
url_provider	http://dspace.unimap.edu.my/
language	English
topic	Microfluidics devices Micro total analysis system (μTA S) Laboratory- on -a-chip Miniaturized Fluid flow Mixing concentration distribution Fluid flow pressure Fluid flow velocity field Micromixer Microchannel Microchamber Simulation
spellingShingle	Microfluidics devices Micro total analysis system (μTA S) Laboratory- on -a-chip Miniaturized Fluid flow Mixing concentration distribution Fluid flow pressure Fluid flow velocity field Micromixer Microchannel Microchamber Simulation Uda, Hashim, Prof. Dr. P.N A. Diyana Tijjani Adam, Shuwa Numerical simulation of Microfluidic devices
description	Link to publisher's homepage at http://ieeexplore.ieee.org
author2	uda@unimap.edu.my
author_facet	uda@unimap.edu.my Uda, Hashim, Prof. Dr. P.N A. Diyana Tijjani Adam, Shuwa
format	Working Paper
author	Uda, Hashim, Prof. Dr. P.N A. Diyana Tijjani Adam, Shuwa
author_sort	Uda, Hashim, Prof. Dr.
title	Numerical simulation of Microfluidic devices
title_short	Numerical simulation of Microfluidic devices
title_full	Numerical simulation of Microfluidic devices
title_fullStr	Numerical simulation of Microfluidic devices
title_full_unstemmed	Numerical simulation of Microfluidic devices
title_sort	numerical simulation of microfluidic devices
publisher	Institute of Electrical and Electronics Engineers (IEEE)
publishDate	2013
url	http://dspace.unimap.edu.my/xmlui/handle/123456789/26549
_version_	1643794981544001536
score	13.214268

Numerical simulation of Microfluidic devices

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