Your search keyword '"tangential ultrafiltration"' showing total 21 results

1. Forms of Spontaneous Coagulation and Recycling of Dissolved Organic Carbon in a Monimolimnetic Water Body

Author

Albéric, Patrick and Défarge, Christian

Published

2024

2. DPPH radical scavenging activity of xylo-oligosaccharides mixtures of controlled composition: A step forward in understanding structure–activity relationship

Author

Andrea Fuso, Winnie Dejonghe, Lieve Cauwenberghs, Ginevra Rosso, Franco Rosso, Ileana Manera, and Augusta Caligiani

Subjects

XOS, Antioxidant activity, Degree of polymerization, Structure–function relationship, Enzymatic hydrolysis, Tangential ultrafiltration, Nutrition. Foods and food supply, TX341-641

Abstract

Antioxidant activity of oligosaccharides is very discussed, and the relationship between their chemical structure and functionality is not clear. In this work, XOS, with different degrees of polymerization, acetylation and purity were produced starting from commercial xylans by enzymatic hydrolysis coupled with tangential ultrafiltration. A purified mixture containing DP 6–9 XOS was also produced. A detailed molecular characterization of all the XOS mixtures was performed by LC-MS, HPSEC-RID and 1H NMR. In vitro antioxidant activity was then tested against the stable DPPH free-radical. It was found that standard pure xylose and DP 2–6 XOS had very low scavenging capacity, while DP 6–9 XOS had a great one. In general, unsubstituted XOS are more antioxidant than acetylated ones, and a higher DP favours an increase in this functionality at first, then a decrease when molecular weights become higher.

Published

2023

3. Membrane-based downhole oil–water separation (DOWS) technology: an alternative to hydrocyclone-based DOWS

Author

Mohit Patel, Jigarkumar Patel, Yogendrasingh Pawar, Nehal Patel, and Manan Shah

Subjects

Downhole oil–water separation, Oleophilic, Polytetrafluoroethylene, Tangential ultrafiltration, Crossflow separation, Durable, Petroleum refining. Petroleum products, TP690-692.5, Petrology, QE420-499

Abstract

Abstract Produced water handling has become one of the central concerns for the oil and gas industry today. Produce water (water cut) increases as the field grows old, which brings the additional handling cost to the project. The additional expense could be in terms of lifting cost, treatment, maintenance, tubular scaling, corrosion problems, bacteria, naturally occurring radioactive material and environmental regulations, etc. To address this problem, the hydrocarbon industry developed the downhole oil–water separation (DOWS) technology in the 1990s. In spite of having such cost-effective and environment-friendly solutions, the industry has limited sites using this technique. Thus, there is uttermost need to evaluate the problems in practicality of the current hydrocyclone-based and gravity-based DOWS and find a reliable solution to it. The membrane-based separation methodology represents the coherent solution to robust the downhole separation system that does not require any moveable equipment with advance sensors and mechanical tools. If the reservoir is well characterized and a reliable simulation model is built, it is possible to predict the optimal time for the placement of a specific length of membrane in the well depending on the layer concerned and inclination of the well. Apart from designing the thin and porous hydrophobic and oleophilic membranes, there are plenty of field challenges which have put constraints on the practicality of membrane-based DOWS. The major constraints are durable range of separation pressure, fouling, separation process design, membrane-shear durability. The objective of this study is to present a novel model of PTFE (polytetrafluoroethylene) membrane-based downhole oil–water separation system with its over all functionality and addresses the constraints mentioned above with promising existing working solutions. Moreover, the study also literature reviews and compares the expenditure and maintenance involved in manufacturing, installation, operating and maintenance of system, between the conventional hydrocyclone-based downhole water separation and the proposed (PTFE) membrane-based DOWS.

Published

2020

4. Changes in Activity and Community Composition Shape Bacterial Responses to Size-Fractionated Marine DOM

Author

Marta M. Varela, Tamara Rodríguez-Ramos, Elisa Guerrero-Feijóo, and Mar Nieto-Cid

Subjects

bacterial diversity, amplicon sequencing variants, flow cytometry, dissolved organic matter, DOM optical properties, tangential ultrafiltration, Microbiology, QR1-502

Abstract

To study the response of bacteria to different size-fractions of naturally occurring dissolved organic matter (DOM), a natural prokaryotic community from North Atlantic mesopelagic waters (1000 m depth) was isolated and grown in (i) 0.1-μm filtered seawater (CONTROL), (ii) the low-molecular-weight (1 kDa) and low-molecular-weight DOM fractions (H + L-DOM), to test the potential effect of ultrafiltration on breaking the DOM size continuum. Prokaryotic abundance and leucine incorporation were consistently higher in the H + L-DOM niche than in the L-DOM and CONTROL treatments, suggesting a different interaction with each DOM fraction and the disruption of the structural DOM continuum by ultrafiltration, respectively. Rhodobacterales (Alphaproteobacteria) and Flavobacteriales (Bacteroidetes) were particularly enriched in L-DOM and closely related to the colored DOM (CDOM) fraction, indicating the tight link between these groups and changes in DOM aromaticity. Conversely, some other taxa that were rare or undetectable in the original bacterial community were enriched in the H + L-DOM treatment (e.g., Alteromonadales belonging to Gammaproteobacteria), highlighting the role of the rare biosphere as a seed bank of diversity against ecosystem disturbance. The relationship between the fluorescence of protein-like CDOM and community composition of populations in the H + L-DOM treatment suggested their preference for labile DOM. Conversely, the communities growing on the L-DOM niche were coupled to humic-like CDOM, which may indicate their ability to degrade more reworked DOM and/or the generation of refractory substrates (as by-products of the respiration processes). Most importantly, L- and/or H + L-DOM treatments stimulated the growth of unique bacterial amplicon sequence variants (ASVs), suggesting the potential of environmental selection (i.e., changes in DOM composition and availability), particularly in the light of climate change scenarios. Taken together, our results suggest that different size-fractions of DOM induced niche-specialization and differentiation of mesopelagic bacterial communities.

Published

2020

5. Changes in Activity and Community Composition Shape Bacterial Responses to Size-Fractionated Marine DOM.

Author

Varela, Marta M., Rodríguez-Ramos, Tamara, Guerrero-Feijóo, Elisa, and Nieto-Cid, Mar

Subjects

ECOLOGICAL disturbances, DISSOLVED organic matter, BIOTIC communities, BACTERIAL communities, COMMUNITY change, BACTERIAL diversity, MICROBIAL communities

Abstract

To study the response of bacteria to different size-fractions of naturally occurring dissolved organic matter (DOM), a natural prokaryotic community from North Atlantic mesopelagic waters (1000 m depth) was isolated and grown in (i) 0.1-μm filtered seawater (CONTROL), (ii) the low-molecular-weight (<1 kDa) DOM fraction (L-DOM), and (iii) the recombination of high- (>1 kDa) and low-molecular-weight DOM fractions (H + L-DOM), to test the potential effect of ultrafiltration on breaking the DOM size continuum. Prokaryotic abundance and leucine incorporation were consistently higher in the H + L-DOM niche than in the L-DOM and CONTROL treatments, suggesting a different interaction with each DOM fraction and the disruption of the structural DOM continuum by ultrafiltration, respectively. Rhodobacterales (Alphaproteobacteria) and Flavobacteriales (Bacteroidetes) were particularly enriched in L-DOM and closely related to the colored DOM (CDOM) fraction, indicating the tight link between these groups and changes in DOM aromaticity. Conversely, some other taxa that were rare or undetectable in the original bacterial community were enriched in the H + L-DOM treatment (e.g., Alteromonadales belonging to Gammaproteobacteria), highlighting the role of the rare biosphere as a seed bank of diversity against ecosystem disturbance. The relationship between the fluorescence of protein-like CDOM and community composition of populations in the H + L-DOM treatment suggested their preference for labile DOM. Conversely, the communities growing on the L-DOM niche were coupled to humic-like CDOM, which may indicate their ability to degrade more reworked DOM and/or the generation of refractory substrates (as by-products of the respiration processes). Most importantly, L- and/or H + L-DOM treatments stimulated the growth of unique bacterial amplicon sequence variants (ASVs), suggesting the potential of environmental selection (i.e., changes in DOM composition and availability), particularly in the light of climate change scenarios. Taken together, our results suggest that different size-fractions of DOM induced niche-specialization and differentiation of mesopelagic bacterial communities. [ABSTRACT FROM AUTHOR]

Published

2020

6. Nanoporous high-temperature filters based on Ti–Al ceramic SHS materials.

Author

Uvarov, Valerii Ivanovich, Kapustin, Roman Dmitrievich, and Kirillov, Andrei Olegovich

Subjects

*CERAMIC materials, *POROUS materials, *NANOSTRUCTURED materials, *CHEMICAL reactions, *FILTERS & filtration, *HEAT resistant alloys, *SELF-propagating high-temperature synthesis

Abstract

The research is devoted to the development of scientific bases for creating a technology for manufacturing heat-resistant membranes based on a highly porous ceramic material with nanoscale pores (nanoporous), which allows increasing the efficiency of high-temperature purification of liquids from submicron dispersed contaminants by tangential filtration. Membranes based on a mixture of Ti and Al powders (40% by 60% mass ratio) were synthesized in one stage using the SHS method in the thermal explosion mode and used as filter elements in the ultrafiltration unit. Using X-ray and SEM methods, it was found that the synthesized material consists of the main phases TiAl 3 and Al 2 O 3. Analysis of the microstructure showed that the resulting ceramic material has a multilevel highly developed web-like nanostructure that forms an open porosity of the membrane, providing the possibility of ultrafiltration. • Ceramic nanoporous monolayer filters produced by SHS are presented. • The influence of the bulk effect of a chemical reaction increases the porosity of the obtained material. • Resulting material has a multilevel highly developed web-like nanostructure. [ABSTRACT FROM AUTHOR]

Published

2020

7. Membrane-based downhole oil–water separation (DOWS) technology: an alternative to hydrocyclone-based DOWS.

Author

Patel, Mohit, Patel, Jigarkumar, Pawar, Yogendrasingh, Patel, Nehal, and Shah, Manan

Subjects

APPROPRIATE technology, MACHINE separators, OIL field brines, RADIOACTIVE substances, GAS industry, ENVIRONMENTAL regulations

Abstract

Produced water handling has become one of the central concerns for the oil and gas industry today. Produce water (water cut) increases as the field grows old, which brings the additional handling cost to the project. The additional expense could be in terms of lifting cost, treatment, maintenance, tubular scaling, corrosion problems, bacteria, naturally occurring radioactive material and environmental regulations, etc. To address this problem, the hydrocarbon industry developed the downhole oil–water separation (DOWS) technology in the 1990s. In spite of having such cost-effective and environment-friendly solutions, the industry has limited sites using this technique. Thus, there is uttermost need to evaluate the problems in practicality of the current hydrocyclone-based and gravity-based DOWS and find a reliable solution to it. The membrane-based separation methodology represents the coherent solution to robust the downhole separation system that does not require any moveable equipment with advance sensors and mechanical tools. If the reservoir is well characterized and a reliable simulation model is built, it is possible to predict the optimal time for the placement of a specific length of membrane in the well depending on the layer concerned and inclination of the well. Apart from designing the thin and porous hydrophobic and oleophilic membranes, there are plenty of field challenges which have put constraints on the practicality of membrane-based DOWS. The major constraints are durable range of separation pressure, fouling, separation process design, membrane-shear durability. The objective of this study is to present a novel model of PTFE (polytetrafluoroethylene) membrane-based downhole oil–water separation system with its over all functionality and addresses the constraints mentioned above with promising existing working solutions. Moreover, the study also literature reviews and compares the expenditure and maintenance involved in manufacturing, installation, operating and maintenance of system, between the conventional hydrocyclone-based downhole water separation and the proposed (PTFE) membrane-based DOWS. [ABSTRACT FROM AUTHOR]

Published

2020

8. Tangential Flow Ultrafiltration Allows Purification and Concentration of Lauric Acid-/Albumin-Coated Particles for Improved Magnetic Treatment

Author

Jan Zaloga, Marcus Stapf, Johannes Nowak, Marina Pöttler, Ralf P. Friedrich, Rainer Tietze, Stefan Lyer, Geoffrey Lee, Stefan Odenbach, Ingrid Hilger, and Christoph Alexiou

Subjects

hyperthermia, nanoparticle concentration, tangential ultrafiltration, nanoparticle purification, specific absorption rate (SAR), superparamagnetic iron oxide nanoparticles (SPIONs), Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Superparamagnetic iron oxide nanoparticles (SPIONs) are frequently used for drug targeting, hyperthermia and other biomedical purposes. Recently, we have reported the synthesis of lauric acid-/albumin-coated iron oxide nanoparticles SEONLA-BSA, which were synthesized using excess albumin. For optimization of magnetic treatment applications, SPION suspensions need to be purified of excess surfactant and concentrated. Conventional methods for the purification and concentration of such ferrofluids often involve high shear stress and low purification rates for macromolecules, like albumin. In this work, removal of albumin by low shear stress tangential ultrafiltration and its influence on SEONLA-BSA particles was studied. Hydrodynamic size, surface properties and, consequently, colloidal stability of the nanoparticles remained unchanged by filtration or concentration up to four-fold (v/v). Thereby, the saturation magnetization of the suspension can be increased from 446.5 A/m up to 1667.9 A/m. In vitro analysis revealed that cellular uptake of SEONLA-BSA changed only marginally. The specific absorption rate (SAR) was not greatly affected by concentration. In contrast, the maximum temperature Tmax in magnetic hyperthermia is greatly enhanced from 44.4 °C up to 64.9 °C by the concentration of the particles up to 16.9 mg/mL total iron. Taken together, tangential ultrafiltration is feasible for purifying and concentrating complex hybrid coated SPION suspensions without negatively influencing specific particle characteristics. This enhances their potential for magnetic treatment.

Published

2015

9. Hardware-Controlled Method of Desalting Antigen Components of Cholera Chemical Vaccine

Author

A. V. Komissarov, A. K. Nikiforov, A. I. Perepelitsa, S. A. Eremin, O. V. Gromova, Yu. G. Vasin, O. A. Volokh, A. V. Gaeva, and L. F. Livanova

Subjects

тангенциальная ультрафильтрация, вакцина холерная, антигены, обессоливание, tangential ultrafiltration, cholera vaccine, antigens, desalting, Infectious and parasitic diseases, RC109-216

Abstract

Experimentally substantiated is the possibility to apply tangential ultrafiltration for desalting antigen components of the tableted bivalent chemical cholera vaccine. Specified are the technological parameters of the process. It is demonstrated that the properties of choleragen-anatoxin (produced by Vibrio cholerae strain 569B Inaba) and O-antigens (produced from V. cholerae 569B Inaba and M-41 Ogawa strains) obtained using the designed methodology are as efficient as the ones manufactured using certified procedure and satisfy regulatory requirements. Experimentally substantiated technology for the desalting of antigen components of chemical cholera vaccine provides for the reduction of the time elapsed up to 5-6 hours from the original 3 to 4 days. It also allows for the manufacturing under controlled conditions. This hard-ware controlled method of desalting has been implemented into the vaccine production practice.

Published

2014

10. Effect of a dam on the optical properties of different-sized fractions of dissolved organic matter in a mid-subtropical drinking water source reservoir.

Author

Sun, Qiyuan, Jiang, Juan, Zheng, Yuyi, Wang, Feifeng, Wu, Chunshan, and Xie, Rong-rong

Subjects

*DAMS, *RIVERS, *DISSOLVED organic matter, *ULTRAFILTRATION, *PHYTOPLANKTON

Abstract

The presence of a dam on a river is believed to have a key role in affecting changes in the components of the chromophoric dissolved organic matter (CDOM) in reservoirs. However, questions remain about the mechanisms that control these changes. In this study, we used tangential ultrafiltration, fluorescence spectrum and phytoplankton cell density detection to explore the impacts of a dam on the CDOM components in the Shanzai Reservoir, a source of drinking water. The results demonstrated each CDOM size fraction comprised two main components, namely C1 (protein-like substance) and C2 (humic-like substance). The C1 content had a higher value in areas with slow flow than in the normal river channel, while the C2 contents were generally stable in the flow direction. The topography of the reservoir site affected the structure of the CDOM components based on changes in the hydraulic conditions caused by the dam. The variations in the CDOM components, hydraulic parameters and fluorescence indices in the river flow direction indicated that the contribution of the phytoplankton to the CDOM content increased as the distance to the dam decreased, phytoplankton metabolism enhanced C1 content of the 1–10 k Da molecular weights range fraction. Further, the contributions of different phytoplankton biomass to C1 proved that the dam changed the hydraulic conditions, had secondary effects on the metabolism of the phytoplankton, and resulted in changes in the structure of the CDOM components. [ABSTRACT FROM AUTHOR]

Published

2017

11. DPPH radical scavenging activity of xylo-oligosaccharides mixtures of controlled composition: A step forward in understanding structure–activity relationship.

Author

Fuso, Andrea, Dejonghe, Winnie, Cauwenberghs, Lieve, Rosso, Ginevra, Rosso, Franco, Manera, Ileana, and Caligiani, Augusta

Abstract

[Display omitted] • XOS mixtures with different structures were produced starting from standard xylan. • A mixture of XOS with DP 6–9 was obtained through preparative SEC purification. • Further knowledge has been gained about in vitro antioxidant activity of XOS. Antioxidant activity of oligosaccharides is very discussed, and the relationship between their chemical structure and functionality is not clear. In this work, XOS, with different degrees of polymerization, acetylation and purity were produced starting from commercial xylans by enzymatic hydrolysis coupled with tangential ultrafiltration. A purified mixture containing DP 6–9 XOS was also produced. A detailed molecular characterization of all the XOS mixtures was performed by LC-MS, HPSEC-RID and 1H NMR. In vitro antioxidant activity was then tested against the stable DPPH free-radical. It was found that standard pure xylose and DP 2–6 XOS had very low scavenging capacity, while DP 6–9 XOS had a great one. In general, unsubstituted XOS are more antioxidant than acetylated ones, and a higher DP favours an increase in this functionality at first, then a decrease when molecular weights become higher. [ABSTRACT FROM AUTHOR]

Published

2023

12. Mercury photoreduction and photooxidation kinetics in estuarine water: Effects of salinity and dissolved organic matter.

Author

Clarke, Rachel G., Klapstein, Sara J., Keenan, Robert, and O'Driscoll, Nelson J.

Subjects

*PHOTOREDUCTION, *ULTRAFILTRATION, *MERCURY, *SALINITY, *PHOTOOXIDATION, *ORGANIC compounds

Abstract

Net photoreduction of divalent mercury (Hg(II)) and volatilization of photoreduction products (i.e., elemental mercury (Hg(0))/dissolved gaseous mercury (DGM)) is a mechanism by which mercury burdens in ecosystems are lessened. The effects of salinity on mercury photoreactions were investigated while controlling the concentration of DOM (>1 kDa) using natural surface water from the tidal Jijuktu'kwejk (Cornwallis River) and processed with a tangential ultrafiltration-dilution technique. Pseudo first-order rate constants in estuarine water salinity dilutions ranged between 0.22 h−1 and 0.73 h−1. The amount of mercury available for photoreduction (Hg(II) RED) ranged between 67.2 and 265.9 pg. Pseudo first-order rate constants decreased with increasing salinity treatments (0–13.5 g L−1), with minimal change in rate constants occurring in higher salinity treatments (e.g. 20.3 or 26.8 g L−1), while Hg(II) RED increased with salinity. In lower salinity treatments, DOM was more photoactive. Taken together, results suggest changes in the mercury photoreduction mechanism from DOM-bound electron transfer to photochemically produced secondary reduction products with increasing salinity. Experiments examining photooxidation showed decreases in Hg (0) with longer exposure time, suggesting transformation of Hg(II) RED into a non-reducible form. This research highlights the importance of salinity and DOM interactions in estuarine surface water and their effects on mercury photochemistry. [Display omitted] • Photoreduction of divalent mercury (Hg(II)) and can lessen both mercury concentrations and methylation potential in ecosystems. • Photoreduction rates ranged between 0.22 h−1 and 0.73 h−1 and photoreducible mercury (Hg(II) RED) between 67.2 and 265.9 pg. • Photoreduction rates decreased with increasing salinity (0–13.5 g L−1), with minimal change at higher salinities, while Hg(II) RED increased with salinity. The influence of salinity on mercury photoreactions in estuaries is not well studied. This study reports interactions between salinity and DOM, potentially inhibiting Hg(II) photoreduction in estuaries. [ABSTRACT FROM AUTHOR]

Published

2023

13. Towards field trace metal speciation using electroanalytical techniques and tangential ultrafiltration.

Author

Monteiro, Adnívia Santos Costa, Parat, Corinne, Rosa, André Henrique, and Pinheiro, José Paulo

Subjects

*TRACE metals, *CHEMICAL speciation, *ELECTROCHEMICAL analysis, *ULTRAFILTRATION, *CHRONOAMPEROMETRY, *LIGANDS (Chemistry)

Abstract

In this work we propose a trace metal speciation methodology to determine the total, free and ultrafiltered (<1 KDa) metal fractions using electrochemical methods (SCP and AGNES) and tangential ultrafiltration (UF) experiments that can easily be carried out on-site. We tested our methodology spiking Cadmium ions into two natural waters samples from Itapanhau and Sorocabinha rivers in Sao Paulo State, Brazil. The limits of detection (LOD) was 1.6×10 −9 M for the total Cd 2+ determination performed by Stripping Chronopotentiometry (SCP) in the source and acidified ultrafiltered solution and 1.9×10 −9 M for the free Cd 2+ determination using Absence of gradients and Nernstian equilibrium stripping (AGNES), using a thin mercury film electrode. The total metal determination was performed by SCP in acidified samples and the results compared with graphite furnace atomic absorption spectroscopy (GF-AAS). The SCP results were adequate with a 96% of recovery from the known metal spike for the 12 samples tested. For the Itapanhau sample the free metal determined by AGNES and the ultrafiltered fraction are identical, while for the Sorocabinha the free metal in the source is significantly smaller than the ultrafiltered fraction, indicating that this sample must be rich in metal complexes with small inorganic ligands that are able to permeate the 1 kDa membrane. The proposed metal speciation methodology validated in the laboratory combining UF and SCP/AGNES is able to be used in on-site experiments providing valid information regarding the total and free metal concentrations and additionally some insight on the role of small inorganic ligands to the metal complexation. [ABSTRACT FROM AUTHOR]

Published

2016

14. Experimental Technology for O-Antigens Production of Non-Toxigenic Strains of Vibrio cholerae

Author

S. A. Eremin, A. V. Komissarov, O. A. Volokh, I. A. Shepelev, O. V. Gromova, A. K. Nikiforov, Yu. A. Aleshina, N. G. Avdeeva, and N. I. Belyakova

Subjects

холерная вакцина, о-антиген, культивирование, концентрирование, тангенциальная ультрафильтрация, cholera vaccine, o-antigen, cultivation, concentration, tangential ultrafiltration, Infectious and parasitic diseases, RC109-216

Abstract

Determined are the key bio-kinetic indexes of submerged cultivation of Vibrio cholerae non-toxigenic strains, producers of O-antigens. Evaluated is the technology of O-antigen concentration using tangential ultrafiltration technique. The results suggest the principal possibility of using these strains for biologically safe production of chemical cholera vaccines.

Published

2013

15. Development of the Experimental Technology for Protective Antigens of Vibrio cholerae 569B Inaba Concentration by Means of Tangential Ultrafiltration

Author

A. V. Komissarov, S. A. Eremin, A. Yu. Ul`yanov, Yu. A. Aleshina, A. K. Nikiforov, Yu. G. Vasin, O. D. Klokova, and N. I. Belyakova

Subjects

cholera vaccine, cholera-anatoxin, o-antigen, concentrating procedure, tangential ultrafiltration, Infectious and parasitic diseases, RC109-216

Abstract

Worked out is the experimental technology for protective antigens of Vibrio cholerae 569 B Inaba (cholera-anatoxin and O-antigen) concentrating by means of tangential ultrafiltration. Optimization of concentrating technological process is carried out. This technique makes it possible to obtain cholera vaccine components meeting all regulatory requirements.

Published

2011

16. Tangential Flow Ultrafiltration Allows Purification and Concentration of Lauric Acid-/Albumin-Coated Particles for Improved Magnetic Treatment.

Author

Zaloga, Jan, Stapf, Marcus, Nowak, Johannes, Pöttler, Marina, Friedrich, Ralf P., Tietze, Rainer, Lyer, Stefan, Lee, Geoffrey, Odenbach, Stefan, Hilger, Ingrid, and Alexiou, Christoph

Subjects

*ULTRAFILTRATION, *PERMEABILITY, *PARTICULATE matter, *COLLOIDS, *LAURIC acid

Abstract

Superparamagnetic iron oxide nanoparticles (SPIONs) are frequently used for drug targeting, hyperthermia and other biomedical purposes. Recently, we have reported the synthesis of lauric acid-/albumin-coated iron oxide nanoparticles SEONLA-BSA, which were synthesized using excess albumin. For optimization of magnetic treatment applications, SPION suspensions need to be purified of excess surfactant and concentrated. Conventional methods for the purification and concentration of such ferrofluids often involve high shear stress and low purification rates for macromolecules, like albumin. In this work, removal of albumin by low shear stress tangential ultrafiltration and its influence on SEONLA-BSA particles was studied. Hydrodynamic size, surface properties and, consequently, colloidal stability of the nanoparticles remained unchanged by filtration or concentration up to four-fold (v/v). Thereby, the saturation magnetization of the suspension can be increased from 446.5 A/m up to 1667.9 A/m. In vitro analysis revealed that cellular uptake of SEONLA-BSA changed only marginally. The specific absorption rate (SAR) was not greatly affected by concentration. In contrast, the maximum temperature Tmax in magnetic hyperthermia is greatly enhanced from 44.4 °C up to 64.9 °C by the concentration of the particles up to 16.9 mg/mL total iron. Taken together, tangential ultrafiltration is feasible for purifying and concentrating complex hybrid coated SPION suspensions without negatively influencing specific particle characteristics. This enhances their potential for magnetic treatment. [ABSTRACT FROM AUTHOR]

Published

2015

17. Ultrafiltration-assisted retention of Cu(II) ions by adsorption on chitosan-functionalized colloidal silica particles.

Author

Escoda, Aurélie, Euvrard, Myriam, Lakard, Sophie, Husson, Jérôme, Mohamed, Ahmed Said, and Knorr, Michael

Subjects

*ULTRAFILTRATION, *COPPER ions, *COPPER absorption & adsorption, *CHITOSAN, *SILICA gel, *ENCAPSULATION (Catalysis)

Abstract

Highlights: [•] Cu(II) removal was studied by a combined process. [•] Adsorption is coupled with ultrafiltration in the tangential mode. [•] The adsorbents are colloidal silica particles functionalized by grafting or encapsulation. [•] The retention of Cu(II) increases when adsorption is coupled with ultrafiltration. [•] The filtration step improves the rejection rate up to 31%. [Copyright &y& Elsevier]

Published

2013

18. Improvement in the Purification Process of the Capsular Polysaccharide from Haemophilus influenzae Type b by Using Tangential Ultrafiltration and Diafiltration.

Author

Albani, Silvia, Silva, Mateus, Takagi, Mickie, and Cabrera-Crespo, Joaquin

Abstract

Capsular polysaccharide produced by Haemophilus influenzae b (Hib) is the main virulent agent and used as the antigen in the vaccine formulation. In this study, an improved process of polysaccharide purification was established based on tangential flow ultrafiltration using detergents (cocamidopropyl betaine and sodium deoxycholate), two selective ethanol precipitations steps, and extensive enzymatic hydrolysis as strategy. The relative purity (RP) related to protein and nucleic acids were 122∼263 and 294∼480, respectively, and compatible with the specifications established by the World Health Organization for Hib vaccine, RP ≥ 100. These results make this process simple, cheaper, efficient, environmentally friendly, and prone to be scaled up. [ABSTRACT FROM AUTHOR]

Published

2012

19. Size distribution of methylmercury associated with particulate and dissolved organic matter in freshwaters

Author

Hill, Jonathan R., O'Driscoll, Nelson J., and Lean, David R.S.

Subjects

*METHYLMERCURY & the environment, *POLLUTION, *PARTICLE size distribution, *PARTICULATE matter, *DISSOLVED organic matter, *WATER pollution, *ULTRAFILTRATION, *RESOURCE partitioning (Ecology)

Abstract

Abstract: Water samples were collected from 20 wetland, river and lake sites across Eastern Ontario and Western Quebec to investigate the distribution of methylmercury (MeHg) associated with various size fractions of dissolved organic matter (DOM). Tangential Flow UltraFiltration (TUF) was used to fractionate DOM by nominal molecular size (<0.2μm, <300kDa, <30kDa, <5kDa and <1kDa). DOM fluorescence (DOM FL) and absorbance (DOC Abs) were used to quantify DOM photoreactivity and aromaticity in each sample. Significant differences in the size-associated distribution of MeHg, Dissolved Organic Carbon (DOC), DOM FL, and DOM Abs were observed between wetlands, rivers, and lakes. The low molecular weight (LMW) fraction (<5kDa) in wetlands contained the majority of MeHg (70.0±13.8%), DOC (56.1±9.4%), and DOM FL (77.4±7.5%). DOM FL was also high in the LMW fraction for rivers (60.6±25%) and lakes (75.2±16.9%). Mean MeHg concentrations in the LMW fraction of lakes (41±26pgL−1) and rivers (32±19pgL−1) were substantial but much lower than wetlands. Rivers had the highest percentage of methylmercury (38.0±23.5%) in the particulate (>0.2µm) fraction. This research highlights the importance of low molecular weight dissolved organic matter in methylmercury fate. For example, a large proportion of MeHg was found in the LMW weight fractions (mean=47.3±25.4%) of the wetlands, rivers, and lakes in this study. [Copyright &y& Elsevier]

Published

2009

20. A large molecular size fraction of riverine high molecular weight dissolved organic matter (HMW DOM) stimulates growth of the harmful dinoflagellate Alexandrium minutum

Author

Fagerberg, Tony, Carlsson, Per, and Lundgren, Mikael

Subjects

*DISSOLVED organic matter, *DINOFLAGELLATES, *TOXIC algae, *MOLECULAR weights, *PHYSIOLOGICAL effects of chemicals, *ULTRAFILTRATION, *AQUATIC biology

Abstract

Abstract: An increase in the concentration of riverine dissolved organic matter (DOM) has been observed during the last decades, and this material can stimulate marine plankton in coastal waters with significant freshwater input. We studied the effect of two size fractions of riverine high molecular weight dissolved organic matter (HMW DOM), isolated with tangential ultrafiltration, on the harmful dinoflagellate Alexandrium minutum and a natural isolate of marine bacteria under laboratory conditions. Both A. minutum and bacteria grew significantly better with the low MW DOM compared to both the high MW DOM fraction and controls (no DOM additions). This experiment demonstrates that the harmful algae A. minutum and bacteria benefit from larger molecules of river HMW DOM, and highlights the potential of A. minutum to utilize organic nitrogen from large DOM molecules. This ability may enhance their likelihood of success in estuaries/costal waters with a humic rich freshwater input, especially when the relative amount of large molecules within DOM is more pronounced. [Copyright &y& Elsevier]

Published

2009

21. Purification of capsular polysaccharide produced by Haemophilus influenzae type b through a simple, efficient and suitable method for scale-up.

Author

Takagi, Mickie, Lima, Rodrigo Barbosa, Albani, Silvia Maria Ferreira, Zangirolami, Teresa Cristina, Tanizaki, Martha Massuko, and Cabrera-Crespo, Joaquin

Subjects

*POLYSACCHARIDES, *CHEMICAL purification, *HAEMOPHILUS influenzae, *BACTERIAL cultures, *ULTRACENTRIFUGATION, *PRECIPITATION (Chemistry), *ENDOTOXINS, *BIOLOGICAL transport, *ULTRAFILTRATION

Abstract

Haemophilus influenzae type b, an encapsulated bacterium, causes meningitis in infants worldwide. The capsular polysaccharide conjugated to a carrier protein is effective in the prevention of such infections. The traditional purification process of polysaccharide from bacterial cultures for vaccine production is based on several selective precipitations with solvents such as: ethanol, phenol, and cationic detergents. The separations of solid and liquid phases are based on continuous centrifugation in explosion proof installations. The lipopolysaccharides are separated by ultracentrifugation. A simple and efficient method that can easily be scaled-up was developed for purification of polysaccharides. The ethanol precipitation was reduced to only two steps. The phenol treatment was substituted by ultrafiltration and enzymatic digestion. Lipopolysaccharide was removed by ultrafiltration together with addition of detergent and chelating agent. [ABSTRACT FROM AUTHOR]

Published

2008