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Skip to Search Results- 2Bhaduri,Swayamdipta
- 2Pant, Lalit M
- 1,Abdul Wasay
- 1Azim, Mohammad Alaul
- 1Baldygin, Aleksey
- 1Baliga, Chinmay R
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Spring 2010
The focus of this thesis is on electro-osmotically pumped flow of viscoelastic fluids through microchannels. Fluid transport in microscaled structures is typically laminar due to the low Reynolds numbers involved. However, it is known that viscoelastic polymeric liquids can display striking...
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Spring 2017
We examine the transient evolution of a negatively buoyant, laminar plume in an emptying filling box containing a uniform porous medium. In the long time limit, τ→∞, the box is partitioned into two uniform layers of different densities. However, the approach towards steady state is characterized...
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Spring 2010
The research presented in this work explores the application of microfluidics to the field of proteomics through the design of a multi-channel microfluidic platform and the investigation of individual components of the system. The design of this microfluidic device allows the integration of...
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Spring 2022
This thesis research concerns controlling viscous fingering instability when a less-viscous fluid pushes another more-viscous one in a porous medium. This instability is called the Saffman-Taylor instability and has been extensively studied, primarily for simple Newtonian fluids. The resultant of...
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The Biomicrofluidics of Microbiologically Induced Calcite Precipitation Mediated by Sporosarcina pasteurii
DownloadSpring 2018
I studied a particular bacterium Sporosarcina pasteurii (S. Pasteurii) which has a unique ability to cause chemical precipitation in an aqueous medium in the presence of certain molecules like urea. These precipitated chemicals can go deep inside a network of micro-scale pores and cause clogging....
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The Biomicrofluidics of Microbiologically Induced Calcite Precipitation Mediated by Sporosarcina pasteurii
DownloadSpring 2018
I studied a particular bacterium Sporosarcina pasteurii (S. Pasteurii) which has a unique ability to cause chemical precipitation in an aqueous medium in the presence of certain molecules like urea. These precipitated chemicals can go deep inside a network of micro-scale pores and cause clogging....
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Spring 2016
Heterogeneous materials are omnipresent in several critical engineering applications such as polymer electrolyte fuel cells (PEFCs), coal bio-conversion process, geological storage of CO2 and membrane water filtration. These applications rely on physical processes such as transport (e.g., mass,...
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Fall 2011
Bidulock, Allison Christel Elizabeth
This thesis addresses the need for inexpensive microfluidic platforms by contributing to the collaborative development of a modularised, integrated system capable of molecular diagnostics using bead-based sample preparation, polymerase chain reaction and capillary electrophoresis analysis...
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Fall 2012
Quantification of transport properties at pore scale is important for efficient oil extraction, improving fuel cell performance etc. An experimental methodology is developed for calculating permeability and porosity in microfluidic devices that contain structured and unstructured porous media....
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Protein Separation with Self-Assembled Nanoparticle Beds: Mechanism and Separation Performance
DownloadSpring 2016
This thesis reports the separation behavior of SDS-protein complexes in colloidal self-assembled (CSA) nanoparticle beds, and the processes of stabilization of CSA beds for high voltage separation. First, the variation of electrophoretic mobility with molecular weight (6.5-66 kDa) of SDS-protein...