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Preparation and characterization of ultrafiltration membranes fabricated from poly(amidesulfonamide)s and their possible uses in separation processLuk, Chi Hang Lucas 01 January 1999 (has links)
No description available.
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An analytical investigation of the ultrafiltration through semipermeable membranes using laminar boundary layer theorySanchez-Ruiz, Francisco, 1950- January 1977 (has links)
No description available.
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Étude de l'influence de la pression transmembranaire dans un module de microfiltrationMondor, Martin. January 2000 (has links)
Thèses (Ph.D.)--Université de Sherbrooke (Canada), 2000. / Titre de l'écran-titre (visionné le 24 août 2006). Publié aussi en version papier.
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Ultrafiltration the effect of pore size on flux and rejection coefficients /Lim, Jae Il. January 1981 (has links)
Thesis (M.S.)--University of Wisconsin--Madison, 1981. / Typescript. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 97-100).
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Novel membrane separations in biotechnologyCampbell, Moray James January 1994 (has links)
No description available.
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Ultrafiltration of milk some studies of process behavior and process modeling /Yan, Henry Shiu-hang. January 1978 (has links)
Thesis (M.S.)--Wisconsin. / Includes bibliographical references (leaves 229-234).
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Organic-solvent resistant ultrafiltration and nanofiltration membrane modules for separation and purification of nanoparticlesKim, Taehyeong 03 November 2011 (has links)
The intriguing size- and shape dependent properties of nanoparticles have garnered recent attention in many science and engineering areas. When the particle size is in the nanometer size range, the material exhibits very different properties such as surface plasmon resonance (of gold nanoparticles) and superparamagnetism (of iron oxide nanoparticles). The size-dependent properties of quantum dots have made them useful as UV-Vis-NIR sensors and in telecommunications applications. However, the separation and purification of nanoparticles are still challenging due to their size, insolubility in many solvents, and irreversible adsorption to other materials. Membrane filtration is widely used to separate nano-sized biological materials such as proteins, viruses, DNA and RNA. This dissertation presents novel approaches to the use of ultrafiltration and nanofiltration membranes for nanoparticle separation and purification using dead-end and cross-flow filtration techniques.
Purification of phosphine-stabilized Au₁₁ (Au₁₁(PPh₃)₈Cl₃, M.W. 4371, d[subscript core]=0.8 nm), produced in a microreactor without recrystallization, was achieved using nanofiltration membranes. The ceramic and polymer nanofiltration membranes were able to purify the Au₁₁ with rejection values higher than 90%. A novel continuous nanofiltration system design was applied and characterized. The continuous synthesis process, coupled with continuous nanofiltration, resulted in a significant reduction in synthesis time while producing higher yield than could be achieved in batch experiments. The diafiltration system was applied towards isolation of Au₁₁, and results were presented that indicate increased yield and enhanced product purity.
Organic-solvent resistant nanofiltration and ultrafiltration membranes were applied for purification and size-based separation of lead sulfide nanoparticles and gold nanoparticles that were initially synthesized with a 2-8nm size distribution. The nanofiltration membranes achieved rejection values greater than 95% for each of the nanoparticle samples and retained most of the nanoparticles on the membranes. The nanofiltration membranes also exhibited high permeability, which translates to a reduced purification time. Ultrafiltration membranes were screened and successfully applied to the size fractionation of lead sulfide nanoparticles and gold nanoparticles.
A templated silsesquioxane (ssq) membrane was synthesized within the pore space of an alumina support membrane and used for the separation and purification of nano-sized materials such as nanoparticles and macromolecules. The ssq membrane was fabricated by polycondensation of a silsesquioxane monomer solution in the presence of a surfactant within the macroporous space of an Anodisc alumina membrane (Whatman, CO. Ltd, Maidstone, UK). The novel ssq membranes were successfully applied for size exclusion separations of organic soluble 5-8 nm gold nanoparticles (protected with dodecanethiol). A ssq membrane also proved useful for the separation of biological macromolecules such as bovine serum albumin and myoglobin. / Graduation date: 2012
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Microfiltration and ultrafiltration with high frequency backpulsing /Koh, Chen Ning. January 2009 (has links)
Zugl.: Aachen, Techn. University, Diss., 2009.
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Separation and fractionation of proteins using sandwich membranes ultrafiltrationMd Yunos, Khairul Faezah January 2008 (has links)
No description available.
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Ultrafiltration of grape juice by hollow fiber membranesGarcia-Quintero, Zeferino Heberto 29 August 1983 (has links)
The feasibility of using hollow fiber ultrafi1tration
for clarification, stabilization and preservation of white
grape juice was evaluated. Flux and process parameters of
a hollow fiber membrane ultrafi1tration unit (Romicon pilot
scale, model FXS-MXII), were studied using white Riesling
grape juice. Optimum processing conditions were determined
for different nominal membrane molecular weight cut-off
values. The effect of cut-off value changes on viscosity,
pectin retention, pH, sugar content, titratable acidity,
haze reduction and color were evaluated.
Optimum conditions for processing were nominal membrane
molecular weight cut-off = 50,000, temperature = 50°C,
inlet pressure = 1.75 Kg/cm², outlet pressure = 1.40 Kg/cm²,
permeate flux = 72.57 L/M²-H. Concentration polarization and fouling of the membrane increased with feed juice viscosity
and were limiting factors in permeation rate. A
93% retention of pectins was achieved and haze reduction
was in the range of 91-93%. Sugar content, pH, titratable
acidity, and color were not affected for any of the nominal
membrane molecular weight cut-off values. / Graduation date: 1984
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