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Détail de l'auteur
Auteur Saeid Nahavandi
Documents disponibles écrits par cet auteur
Affiner la rechercheDesign and simulation of an interdigital-chaotic advection micromixer for lab-on-a-chip applications / Khashayar Khoshmanesh in La Houille blanche, N° 6 (2009)
[article]
in La Houille blanche > N° 6 (2009) . - pp. 118-124
Titre : Design and simulation of an interdigital-chaotic advection micromixer for lab-on-a-chip applications Titre original : Dessin et simulation d'un micro mélangeur à advection interdigitale cahotique pour les applications de laboratoire sur puce Type de document : texte imprimé Auteurs : Khashayar Khoshmanesh, Auteur ; Abbas Z. Kouzani, Auteur ; Saeid Nahavandi, Auteur Article en page(s) : pp. 118-124 Note générale : Hydraulique Langues : Anglais (eng) Mots-clés : Microfluidique Micro mélangeur Puces Micro-canaux Index. décimale : 551.4 Résumé : This paper presents the design and simulation of a novel passive micromixer. The micromixer consists of two inlet tanks, one mixing channel and two outlet channels. In order to maximise the mixing efficiency, the following considerations are made: (i) The inlet tanks are followed by a series of microchannels, in which the flow is split. The microchannels are arranged in an interdigital manner to maximise the contact area between the two flows. (ii) The microchannels attached to the lower inlet tank have an upward slope while those attached to the upper tank have a downward slope. The higher-density flow is fed to the lower inlet tank and gets an upward velocity before entering the mixing channel. (iii) Two triangular barriers are placed within the mixing channel to impose chaotic advection and perturb the less-mixed flow along the top and bottom surfaces of the channel. (iv) Finally, two outlet channels are incorporated to discard the less-mixed flow. Three-dimensional simulations are carried out to evaluate the performance of the micromixer. Simulations are performed in the absence and presence of the gravitational force to analyse the influence of gravity on the micromixer. Mixing efficiencies of greater than 92 % are achieved using water and a low-density biological solvent as the mixing fluids.
DEWEY : 553.7 ISSN : 0018-6368 En ligne : http://www.shf-lhb.org/index.php?option=article&access=standard&Itemid=129&url=/ [...] [article] Design and simulation of an interdigital-chaotic advection micromixer for lab-on-a-chip applications = Dessin et simulation d'un micro mélangeur à advection interdigitale cahotique pour les applications de laboratoire sur puce [texte imprimé] / Khashayar Khoshmanesh, Auteur ; Abbas Z. Kouzani, Auteur ; Saeid Nahavandi, Auteur . - pp. 118-124.
Hydraulique
Langues : Anglais (eng)
in La Houille blanche > N° 6 (2009) . - pp. 118-124
Mots-clés : Microfluidique Micro mélangeur Puces Micro-canaux Index. décimale : 551.4 Résumé : This paper presents the design and simulation of a novel passive micromixer. The micromixer consists of two inlet tanks, one mixing channel and two outlet channels. In order to maximise the mixing efficiency, the following considerations are made: (i) The inlet tanks are followed by a series of microchannels, in which the flow is split. The microchannels are arranged in an interdigital manner to maximise the contact area between the two flows. (ii) The microchannels attached to the lower inlet tank have an upward slope while those attached to the upper tank have a downward slope. The higher-density flow is fed to the lower inlet tank and gets an upward velocity before entering the mixing channel. (iii) Two triangular barriers are placed within the mixing channel to impose chaotic advection and perturb the less-mixed flow along the top and bottom surfaces of the channel. (iv) Finally, two outlet channels are incorporated to discard the less-mixed flow. Three-dimensional simulations are carried out to evaluate the performance of the micromixer. Simulations are performed in the absence and presence of the gravitational force to analyse the influence of gravity on the micromixer. Mixing efficiencies of greater than 92 % are achieved using water and a low-density biological solvent as the mixing fluids.
DEWEY : 553.7 ISSN : 0018-6368 En ligne : http://www.shf-lhb.org/index.php?option=article&access=standard&Itemid=129&url=/ [...]