Teses / dissertações sobre o tema "Membrane filters"
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Li, Hong-yu Graduate School of Biomedical Engineering Faculty of Engineering UNSW. "Mechanism studies for crossflow microfiltration with pulsatile flow". Awarded by:University of New South Wales. Graduate School of Biomedical Engineering, 1995. http://handle.unsw.edu.au/1959.4/17858.
Texto completo da fonteDeng, Shi. "Development of a coarse pore membrane bioreactor with in-situ membrane cleaning /". View abstract or full-text, 2007. http://library.ust.hk/cgi/db/thesis.pl?EVNG%202007%20DENG.
Texto completo da fonteBorkar, Neha. "Characterization of microporous membrane filters using scattering techniques". University of Cincinnati / OhioLINK, 2010. http://rave.ohiolink.edu/etdc/view?acc_num=ucin1289943937.
Texto completo da fonteNel, A. M. "Removal of organic foulants from capillary ultrafiltration membranes by use of ultrasound". Thesis, Link to the online version, 2006. http://hdl.handle.net/10019/1997.
Texto completo da fonteWong, Hiu Man. "Removal of pathogens by membrane bioreactor : removal efficiency, mechanisms and influencing factors /". View abstract or full-text, 2004. http://library.ust.hk/cgi/db/thesis.pl?CIVL%202004%20WONGH.
Texto completo da fonteIncludes bibliographical references (leaves 93-102). Also available in electronic version. Access restricted to campus users.
Parameshwaran, Kathiravelu Chemical Sciences & Engineering Faculty of Engineering UNSW. "Enhancing membrane processes for water reuse". Awarded by:University of New South Wales. Chemical Sciences & Engineering, 2008. http://handle.unsw.edu.au/1959.4/41495.
Texto completo da fontePang, Shing Kin. "Development of a low-cost membrane with used non-woven material for wastewater treatment /". View abstract or full-text, 2006. http://library.ust.hk/cgi/db/thesis.pl?CIVL%202006%20PANG.
Texto completo da fonteBahia, Adilson Silva [UNESP]. "Tratamento de efluente de curtume por biofiltro aerado Submerso pré-tratado com microfiltro de membrana". Universidade Estadual Paulista (UNESP), 2014. http://hdl.handle.net/11449/111149.
Texto completo da fonteOs efluentes do processo de industrialização do couro em curtumes apresentam, além de elevadas concentrações de matéria orgânica em termos de Demanda Química de Oxigênio (DQO) e Demanda Bioquímica de Oxigênio (DBO), altas concentrações de sólidos totais, suspensos e sulfeto, o que torna o tratamento destes efluentes problemático. O objetivo do presente trabalho foi avaliar a biotratabilidade dos efluentes de curtumes por meio do tratamento por Biofiltro Aaerado Submerso (BF) após pré-tratamento por membrana de microfiltração. Os resultados mostraram que pode haver a viabilidade técnica no uso de BF para remoção de matéria orgânica e sulfeto de águas residuárias industriais de curtume, pois atingiram, respectivamente, a remoção 84% e 98 %
The effluents from leather tanning process have in addition to high concentrations of organic matter in terms of Chemical Oxygen Demand (COD) and Biochemical Oxygen Demand (BOD), high concentrations of total solids, total suspended solids and sulfide, which makes problematic the treatment of these effluents. The objective of this study was to evaluate the biotreatability of tannery effluent by submerged aerated biofilter after microfiltration membrane pretreatment. The results showed that can be used in the technical feasibility of BF removal of organic sulphide and industrial raw tannery wastewater as it amounted, respectively, removal to 84% and 98%
Bahia, Adilson Silva. "Tratamento de efluente de curtume por biofiltro aerado Submerso pré-tratado com microfiltro de membrana /". Ilha Solteira, 2014. http://hdl.handle.net/11449/111149.
Texto completo da fonteBanca: Liliane Lazzari Albertin
Banca: Luis Fernando Rossi Léo
Resumo: Os efluentes do processo de industrialização do couro em curtumes apresentam, além de elevadas concentrações de matéria orgânica em termos de Demanda Química de Oxigênio (DQO) e Demanda Bioquímica de Oxigênio (DBO), altas concentrações de sólidos totais, suspensos e sulfeto, o que torna o tratamento destes efluentes problemático. O objetivo do presente trabalho foi avaliar a biotratabilidade dos efluentes de curtumes por meio do tratamento por Biofiltro Aaerado Submerso (BF) após pré-tratamento por membrana de microfiltração. Os resultados mostraram que pode haver a viabilidade técnica no uso de BF para remoção de matéria orgânica e sulfeto de águas residuárias industriais de curtume, pois atingiram, respectivamente, a remoção 84% e 98 %
Abstract: The effluents from leather tanning process have in addition to high concentrations of organic matter in terms of Chemical Oxygen Demand (COD) and Biochemical Oxygen Demand (BOD), high concentrations of total solids, total suspended solids and sulfide, which makes problematic the treatment of these effluents. The objective of this study was to evaluate the biotreatability of tannery effluent by submerged aerated biofilter after microfiltration membrane pretreatment. The results showed that can be used in the technical feasibility of BF removal of organic sulphide and industrial raw tannery wastewater as it amounted, respectively, removal to 84% and 98%
Mestre
Li, Jianxin. "Real-time investigation of fouling phenomena in membrane filtrations by a non-invasive ultrasonic technique". Thesis, Stellenbosch : Stellenbosch University, 2002. http://hdl.handle.net/10019.1/53027.
Texto completo da fonteSome digitised pages may appear illegible due to the condition of the original hard copy.
ENGLISH ABSTRACT: Membrane fouling is universally accepted as one of the most critical problems limiting the wider application of membranes in liquid separations. The development and utilization of a suitable non-invasive technique for the on-line monitoring of fouling in industrial and laboratory applications may enable the effectiveness of fouling remediation and cleaning strategies to be quantified. The overall objective of this research is to develop ultrasonic time-domain reflectometry (UTDR) and its use as an analytical tool for the real-time study of inorganic-, organic- and protein- fouling of various types of membranes including nylon, polysulfone (PSU) and polyethersulfone (PESU) and modules, including flatsheet and tubular types. Different separation systems including microfiltration (MF) and ultrafiltration (UF), flat-sheet and tubular modules, and suitable ultrasonic probes were used in this study. Results of this study show a good correlation between the UTDR signal response and the development of a fouling layer on a membrane surface. UTDR effectively detected the appearance, growth and movement of a fouling layer echo as fouling proceeded. Cake (fouling)-layer compressibility was observed by UTDR. The structure and compaction of an asymmetric PSU membrane could be detected by UTDR. UTDR was also successfully used for monitoring membrane cleaning and evaluating the cleaning effectiveness o f various cleaning methods. UTDR results corroborated the flux measurements and SEM analyses. The ultrasonic unit is a programmed microprocessor, and can be used to compare reference and test signals to produce a differential signal (a fouling layer echo). A differential signal indicates the state and progress o f a fouling layer on the membrane surface in actual operations. Both amplitude and arrival time of differential signals as a function of operation time provide useful quantitative information, i.e. changes in thickness and density of a fouling layer, on the fouling processes. A predictive modelling program, ultrasonic reflection modelling (URM), was developed to describe the processes of ultrasonic testing related to the deposition of fouling layers on membrane surfaces. The mathematical model could substantiate changes in the densities of the fouling layer as well as the thickness. This is important as deposit resistance to flow is related to both thickness and density (compressibility). The predicted results of cake layer deposition are in good agreement with the actual UTDR measurements obtained in MF and UF. Furthermore, protein fouling was successfully detected in tubular UF by UTDR. Ultrasonic frequency spectra could be used as an additional tool for fouling detection.
AFRIKAANSE OPSOMMING: Membraan-aanvuiling of -verstopping is die grootste struikelblok wat die meer algemene aanwending van membrane vir verskillende watersuiweringsprosesse beinvloed. Die ontwikkeling en gebruik van ‘n geskikte nie-inmengende tegniek vir die in-lyn meting van aanvuiling van membrane in laboratorium-en nywerheidstoepassings mag ‘n geleentheid bied vir die kwantifisering van die verwydering van aanvuiling en skoonmaakstrategiee. Die hoofdoel van hierdie studie was die ontwikkeling van ultrasoniese tydgebiedsweerkaatsing (Eng: ultrasonic time-domain reflectometry, UTDR) en die gebruik daarvan as ‘n analitiese metode vir die studie van anorganiese-, organiese- en bio-besoedeling op verskeie tips membrane, insluitend nylon, polisufoon (PSU) en polietersulfoon (PESU), in beide platvel- en buismodules. Verskeie skeidingsisteme, insluitend mikrofiltrasie (MF) en ultrafiltrasie (UF) is ontwerp en gebruik in hierdie studie. Eksperimentele resultate het goeie ooreenstemming tussen die UTDR seinrespons en die ontwikkeling van ‘n aanvuilingslaag op die membraanoppervlakte bewys. Die ultrasoniese tegniek kon die vorming, groei en beweging van ‘n bevuilingslaagterugkaartsing waarneem namate bevuiling vorder. Aanvuilingslaagsamepersing is deur UTDR waargeneem. Die struktuur en samepersing van ‘n asimmetriese PSU membraan is ook deur UTDR gesien. UTDR is verder suksesvol gebruik om die skoonmaak van membrane te monitor en om die skoonmaakgeskiktheid (cleaning effectiveness) van verskeie skoonmaakmetodes te bepaal. UTDR resultate het permeaatvloeimetings en SEM analyses bevestig. Die ultrasoniese eenheid is ‘n geprogrameerde mikroverwerker, en kan gebruik word om verwysings- en toetsseine te vergelyk, en dan ‘n differensiaalsein te gee (‘n aanvuilingslaagweerklank). ‘n Differensiaalsein dui die toestand en vordering van ‘n aanvuilingslaag op die membraanoppervlakte gedurende gebruik aan. Beide amplitude asook aankomstyd van differensiaalseine as funksies van gebruikstyd verskaf bruikbare kwantatiewe inligting, dws. Veranderings in die dikte en digtheid van ‘n aanvuilingslaag, op die aanvuilingsproses. ‘n Voorspellingsmodelleringprogram - ultrasonieseweerkaatsingsmodellering (Eng: ultrasonic reflection modeling, URM) is ontwikkel om die proses van ultrasoniese toetsing by die deponering van aanvuilingslae op membraanoppervlaktes beter te beskryf. Veranderings in die digtheid en dikte van die aanvuilingslaag teenvloei is verwant aan dikte en digtheid (saampersbaarheid). Die voorspelde resultate van aanvuilingslaagdeponering stem goed ooreen met die werklike UTDR-metings wat in MF en UF gemaak is. Bio-aanvuiling is suksesvol waargeneem deur UTDR in buisvormige UF membrane. Ultrasoniese frekwensiespektra kan dus as ‘n bykomende metode gebruik word vir die waarneming van aanvuiling op skeidingsmembrane.
Melamane, Xolisa. "Cleaning of fouled membranes using enzymes from a sulphidogenic bioreactor". Thesis, Rhodes University, 2004. http://hdl.handle.net/10962/d1015764.
Texto completo da fonteYe, Yun School of Chemical Engineering & Industrial Chemistry UNSW. "Macromolecular fouling during membrane filtration of complex fluids". Awarded by:University of New South Wales. School of Chemical Engineering and Industrial Chemistry, 2005. http://handle.unsw.edu.au/1959.4/33245.
Texto completo da fonteYu, Di. "Inorganic mesoporous membrane for water purification applications synthesis, testing and modeling /". Columbus, Ohio : Ohio State University, 2006. http://rave.ohiolink.edu/etdc/view?acc%5Fnum=osu1162323090.
Texto completo da fontePoletto, Patrícia. "Caracterização de membranas de poliamida 66 preparadas pelo método de inversão de fases". reponame:Repositório Institucional da UCS, 2010. https://repositorio.ucs.br/handle/11338/573.
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In the present study, polyamide 66 (PA 66) membranes were prepared by phase inversion (PI) and characterized in order to verify their potential application in separation processes. PA 66 membranes were prepared using two different solvents, formic acid (FA) and chloridric acid (HCl), and water as a non-solvent. Membranes prepared in film form (not supported) were characterized by Fourier-transform infrared spectroscopy (FT-IR) and differential scanning calorimetry (DSC) and the results showed that the chemical structure and thermal behavior of the PA 66 were not altered by the use of acids as solvents. The films revealed an asymmetric structure with a dense top layer and a porous sublayer featuring spherical pores observed by scanning electron microscopy (SEM). The thickness of the dense layer varied from 10 to 25 μm in films prepared with FA and HCl, respectively. The increase in thickness of the dense layer, i.e., the reduction of empty spaces, directly influenced the results regarding water absorption percentage and total porosity. The porosity found was 15% and 50% for films prepared with FA and HCl, respectively. Water vapor flux was lower in films with a thicker dense layer as a result of a greater resistance to mass transfer. In order to increase mechanical resistance in polyamide films, supported membranes with polyester fabric were prepared for latter application in separation processes through high pressure. Supported membranes were characterized by BET techniques for the determination of pore size, reverse osmosis and ultrafiltration assays. Both membranes prepared with FA and HCl showed very similar pore sizes when analyzed by/with BET. A compression assay with pure water performed at a pressure of 40 bar revealed that membranes prepared with FA undergo greater compaction of its structure and had a permeate flux value of approximately 22 Lm-2h-1 whereas the membrane prepared with HCl had a permeate flux value of 312 Lm-2h-1. On reverse osmosis assays, the maximum rejection to sodium chloride was 7% and 4% for FA-3 and HCl-3 membranes, respectively. On ultrafiltration assays, performed at 15 bar, both membranes had rejection values close to 70% for egg albumin and 80% for bovine albumin. Based on this result, it is possible to conclude that both membranes revealed pore size and rejection characteristics for application in ultrafiltration processes.
Maskan, Fazilet Chemical Engineering & Industrial Chemistry UNSW. "Optimization of reverse osmosis membrane networks". Awarded by:University of New South Wales. Chemical Engineering and Industrial Chemistry, 2000. http://handle.unsw.edu.au/1959.4/18790.
Texto completo da fonteBarbe, Aron Mervyn. "The fouling of hydrophobic, microporous membranes used in osmotic distillation". Thesis, Queensland University of Technology, 2001.
Encontre o texto completo da fonteWang, Li. "Internal surface coating and photochemical modification of polypropylene microfiltration membrane". Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1997. http://www.collectionscanada.ca/obj/s4/f2/dsk2/ftp03/NQ30119.pdf.
Texto completo da fonteRamli, Nor Hanuni. "Ultrafiltration of polydisperse colloidal silica". Thesis, Swansea University, 2012. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.678552.
Texto completo da fonteBiron, Dionisio da Silva. "Preparação e caracterização de membranas impregnadas com nanopartículas de prata e cobre e sua aplicação na desinfecção da água". reponame:Repositório Institucional da UCS, 2016. https://repositorio.ucs.br/handle/11338/1181.
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior, CAPES
Camargo, Liliane Rodrigues 1981. "Formação de biofilmes microbianos em membranas poliméricas de poliamida e polietersulfona e seu controle por agentes sanitizantes". [s.n.], 2011. http://repositorio.unicamp.br/jspui/handle/REPOSIP/255788.
Texto completo da fonteDissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia de Alimentos
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Resumo: O grande consumo de águas minerais tem alavancado muitos estudos de relação caracterização microbiológica, nas mais diversas regiões brasileiras. Trabalhos revelam que a grande maioria das águas brasileiras envasadas e águas de poços artesianos possuem contaminação microbiana, causando grande preocupação com relação à qualidade da água a ser consumida. Dentre os processos para tratamento da água mineral, a fim de atender as exigências comerciais e de legislações, está a microfiltração. O processo consiste da utilização de filtros de membranas poliméricas, nos quais os microrganismos ficam retidos (barreira mecânica). De acordo com a Resolução RDC nº 275/2005 Agência Nacional de Vigilância Sanitária (ANVISA), os microrganismos Escherichia coli e Pseudomonas aeruginosa, estão inseridos, juntamente com outras bactérias, como Enterococos, Clostridium perfringens e coliformes totais no quadro de controle microbiano de águas minerais. Devido à utilização dos filtros de membrana para controle destes microrganismos, há a necessidade da realização da sanitização desses filtros para evitar proliferação de microrganismos na superfície; prevenindo o entupimento dos poros da membrana e contaminação do processo. O sanitizante a base de ácido peracético e água quente são os principais agentes sanitizantes utilizados na indústria de água mineral para sanitização de equipamentos. Assim este trabalho objetivou avaliar a formação de biofilme microbiano de Escherichia coli e Pseudomonas aeruginosa em membranas poliméricas de poliamida e polietersulfona e a eficiência da sanitização das membranas por solução de ácido peracético a 0,1%, 0,2% e água quente a 85 ºC em dois diferentes tempos de contato, 10 minutos e 20 minutos. O teste foi realizado através do contato de cupons de 1 cm2 das membranas com o inóculo na concentração de 104 UFC/ mL, em temperaturas de 5, 25 e 35ºC e a análise dos cupons após 24h, 48h e 72h de contato. A quantidade de células aderidas de Escherichia coli para ambas as membranas foi de 4 log UFC/ cm2 para as primeiras 24h de contato, chegando até 6 log UFC/cm2 após 72h de contato para a temperatura de 35ºC. Para Pseudomonas aeruginosa, o comportamento de adesão foi similar, onde a maior quantidade chegou à 6,25 log UFC/cm2 após 72h de contato para a temperatura de 25ºC. Para avaliar a eficiência dos agentes sanitizantes, os cupons foram submetidos ao processo de adesão dos microrganismos e após 24 horas de contato na temperatura de 35ºC foram colocados em contato com a solução sanitizante à base de ácido peracético 0,1%, 0,2% e água quente à 85ºC durante 10 e 20 minutos. Os sanitizantes utilizados ofereceram grande eficiência na redução das bactérias aderidas nas membranas. A concentração do sanitizante químico mais efetivo foi 0,2% para 10 e 20 minutos de contato, onde cerca de 80% dos cupons tiveram redução de > 4 Log UFC/cm2. A água na temperatura de 85ºC em ambos os tempos de contato (10 minutos e 20 minutos) também ofereceu grande eficiência na redução logarítmica dos microrganismos, onde 100% dos cupons apresentaram redução > 4 Log UFC/cm2
Abstract: The high consumption of mineral water has leveraged many studies regarding microbiological, in several brazilian regions. Papers reveal that the vast majority of brazilian bottled waters and water from artesian wells have microbiological contamination, causing great concern about the quality of water being consumed. Among the processes for treatment of mineral water in order to meet business requirements and laws is microfiltration. The process consist in the use of polymer membrane filters, the where the microorganisms are withheld (mechanical barrier). According to Resolution RDC 275/2005 of National Agency for Sanitary Vigilance (ANVISA) microorganisms Escherichia coli and Pseudomonas aeruginosa, are inserted, along with other bacteria such as Enterococcus, Clostridium perfringens and total coliforms under control of microbiological characteristics of mineral waters. Due to the use of membrane filters to control these microorganisms, there is the need to perform sanitization filters to prevent the proliferation of microorganisms on the surface, preventing the clogging of the pores of the membrane and process contamination. The sanitizing the basis of peracetic acid and hot water are the main agents sanitizers available in the industry of mineral water to equipments sanitize. This study aimed to evaluate the microbial biofilm formation of Escherichia coli and Pseudomonas aeruginosa in polymeric membranes of polyamide and polyethersulfone membranes and the sanitizing ef ficiencyprocess with of peracetic acid 0.1%, 0.2% and hot water at 85 °C in two different contact times, 10 minutes and 20 minutes. The test was conducted through the contact of coupons with 1 cm2 of the membranes in the inoculum with concentration of 104 CFU /mL, at temperatures of 5, 25 and 35 °C and an alysis of the coupons after 24h, 48h and 72h of contact. The amount of Escherichia coli cells attached to both membranes was 4 log CFU /cm2 for the first 24 hours of contact, reaching 6 log CFU /cm2 after 72 hours of contact to a temperature of 35 °C. For Pseudomonas aeruginosa, the adherence behavior was similar, where the largest amount reached 6.25 log CFU /cm2 after contact for 72 hours at 25 º C. To evaluate the effectiveness of sanitizing agents, the coupons were subjected to the adhesion of microorganisms and after 24 hours of contact at 35 ºC were placed in contact with the sanitizing solution based on peracetic acid 0.1%, 0.2% and hot water at 85 °C for 10 to 20 minutes. The sanitizers used offered high efficiency in reducing bacteria attached on the membranes. The concentration of chemical sanitizer most effective was 0.2% for 10 and 20 minutes of contact, where about 80% of the coupons was reduced by > 4 Log CFU/cm2. The water temperature at 85 °C in both contact times (10 and 20 minutes) also offered greater efficiency in logarithmic reduction of microorganisms, where 100% of the coupons showed a reduction > 4 Log UFC/cm2
Mestrado
Mestre em Tecnologia de Alimentos
Mbanjwa, Mesuli Bonani. "Ultrasonic measurement of membrane fouling during microfiltration of natural brown water". Thesis, Cape Peninsula University of Technology, 2007. http://hdl.handle.net/20.500.11838/890.
Texto completo da fonteThe removal of the colour-eausing natural organic matter (NOM) from natural brown water (NSW) to be used for drinking purposes is of paramount importance. One of the methods available to remove NOM from NSW is the use of pressure-driven membrane separation systems. One of the limitations in efficiently applying membrane filtration in the treatment of NOM-eontaining water is membrane fouling that is caused by foulants, such as NOM, that accumulate on the membrane surface and in the membrane pores. Microfiltration (MF), as a membrane separation system, is susceptible to severe membrane fouling during membrane filtration of NSW. Fouling is characterized by a rapid decline in permeate flux and loss of productivity. Progress in developing more effective control and prevention of fouling is impeded by the absence of suitable fouling measurement and characterization techniques. An in situ method for measuring membrane fouling is necessary for detection of membrane fouling during MF of NSW at the eartiest stages so that the corrective actions can be taken before fouling is permanently adsorbed onto the membrane surface. In this study, an ultrasonic-based method was effectively used to detect and measure the growth of membrane fouling dUring MF of NSW, in situ. Fouling exp~riments results showed the formation of a new peak on the ultrasonic response echo signal due to the presence of a fouling layer on the surface of the membrane. The ultrasonic signals acquired during the in-situ detection of membrane fouling were analysed using wavelet transforms (WTs). Wavelet analysis was applied to differential signals to obtain additional information about fouling. Differential signals were calculated by subtracting the baseline measurement signals from the test signals. The presence of the fouling layer on membranes was verified by atomic force microscopy (AFM) and scanning electron microscopy (SEM) analyses of the fouled membranes.
Gregory, Sean. "Development of instrumentation for the investigation of surface regeneration for candle filters". Morgantown, W. Va. : [West Virginia University Libraries], 2001. http://etd.wvu.edu/templates/showETD.cfm?recnum=2238.
Texto completo da fonteTitle from document title page. Document formatted into pages; contains xii, 102 p. : ill. (some col.). Vita. Includes abstract. Includes bibliographical references (p. 80-81).
Peterson, Emily Cassidy. "Shear-induced microstructure in hollow fiber membrane dopes". Diss., Georgia Institute of Technology, 2013. http://hdl.handle.net/1853/50245.
Texto completo da fonteNeal, Peter Ross Chemical Sciences & Engineering Faculty of Engineering UNSW. "An examination of the nature of critical flux and membrane fouling by direct observation". Awarded by:University of New South Wales. School of Chemical Sciences and Engineering, 2006. http://handle.unsw.edu.au/1959.4/30584.
Texto completo da fonteMalherbe, Gideon Francois. "Development and application of ultrafiltration and reverse osmosis membranes". Thesis, Cape Technikon, 1993. http://hdl.handle.net/20.500.11838/908.
Texto completo da fonteVarious experimental and established membranes were tested on industrial effluents. Ultrafiltration, reverse osmosis and nanofiltration membranes were used in various applications. Research was done on aspects such as the cleaning of fouled membranes, production quality control and process development. Polyvinyl alcohol ultra-thin-film reverse osmosis membranes were manufactured for the desalination of brackish water to a potable standard. The membranes were manufactured in the tubular configuration. Experimental ultrafiltration, reverse osmosis and nanofiltration membranes were tested on cooling water blowdown on a laboratory-scale. On-site testing was done directly on the effluent at a later stage. A s!udy was also conducted to determine the effect of gel-polarization on membrane performance. The gel-layer model was used to predict the limiting flux of specific membranes. Membrane processes were also applied in the fractionation of wine-lees to provide usable by-products such as yeast cells and potassium bitartrate. Ultrafiltration membranes operated in diafiltration mode were used to "wash" the slurry at different solid concentrations. The bitartrate-rich permeate collected from ultrafiltration was then concentrated using reverse osmosis and nanofiltration to allow subsequent precipitation of the product.
Shugman, Emad Musbah. "Cleaning of micro- and ultrafiltration membranes with infrasonic backpulsing". Thesis, Stellenbosch : University of Stellenbosch, 2009. http://hdl.handle.net/10019.1/3053.
Texto completo da fonteENGLISH ABSTRACT: Membrane fouling is universally considered to be one of the most critical problems in the wider application of membranes in filtration separation. Fouling is caused by the deposition of particles not only on the surface of the membrane, but also inside the membrane pores, which reduces permeate flux and leads to a reduction of the efficiency and the longevity of the membrane. The backpulsing cleaning method can be used to remove deposited foulants from the surface of the membrane, without having to shut down the plant. Ultrasonic time-domain reflectometry (UTDR) is a nondestructive technique, used to detect and measure the growth of fouling layer on the membrane surface during microfiltration and ultrafiltration processes. In this study flat-sheet microfiltration (MF) and ultrafiltration (UF) membranes were fouled during a cross-flow filtration processes using dextrin, yeast or alumina (feed pressure 100 kPa and feed flow rate 0.45 liter/minute), in a flat cell. Infrasound frequency backpulsing, in the permeate space, was used to clean the membranes. Backpulsing was carried out using the permeate water or soap solutions. The peak pressure amplitude of the pulses used to clean the membranes was 140 kPa, the pulsing was applied at a frequency of 6.7 Hz. The main objectives of this research were: (1) to obtain a fundamental understandimg of how foulants deposit on membrane surfaces and how the foulant deposits can be removed using the backpulsing cleaning technique during MF and UF, (2) to use the ultrasonic measurement technique for monitoring the growth and removal of the fouling layer on the membrane surface and (3) Use scanning electron microscopy (SEM) as a direct measurement technique to analyze the structure the foulant deposits on membrane surfaces before and after cleaning. Results showed that a flux value of between 55% and 98% of the clean water flux value can be achieved by backpulsing cleaning. UTDR was successfully applied to monitor membrane cleaning and provide information about the growth and removal of fouling layers on the membrane surface.
AFRIKAANSE OPSOMMING: Membraanaanvuiling is wêreldwyd bekend as een van die mees kritieke probleme wat die wyer aanwending van membrane vir skeidingsprosesse benadeel. Aanvuiling word veroorsaak deur die deponering van partikels, nie net op die oppervlak van die membraan nie, maar ook binne-in die membraanporieë, wat die volgende tot gevolg het: 'n afname in vloed deur die membraan, 'n afname in die effektiwiteit van die membraan, en 'n korter membraanleeftyd. Die teenpulsskoonmaakmetode kan gebruik word om die aanvuilingslaag vanaf die membranoppervlakte te verwyder sonder dat dit nodig is om die membraantoetsapparaat af te skakel. Ultrasoniese-tydsgebied-weerkaatsing (UTW) is 'n nie-vernietigende tegniek wat gebruik kan word om die groei van 'n aanvuilingslaag op 'n membraanoppervlakte tydens mikrofiltrasie (MF) of ultrafiltrasie (UF) te identifiseer en te meet. In hierdie studie is plat-vel MF en UF membrane bevuil gedurende 'n kruisvloeifiltrasieproses deur gebruik to maak van dekstraan, gis of alumina, in 'n plat sel. Infraklank-frekwensieteenpols, in die permeaatgebied, is gebruik om die membrane skoon te maak. Hiervoor is die proseswater of 'n seepoplossing gebruik. Die maksimum drukamplitude van die pulse wat gebruik is was 140 kPa, en die puls was aangewend teen 'n frekwensie van 6.7 Hz. Die hoofdoelwite van hierdie studie was die volgende: (1) om inligting in te win oor hoe aanvuilingsmateriale op membraanoppervlaktes gedeponeer word tydens MF en UF en hoe hulle verwyder kan word deur gebruik te maak van die teenpulsskoonmaaktegniek; (2) om van die teenpulsskoonmaaktegniek gebruik te maak om die groei van die bevuilingslaag asook die verwydering daarvan op die membraanoppervlakte te monitor; en (3) om van skandeerelektronmikroskopie (SEM) as 'n direkte analitiesetegniekgebruik te maak om die struktuur van die aanvuilingsmateriaal voor en na die die skoonmaakproses te analiseer. Deur gebruik te maak van teenpulsskoonmaak kon die membraanvloed tot tussen 55–98% van die oorspronklike suiwerwatervloed verbeter word. Sodoende is ultrasoniese-tydsgebiedweerkaatsing suksesvol gebruik om die skoonmaak van membrane te monitor asook om inligting in te win i.v.m. die groei en verwydering van die aanvuilingslae op die membraanoppervlaktes.
Hamann, Martin Louis. "System hydrodynamics to reduce fouling of air-sparged immersed flat-sheet microfiltration membranes". Thesis, Stellenbosch : University of Stellenbosch, 2010. http://hdl.handle.net/10019.1/5206.
Texto completo da fonteENGLISH ABSTRACT: Immersed membrane systems hold many operational and environmental advantages in biological treatment of wastewater. However, immersed membrane filtration have only found application in niche markets to date because of higher capital and operating costs associated with membrane fouling. But with capital costs on the decline as membranes become less expensive, immersed membrane systems are increasingly considered as an attractive alternative to conventional treatment processes. Operating costs remain high however, since energy intensive techniques such as air-sparging are required to limit membrane fouling. Improving the air-scouring efficiency of air-sparged immersed membranes can significantly reduce operating costs and unlock the immersed membrane system technology to wider application. The aim of this study was to identify factors that will improve air-scouring efficiency in order to produce guidelines that will help in the development of an immersed microfiltration membrane system with a resulting lower operating cost. Although, the research was done on a flat-sheet microfiltration membrane, the guidelines obtained can be used for the development of any immersed microfiltration membrane arrangement. An airlift reactor set-up was chosen for this study. Six system hydrodynamic factors were evaluated in a factorial design to determine their effects on the cross-flow velocity profile. They were the downcomer area to riser area ratio, top clearance distance, bottom clearance distance, aeration intensity, water depth and air sparger location. It was found that the air-scouring efficiency was increased by generating a cross-flow velocity profile with increased magnitude and uniformity, but absolute uniformity of the cross-flow velocity profile was found to be a prerequisite for optimisation of air-scouring efficiency. Downcomer area to riser area ratio was found to be 99.9% significant in determining the magnitude of the cross-flow velocity profile. Two models were developed to respectively predict the relative magnitude and uniformity of the cross-flow velocity profile. By using these two models, a methodology was developed to design an airlift reactor set-up that would produce system hydrodynamics with an improved air-scouring efficiency.
AFRIKAANSE OPSOMMING: Gesonke membraanstelsels beskik oor talle bedryfs- en omgewingsvoordele in biologiese behandeling van afvalwater. Maar weens die hoër kapitaal- en bedryfskostes wat gepaardgaan met membraanbevuiling, kon gesonke membraanstelsels tot op hede nog net toepassing in nismarkte vind. Maar soos kapitaalkoste daal met al hoe goedkoper membrane beskikbaar, word gesonke membraanstelsels al hoe aanlokliker as ‘n alternatief vir konvensionele behandelingsprosesse. Bedryfskostes bly egter hoog aangesien energie-intensiewe tegnieke soos lugborreling benodig word om membraanbevuiling te vertraag. Deur die effektiwiteit van die skropaksie wat lugborreling aan gesonke membrane bied te verbeter, kan ‘n beduidende besparing in bedryfskostes teweeggebring word om sodoende die uitgebreide toepassing van gesonke membraanstelsel tegnologie moontlik te maak. Hierdie studie het ten doel gehad die identifisering van faktore wat lugskropaksie effektiwiteit kan verbeter en om riglyne op te stel vir die ontwikkeling van ‘n gesonke mikrofiltrasie membraanstelsel met gevolglik laer bedryfskostes. Alhoewel hierdie navorsing ‘n plat-blad mikrofiltrasie membraan gebruik het, kan die riglyne steeds vir enige gesonke mikrofiltrasie membraanuitleg gebruik word. Daar is besluit op ‘n lugligter-reaktor opstelling vir hierdie studie. Ses stelselhidrodinamika faktore is geëvalueer in ‘n faktoriale ontwerp om hul effekte op die kruisvloei snelheidsprofiel te bepaal. Hulle was die afvloei-area tot opvloei-area verhouding, topruimte-afstand, bodemruimte-afstand, belugtingsintensiteit, waterdiepte en belugterligging. Daar is bevind dat die lugskropaksie effektiwiteit verhoog word wanneer ‘n kruisvloei snelheidsprofiel geskep word met ‘n verhoogde grootte en gelykvormigheid, maar die absolute gelykvormigheid van die kruisvloei snelheidsprofiel is gevind om ‘n voorvereiste te wees vir optimale effektiwiteit. Afvloei-area tot opvloei-area verhouding is gevind om 99.9% beduidend te wees in die bepaling van die snelheidsprofiel se grootte. Twee modelle is ontwikkel om afsonderlik die relatiewe grootte en gelykvormigheid van die kruisvloei snelheidsprofiel te voorspel. Die modelle is in ‘n metodologie vervat vir die ontwerp van ‘n lugligter opstelling met stelselhidrodinamika wat verbeterde lugskropaksie effektiwiteit sal skep.
Beauchamp, Nicolas. "Methods for estimating reliability of water treatment processes : an application to conventional and membrane technologies". Thesis, University of British Columbia, 2008. http://hdl.handle.net/2429/2434.
Texto completo da fonteZhou, Fangbin. "Novel Pervaporation for Separating Acetic Acid and Water Mixtures Using Hollow Fiber Membranes". Diss., Georgia Institute of Technology, 2005. http://hdl.handle.net/1853/7154.
Texto completo da fonteShi, Shaojie. "A Whole Blood/Plasma Separation Lab Chip using Hetero-packed Beads and Membrane Filters for Point-of-Care Test (POCT)". University of Cincinnati / OhioLINK, 2021. http://rave.ohiolink.edu/etdc/view?acc_num=ucin1613750415006395.
Texto completo da fonteLee, SeungJin. "Fouling characteristics of ceramic microfiltration and ultrafiltration membranes during surface water treatment". Diss., Georgia Institute of Technology, 2013. http://hdl.handle.net/1853/49094.
Texto completo da fonteFLEISCHMAN, GREGORY JOSEPH. "FLUID FILTRATION FROM CAPILLARY NETWORKS (MICROCIRCULATION, MATHEMATICAL MODELING)". Diss., The University of Arizona, 1985. http://hdl.handle.net/10150/187998.
Texto completo da fonteNakanishi, Simone Coelho. "Utilização dos componentes lignocelulósicos do bagaço de cana-de-açúcar para produção de membranas". Universidade de São Paulo, 2010. http://www.teses.usp.br/teses/disponiveis/97/97131/tde-20082013-102435/.
Texto completo da fonteThinking of a better use for the surplus of sugarcane bagasse, this study aims to obtain membranes of cellulose acetate composite with oxidized lignins, both isolated from sugarcane bagasse. To this purpose, the macromolecular components of bagasse were separated by applying a steam explosion pre-treatment for removal of hemicellulose and a treatment with sodium hydroxide to separate the lignin and obtaining of crude cellulose pulp. This pulp was bleached and acetylated, and subsequently cellulose acetate membranes were synthesized incorporating oxidized lignin in these membranes in order to increase the metal retention capacity of them. Thus, we intend to obtain a product with higher commercial value, which has applications in water and effluent treatment, which can further contribute to the maintenance of the environment. The membranes were synthesized by phase inversion, using two different methods: I. evaporation-precipitation and II. immersion in coagulation bath. The acetylated material was analyzed by FTIR, confirming the acetylation by the appearance of bands characteristic of acetate and analyzed for degree of substitution, featuring a diacetate. The membranes synthesized by method I were analyzed by SEM, verifying dense structure for the membranes in all compositions, and more rigid than a membrane prepared from a commercial triacetate, according to the data of dynamic mechanical analysis. Tests about permeability and copper retention also were done. Although rigid, they resisted to pressures up to 20 bar. The membrane added with lignin oxidized by laccase showed the best performance in this test, reaching higher flow requiring less pressure. In the test of copper retention, they showed an average retention capacity of 15%, corresponding to 50.5 mg Cu2+/ g lignin. The membranes synthesized by method II were analyzed by SEM, noting differences in morphology when the lignin is added dissolved in NaOH. Thermal analysis showed the Tg of the material near 80 °C, besides showing a higher thermal stability of the material added with oxidized lignin compared to material without lignin and with original lignin. In the permeability test, held at constant pressure of 10 bar, the membrane synthesized with only cellulose acetate cane bagasse showed no flow. The membranes added with original lignin and oxidized lignin showed flow of 3.5 and 6.1 L/h.m2, respectively. The fact was attributed to the morphology of the membranes, since the two latter, which showed flow, have porous structure, while the other has a dense structure. In the test of copper retention, it was possible to visualize the effect of the addition of lignin in the membrane, which increases 3.5 times the cupper retention capacity and, the effect of lignin oxidation, with increases in more 50% this retention capacity in comparison to the addition of the lignin in the original form. However, the results indicate that the synthesized membranes, mainly membranes added with oxidized lignin, are promising for the proposed objective.
Otto, Dietmar Norman. "The effect of forward flushing, with permeate, on gypsum scale formation during reverse osmosis treatment of CaSO4-rich water in the absence of anti-scalant". Thesis, Stellenbosch : Stellenbosch University, 2014. http://hdl.handle.net/10019.1/95887.
Texto completo da fonteENGLISH ABSTRACT: When desalinating brackish water by reverse osmosis (RO) or other techniques, high overall water recoveries are essential to minimize brine production and the associated disposal costs thereof. As the overall water recovery increases, concentrations of sparingly soluble salts (e.g. barium sulphate, calcium sulphate) reach levels above saturation, especially near the membrane surface, drastically increasing the scaling propensity. Antiscalants are typically dosed into the feed water to prevent such scaling during RO desalination. However, the carry-over of antiscalant into the concentrate stream can complicate subsequent salt precipitation processes that may be used to increase overall water recovery. These precipitation techniques are sometimes used to reduce the levels of super-saturation in the RO concentrate prior to a subsequent RO desalination step. The purpose of this study was to assess the feasibility of reducing calcium sulphate scaling on RO membranes, by using periodic permeate flushing when feeding a lab-scale RO unit with a supersaturated calcium sulphate solution in the absence of anti-scalant. The overall water recovery was increased by recycling the concentrate, after an intermediate de-supersaturation step. This simulated a multiple-stage RO system, typical of processes used in high-recovery acid mine drainage (AMD) treatment plants. De-supersaturation of the concentrate intermediate was achieved with direct seeded gypsum precipitation, in the absence of any antiscalant. On the membrane surface inside the membrane unit, calcium sulphate concentrations greatly exceeded saturation levels – a combined consequence of the normal concentration process and the well-known surface-based concentration polarisation phenomenon. Therefore, periodic forward-flushing of the supersaturated solution from the membrane unit was performed with permeate. In theory, the periodic flushing removes the highly concentrated layer at the membrane surface during every flush, before scaling can occur. Various flushing regimes were evaluated to assess the effectiveness of the process. A lab-scale desalination unit with a 0.106 m2 flat sheet polyamide RO membrane was designed and constructed. The unit could operate at a feed rate of 12-14 L/h and at permeate fluxes of 12-24 LMH. Super-saturated feed solutions were prepared by mixing sodium sulphate and calcium chloride dihydrate salts with demineralised water, with an initial salinity of ± 5300 mg/L TDS, corresponding to a gypsum saturation index (SIg) of 1.2 for most experiments. The total production time, net permeate production and flux decline were used to compare the flushing efficiency in different experimental runs. Initial tests showed that scaling could be prevented (when operating the unit in full recycle mode, i.e. where both concentrate and permeate were recycled to feed), at flushing frequencies between 12 and 2.4 h-1, when the membrane feed and concentrate were slightly under-saturated (SIg = 0.9) and slightly super-saturated (SIg = 1.1) respectively. However, when switching the same system to non-flushing mode after 24 hours of operation, membrane scaling occurred within 2-3 hours, as indicated by a strong decline in flux. However, when operating the system in concentrate recycle mode (i.e. permeate is withdrawn) with super-saturated feed solutions (e.g. SIg = 1.2), and thus a notably more super-saturated solution in the membrane concentrate, scaling could not be prevented (albeit delayed for some time) with intermittent permeate flushing. A fractional 25-1 factorial design was used to determine which factors had the most significant effect on total production time and permeate production rate, testing five factors: 1) flushing frequency, 2) flushing volume, 3) permeate soak time, 4) permeate flux and 5) instantaneous recovery. The ANOVA analysis showed that total production times were, not surprisingly, primarily affected by the permeate flux, where operation at 24 LMH resulted in a lower net permeate production between 3.0 - 4.2 L, compared to 7.6 - 9.7 L at 12 LMH. Higher permeate fluxes clearly resulted in higher levels of concentration polarisation at the membrane surface, thus increasing the propensity for membrane scaling. Flushing frequency and instantaneous recovery also affected the net permeate production, where 6 h-1 and 10 % were the optimal values respectively within the range of test conditions. The lowest permeate production rate resulted in the highest net permeate volume production (i.e. also longest total production time), confirmed by a least squares regression. In summary: This study showed that periodic permeate flushing could delay the membrane scaling process. However, it failed to prevent membrane scaling completely when operating the system with supersaturated calcium sulphate solutions in the absence of antiscalants. The flushing technique effectively delayed the onset of precipitation, but scaling eventually occurred if the lab-scale RO system was operated in concentrate recycle mode with oversaturated feed solutions (SIg = 1.2). Additional experiments at different cross-flow velocities during permeate flushing, while using an optimised RO test cell flow channel design, are recommended for future studies.
AFRIKAANSE OPSOMMING: Gedurende die ontsouting van brakwater deur tegnieke soos tru-osmose (TO), is ʼn maksimum herwinning van water noodsaaklik om die produksie, en die gepaardgaande kostes van verwydering, van die sout/brak neweproduk te minimeer. Soos die herwinning van water verhoog, so ook verhoog die konsentrasie van moeilik-oplosbare soute (soos bariumsulfaat, kalsiumsulfaat) in die sout konsentraat stroom, totdat die soute uiteindelik superversadiging bereik. Hierdie superversadiging gebeur veral naby die membraanoppervlak, waar dit lei tot ʼn verhoogde kans van presipitasie en skaalvorming. Om dit te voorkom word die voerwater na ʼn TO stelsel tipies gedoseer met antiskaalmiddels. Hierdie antiskaalmiddels verlaat die stelsel saam met die konsentraat, waar hulle gevolglike die presipitasie van soute bemoeilik. Presipitasie van soute uit die konsentraat kan tipies gebruik word om die vlak van superversadiging in die konsentraat te verlaag, waarna verdere TO behandeling gebruik word om selfs ʼn hoër algehele waterherwinning te bewerkstellig. Die doel van hierdie studie was om die vatbaarheid van die vermindering van kalsiumsulfaat (gips) skaalvorming in die afwesigheid van antiskaalmiddels op TO membrane te toets. Dit is bewerkstellig deur ʼn laboratoriumskaal TO eenheid te voer met ʼn superversadigde kalsiumsulfaat oplossing en die membraan periodies met skoon produkwater (permeaat) te was. Die algehele waterherwinning is verhoog deur met ʼn tussenstap die versadigingsvlak van gips in die konsentraat te verlaag, waarna dit hersirkuleer is na die voertenk. Sodoende is ʼn multi-stadium TO stelsel nageboots, soos dit tipies in hoë herwinningsaanlegte, soos met die herwinning van suur mynwater (E: acid mine drainage, AMD), gebruik word. ʼn Verlaging in superversadiging van die konsentraat in die tussenstap is behaal deur die konsentraat direk aan gipskristalle bloot te stel om presipitasie te bewerkstellig in die afwesigheid van enige antiskaalmiddels. Gedurende eksperimente het die soutkonsentrasie op die membraanoppervlak in die TO eenheid superversadigingsvlakke vêr oorskry, as gevolg van die natuurlike konsentrasie proses en die bekende konsentrasie polarisasie oppervlaksverskynsel. Om hierdie superversadiging teen te werk is periodiese saamstroom spoeling van die membraan met skoon produkwater uitgevoer. In teorie het die periodiese spoeling die hoogs gekonsentreerde oplossing van die membraan oppervlak verwyder voor skaalvorming kan plaasvind. Verskillende spoelpatrone is ondersoek om die doeltreffendheid van die spoeling te bepaal. Om die eksperimente uit te voer is ʼn laboratoriumskaal ontsoutingsaanleg met ʼn maklik verwyderbare 0.106 m2 plat-vel poli-amied TO membraan ontwerp en gebou. Die aanleg kan vloeistof voertempo’s tussen 12-24 L/h hanteer en skoon produkwater teen 12-24 LHM lewer. Die superversadigde voer oplossings, soos gebruik in die meerderheid van die eksperimentes is voorberei deur natriumsulfaat en kalsiumchloried-dihidraat soute te meng in gedemineraliseerde water, tot ʼn soutgehalte van ± 5300 mg/L TDS bereik is. Hierdie soutgehalte stem ooreen met ʼn gips versadigingsindeks (E: gypsum saturation index, SIg) van 1.2. Die skoon produkwater totale produksietyd en netto produksie, asook die membraan vloed afname, is gebruik as veranderlikes om die spoel doeltreffendheid tussen eksperimentele lopies te vergelyk. Aanvanklike toetse het getoon dat skalering voorkom is by effens onderversadigde (SIg = 0.9) en effens superversadigde (SIg = 1.1) voer oplossings met die onderskeie spoel frekwensies van 12 en 2.4 h-1, (terwyl die aanleg in algehele hersirkulasie bedryf is, m.a.w. wanneer beide die konsentraat en produkwater gedurig na die voertenk hersirkuleer word). ʼn Effens-superversadigde eksperiment is ook sonder spoeling uitgevoer vir 24 uur. In hierdie geval het skaalvorming binne twee tot drie uur gebeur, soos bevestig deur ʼn skerp afname in die membraan vloed. Skaalvorming kon nie verhoed word terwyl die aanleg bedryf word met superversadigde (SIg = 1.2) voeroplossings en slegs konsentraat hersirkulasie nie (m.a.w. skoon produkwater word opgevang), alhoewel skaalvorming vertraag kon word. Hierdie operasie het tot beduidend meer gekonsentreerde oplossings in die membraan gelei. Om te bepaal watter faktore die grootste invloed op totale produksietyd en netto produksie van skoon produkwater het, is ʼn fraksionele faktoriaalontwerp van 25-1 uitgelê wat vyf faktore toets, naamlik: 1) spoel frekwensie, 2) spoel volume, 3) skoon produkwater weektyd, 4) membraanvloed en 5) oombliklike herwinning. ʼn AVOVA analise het getoon dat totale produksietyd hoofsaaklik deur membraanvloed beïnvloed is, soos verwag kan word. Dit word gestaaf deurdat die aanleg, bedryf teen 24 LMH, slegs 3 - 4.2 L netto produkwater gelewer het, teenoor 7.6 - 9.7 L by 12 LMH. Hoër membraan vloedtempo’s het tot hoër vlakke van konsentrasie polarisasie op die membraanoppervlak gelei, wat ʼn groter neiging tot skaalvorming tot gevolg gehad het. Spoelfrekwensie en oombliklike herwinning het ʼn invloed op die netto produksie van skoon produkwater gehad, met 6 h-1 en 10 % as die onderskeie optimale waardes. ʼn Kleinstekwadraat regressie het aangedui dat die laagste produksietempo van skoon produkwater die hoogste netto produksie van skoon produkwater gelewer het, (asook die langste produksietyd). In opsomming: Hierdie studie het getoon dat gereelde spoeling met skoon produkwater die membraan skaalproses kan vertraag. Gedurende bedryf met superversadigde kalsiumsulfaat oplossings sonder enige antiskaalmiddels is daar gevind dat skaalvorming nie geheel en al vermy kon word nie. Die spoeltegniek, soos gebruik in hierdie studie, het die aanvang van skaalvorming in die laboratorium skaal TO eenheid vertraag, maar bedryf met konsentraat hersirkulasie en superversadigde oplossings (SIg = 1.2) het steeds skaal gevorm. Bykomende eksperimente teen verskeie kruisvloei snelhede gedurende die spoel stap word aanbeveel vir toekomstige studies.
Soares, Robson de Miranda. "Membranas suportadas de alumina, obtidas pelo método da sedimentação gravitacional". Universidade de São Paulo, 1998. http://www.teses.usp.br/teses/disponiveis/88/88131/tde-10092008-110844/.
Texto completo da fonteThis work is concerned with ceramic membrane preparation supported on a ceramic substrate having high permeability, high porosity and reasonable mechanical strength. Membranes were prepared from AKP-50 alumina by the gravitational sedimentation method followed by sintering at 1000°C for 0.5 h. Membranes showed a unimodal narrow pore size distribution in the 0.04 to 0.09 range, thickness of 57 μm and 0.4 m3/m2h. flow rate. Substrates were prepared by uniaxial compression, at 33 MPa, of alumina PMMA stearic acid powder composites followed by organic burning and final sintering at 1600°C for 3h. In order to increase alumina APC-SG grain size distribution to 250- 500 μm range, alumina was previously calcined at 1600°C for 1h. Substrates show high mechanical strength, 4.0 to 2 m3/m2h flow rate, 60% porosity and pore size distribution in the range of 10-100 μm and from 0.4 to 2.0 μm. Due to the large difference between the substrate pore diameter and the AKP-50 alumina grain size distribution (d50 = 0.3 μm) used in the membrane preparation, it was necessary to add an intermediary APC-SG layer. This layer was prepared also by the gravitational sedimentation method and sintered at 1500°C for 1h. The intermediary layer/substrate showed 56% porosity, 10 m3/m2h flow rate and a narrow pore sue distribution in the 0.4-2.0 μm range.
Попова, М. Е., О. О. Салій e Г. В. Тарасенко. "Розробка стадії фільтрації сироватки як етап отримання депротеїнізованого гемодеривату крові телят". Thesis, Національний фармацевтичний університет, 2020. https://er.knutd.edu.ua/handle/123456789/17144.
Texto completo da fonteAnimal blood plasma is a multicomponent biological material consisting of hundreds of biochemical compounds, some of which have not yet been fully studied. The aim of our research was to develop and determine the critical parameters of the stage of serum filtration as one of the technological stages of obtaining deproteinized hemoderivative of calf blood. It is proved that the use of nylon membrane filters at the stage of prefiltration is impractical. Membranes made of PES material provide the process of filtration of bovine serum, the selected filters are compatible with the test raw material. It is established that the use of filter membranes in the sequence of PES (0.45 μm) and PES (0, 22 μm) not only guarantees compliance with the required quality and sterility, but also increases filtration rate and yield of raw materials, which increases its economic attractiveness on an industrial scale.
Fradin, Benoit. "Fouling of microfiltration membranes for the dewatering of waste inorganic slurries". Thesis, University of Bath, 1999. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.311249.
Texto completo da fonteCosta, Thiago Ranzani da. "Técnicas analíticas para autópsia de membranas de osmose reversa". Universidade de São Paulo, 2011. http://www.teses.usp.br/teses/disponiveis/42/42132/tde-20032012-162030/.
Texto completo da fonteFilter membrane systems, especially reverse osmosis, are being increasingly used in various business segments (pharmaceutical, water treatment, food and chemical) due to decrease in the price of the filter elements and high quality product. Although the price of reverse osmosis elements have fallen in recent times, the replacement of the part remains more expensive a reverse osmosis system. The autopsy of membranes is a technique used to investigate the cause that led to clogging of one factor contributing to the improvement of pre-treatment of water feeding and consequently increasing the life of the elements. This study aimed to improve the technique of autopsy reverse osmosis membranes by examining the volatilization of major inorganic compounds present in these membranes, modification the methodology for quantification of sugars and proteins, comparison of different techniques for removal of material deposited on the membranes and distribution analysis of biofilms on elements obscured reverse osmosis. The results showed that among the Inorganic volatilization was full of ammonium chloride and small variation in the compound ferric chloride, the quantification of proteins and sugars, by fortifying the samples showed different values when compared with values obtained directly the standard curve due to the difference in slope between the lines of and fortification standard, the results also showed that the blending was more efficient in removing adhered material when compared with the scraping and sonication and distribution of biofilms showed uniform the two elements analyzed.
Zablonsky, Joana Rupprech. "Avaliação da remoção de cianobactérias e cianotoxinas de ambientes eutrofizados por coagulação e membranas filtrantes". Universidade Tecnológica Federal do Paraná, 2012. http://repositorio.utfpr.edu.br/jspui/handle/1/344.
Texto completo da fonteA eutrofização atinge diversos reservatórios de abastecimento de água, causando problemas principalmente da ordem operacional e comprometimento da qualidade da água para a população. Algumas tecnologias de tratamento de água passam por um processo de aperfeiçoamento e outras surgem para melhorar a eficiência do tratamento. Este trabalho teve por objetivo avaliar a remoção de cianobactérias e cianotoxinas por meio de coagulação com Moringa oleifera, seguida de microfiltração e nanofiltração. Sendo assim a primeira etapa do trabalho foi o cultivo em laboratório da cianobactéria Microcystis aeruginosa e a determinação de curvas de crescimento deste microrganismo. Na seqüência foram realizados ensaios para verificar a as melhores condições de coagulação/floculação/sedimentação com a solução coagulante de M. oleifera (1%), como respostas foram utilizadas a remoção de células da M. aeruginosa e a redução da turbidez. Foram avaliadas as seguintes variáveis: tempo de coagulação; velocidade rápida, tempo de floculação, velocidade lenta, tempo de sedimentação, turbidez inicial, quantidade de solução coagulante. Em seguida o processo de coagulação/floculação/sedimentação foi associado à microfiltração, nesta etapa foi realizada com água do cultivo e água da Represa do Passaúna –PR contaminada com o cultivo da M. aeruginosa. Por fim, devido à M. aeruginosa cultivada ser tóxica e produtora de microcistina avaliou-se a coagulação/floculação/sedimentação associada à nanofiltração. Os resultados indicam que as melhores condições de coagulação e floculação foram com 2 minutos de coagulação a 80 rpm, e 18 minutos para floculação a 13 rpm tendo uma remoção de células de 95,6 % e uma redução da turbidez de 97,5%. Verificou-se que 60 minutos de sedimentação já foi suficiente para remoções acima de 90% da cianobactéria, e 95% de redução da turbidez. Com relação à quantidade de solução coagulante observou-se um aumento na eficiência dos processos com o aumento da quantidade da solução coagulante, porém em 70 mg essa remoção já não tem grandes variações. A associação da coagulação/floculação/sedimentação com a microfiltração foi positiva, pois após 60 minutos a turbidez chegou a 0 uT e a ausência de células de M. aeruginosa. A retenção da microcistina com a nanofiltração apresentou uma retenção de 87,3% no início, porém com o decorrer do tempo este valor apresentou uma queda para 58,0%. Em resumo, pode-se considerar a associação da o uso da M. oleifera como coagulante com a microfiltração como uma boa alternativa para redução de turbidez e remoção de cianobactérias, assim como o uso da nanofiltração para remoção de microcistina.
The eutrophication affects many reservoirs of water, causing problems, specially the commitment of operational and water quality for the population. Some water treatment technologies go through a process of improvement and others appear to improve treatment efficiency. This work aimed to evaluate the removal of cyanobacterial and cyanotoxins through coagulation with Moringa oleifera, followed by microfiltration and nanofiltration. Thus the first stage of work was growing in the laboratory of the cyanobacterial Microcystis aeruginosa and determination of growth curves of this microorganism. Following tests were conducted to verify the optimal conditions for coagulation/flocculation/sedimentation with coagulant solution of M. oleifera (1%) were used in response to removal of cells from M. aeruginosa and reduced turbidity. The following variables were evaluated: coagulation time, fast speed, time of flocculation, slow speed, time of sedimentation, turbidity initial amount of the coagulant solution. Then the process of coagulation/flocculation/ sedimentation was associated with microfiltration this step was carried out with water end crop water of Passaúna –PR contaminated with the cultivation of M. aeruginosa. Finally, due to M. aeruginosa grown to be toxic microcystin producing and evaluate produce the coagulation/flocculation/sedimentation associated with nanofiltration. The results indicate that optimum conditions for coagulation and flocculation were clotting with 2 minutes at 80 rpm, and 18 minutes for flocculation at 13 rpm with a removal of cells and a 95,6% reduction in turbidity of 97,5%. It was found that 60 minutes was enough sediment removal for over 90% of the cyanobacterial, and 95% reduction in turbidity. With respect to the amount of coagulant solution was observed an increase in process efficiency by increasing the amount of coagulant solution, but at 70 mg such removal no longer has large variations. The association of coagulation /flocculation/sedimentation with microfiltration was positive, because after 60 minutes reached the turbidity 0 uT and the absence of cells of M. aeruginosa. The retention of microcystin with nanofiltration showed a retention of 87,3% at the beginning, but with the passage of time this value showed a decrease to 58,0%. In summary, one can consider adding the use of M. oleifera as a coagulant with microfiltration as a good alternative to reduce turbidity and removal of cyanobacterial, as well as the use of nanofiltration removal of microcystin.
Turkson, Abraham K. "Electro-ultrafiltration with rotating dynamic membranes". Thesis, McGill University, 1985. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=72036.
Texto completo da fonteFour dynamic membranes, Zr(IV) oxide, calcium oleate, poly-2-vinylpyridine and cadmium sulfide, were used to filter bovine serum albumin (BSA) in a disodium phosphate solution at pH = 8 and Prussian blue in distilled water. Prussian blue is a particle of 0.01(mu)m diameter with a zeta potential of -41mV while BSA is a macromolecule of 69,000 molecular weight, a Stokes-Einstein radius of 0.0038(mu)m and a zeta potential of -23.3mV at pH = 8. For BSA, the flux declined with time while the rejection increased. Filtrate fluxes increased with rotation rate and electric field and declined with concentration for both feeds. The flux declined beyond N = 2000rpm and was constant above C(,0) = 5.0wt%. For Prussian blue, the rejection was greater than 90% at all levels of E, N and C(,0). For BSA, the rejection increased with rotation rate and declined with concentration. The BSA rejection declined above N = 2000rpm and was constant beyond C(,0) = 0.5wt%.
A mathematical model was derived to predict the time variation of filtrate flux and a rejection model was used to predict the effect of surface concentration on BSA rejection.
Lodge, Benjamin Nicholas. "Membrane fouling during domestic water recycling". Thesis, Cranfield University, 2003. http://dspace.lib.cranfield.ac.uk/handle/1826/11067.
Texto completo da fonteJha, Mayank Shekhar. "Diagnostic et Pronostic de Systèmes Dynamiques Incertains dans un contexte Bond Graph". Thesis, Ecole centrale de Lille, 2015. http://www.theses.fr/2015ECLI0027/document.
Texto completo da fonteThis thesis develops the approaches for diagnostics and prognostics of uncertain dynamic systems in Bond Graph (BG) modeling framework. Firstly, properties of Interval Arithmetic (IA) and BG in Linear Fractional Transformation, are integrated for representation of parametric and measurement uncertainties on an uncertain BG model. Robust fault detection methodology is developed by utilizing the rules of IA for the generation of adaptive interval valued thresholds over the nominal residuals. The method is validated in real time on an uncertain and highly complex steam generator system.Secondly, a novel hybrid prognostic methodology is developed using BG derived Analytical Redundancy Relationships and Particle Filtering algorithms. Estimations of the current state of health of a system parameter and the associated hidden parameters are achieved in probabilistic terms. Prediction of the Remaining Useful Life (RUL) of the system parameter is also achieved in probabilistic terms. The associated uncertainties arising out of noisy measurements, environmental conditions etc. are effectively managed to produce a reliable prediction of RUL with suitable confidence bounds. The method is validated in real time on an uncertain mechatronic system.Thirdly, the prognostic methodology is validated and implemented on the electrical electro-chemical subsystem of an industrial Proton Exchange Membrane Fuel Cell. A BG of the latter is utilized which is suited for diagnostics and prognostics. The hybrid prognostic methodology is validated, involving real degradation data sets
Nipprasch, Dirk. "Zeolithische Filter und Membranen in der Gassensorik". [S.l. : s.n.], 2002. http://www.gbv.de/dms/ilmenau/toc/356752046.PDF.
Texto completo da fonteGregg, Andrea. "The application of nanofibrous membranes with antimicrobial agents as filters". Kansas State University, 2010. http://hdl.handle.net/2097/6822.
Texto completo da fonteDepartment of Architectural Engineering and Construction Science
Julia A. Keen
Nanofibers are classified as fibers less than 1 micrometer in diameter. These fibers can be layered to form nanofibrous membranes, and these membranes offer great potential in the filtration industry. The membranes' smaller fiber diameters and pore sizes permit such filters to filter out more and smaller particulate. Additionally, antimicrobial agents can be incorporated into the membrane to inhibit fungal and bacterial growth on the membrane’s surface. This report evaluates nanofibrous membranes with antimicrobial agents and their potential in two specific locations: cleanrooms and protective environment rooms, where bacterial and fungal growth would have a detrimental effect on the process or occupant of the space.
Van, Duyne Scott A. "Digital filter applications to modeling wave propagation in springs, strings, membranes and acoustical space /". May be available electronically:, 2007. http://proquest.umi.com/login?COPT=REJTPTU1MTUmSU5UPTAmVkVSPTI=&clientId=12498.
Texto completo da fonteTumuluri, Uma. "Nonlinear State Estimation in Polymer Electrolyte Membrane Fuel Cells". Cleveland State University / OhioLINK, 2008. http://rave.ohiolink.edu/etdc/view?acc_num=csu1231961499.
Texto completo da fonteMichaels, W. C. "Microheterogeneous solid polymer electrolyte (SPE) membranes for electrocatalysis". Thesis, Stellenbosch : Stellenbosch University, 2002. http://hdl.handle.net/10019.1/52934.
Texto completo da fonteENGLISH ABSTRACT: The deposition of platinum catalyst on cation-exchange membranes was achieved by a counter diffusion deposition method known as the Takenaka- Torikai method. The morphology of the platinum catalyst on the membranes were controlled by varying the conditions of the platinum deposition process, such as, temperature, type of reducing agent and concentration of the platinic acid solution. The effect of the sonication of platinic acid solution and the pre-treatment of membranes on the morphology of a platinum catalyst was also investigated. Platinum loading on cation-exchange membranes was determined by UV spectrophotometric and gravimetric analyses. Suitable conditions for the quantitative determination of the platinum loading on membranes by UV spectrophotometric analysis was established through the development of a protocol. Membranes were characterised using different techniques such as, Atomic Force Microscopy (AFM), Scanning Electron Microscopy (SEM), Infrared spectrometry (IR), Dielectric analysis (DEA) and Brunauer Emmett Teller adsorption (BET). The roughness profile of a platinum catalyst embedded on a membrane was explored by various statistical methods. The statistical analysis of various data sets for a surface of a platinum-containing membrane was investigated using the Hurst exponent. The effect of surface modification of membranes on the deposition process, as well as the morphology of the platinum catalyst, was investigated. Membranes were modified with ethylene diamine (EDA) and cetyltrimethylammonium bromide surfactant. Modification of membranes with cetyltrimethylammonium bromide surfactant resulted in a unique textured platinum catalyst. The electrochemical "switching" phenomenon was investigated for EDAmodified membranes and EDA-modified membranes embedded with platinum catalyst. The "switching" phenomenon was observed in i-V cyclic curves, which were obtained by galvanodynamie measurements. The application of electro catalytic membrane systems in the anodic oxidation of water was investigated by electrochemical techniques such as galvanostatic and cyclic voltammetric measurements.
AFRIKAANSE OPSOMMING: Die deponering van 'n platinum katalis op katioon-uitruil membrane is suksesvol gedoen d.m.v. die Takenaka-Torikai metode. Die morfologie van die platinum katalis op die membrane is gekontrolleer deur variasie van die kondisies van die platinum deponeringsproses, bv. temperatuur, tipe reduseermiddel gebruik en konsentrasie van die platiensuuroplossing, asook die ultrasonifikasie van die platiensuuroplossing en voorafbehandeling van die membrane. UV spektrofotometriese asook gravimetriese analitiese metodes is gebruik om die platinumlading op katioon-uitruil membrane te bepaal. Geskikte kondisies vir die kwantitatiewe bepaling van die platinumlading op membrane d.m.v. UV spektrofotometriese analise is ontwikkel deur die skep van 'n protokol. Membrane is gekarakteriseer d.m.v. die volgende tegnieke: Atoomkrag Mikroskopie, Skanderingselektron Mikroskopie, Infrarooi Spektrometrie, di-elektriese analise en Brunauer Emmett Teller adsorpsie. Die skurtheidsprofiel van 'n platinum katalis op 'n membraan is ondersoek deur gebruik te maak van verskeie statistiese metodes. Statistiese analises van verskeie data stelsels van 'n platinum-bevattende membraan is ondersoek deur gebruik te maak van die Hurst eksponent. \ Die effek van oppervlakmodifikasie op membrane sowel as die deponeringsproses en morfologie van die platinum katalis is ondersoek deur die modifikasie van membrane met etileen diamien (EDA) en setieltrimetielammonium bromied as versepingsmiddel Die elektrochemiese omswaai van EDA-gemodifiseerde membrane sowel as gemodifiseerde platinum bevattende membrane is ondersoek d.m.v. galvanodinamiese metings. Die gebruik van elektro-katalitiese membraansisteme in die anodiese oksidasie van water is ondersoek deur gebruik te maak van elektrochemiese tegnieke, bv. galvanostatiese en sikliese voltammetriese metings.
Feitosa, Natália dos Reis. "Desempenho de meios filtrantes na remoção de partículas nanométricas de aerossóis". Universidade Federal de São Carlos, 2009. https://repositorio.ufscar.br/handle/ufscar/4021.
Texto completo da fonteUniversidade Federal de Sao Carlos
The interest of studies on the development of techniques for removal of particles in the nanosized scale was promoted by concern about air quality and human health, in addition to restrictions on the control of ultrafine particles, wich are more intransigent by environmental laws. Additionally, the increasing application of nanoparticles in various areas of science and technology has stimulated the development of studies on the subject. Amongst the several equipments capable to operate with efficiency on the particle removal, the fibrous filters are distinguished. Such filters are, in principle, capable to act in sub-micrometer scale, but there is little information about its performance in the nano-sized scale. In this work the performance of a polyester filter, of a HEPA cellulose filter, of a quartz microfiber filter and also of cylindrical filtering membrane, provided by Pam-Membranas Seletivas Ltda, were evaluated. The experimental system was able to simulate a contamination of nanometric particles in a stream of ultrapure air, with the aim of investigating the efficiency of filter media in the removal of nanoparticles. The test aerosol was constituted by NaCl polydisperse nanoparticles, ranging from 6.15 to 245.1 nm. The performance of the filter was evaluated through the analysis of the efficiency of removal of nanoparticles, for the counting of particles before and after to cross the filtering media, using the electric mobility technique. This procedure was performed using the TSI Scannig Mobility Particle Sizer (SMPS), model 3936, which provides the particles concentration, in size range. The results, in general, have showed that the filter media loses efficiency with the increasing filtration velocity and increasing particle size, in the ranged studied, indicating the typical behavior of difusional mechanism. The filtering membranes have showed better performance in the removal of particles unlike the others filters analysed there was no tendency to increase the penetration of particles with increasing the velocity of filtration or particle diameter.
O interesse de estudos acerca do desenvolvimento de técnicas de remoção de materiais particulados na escala nanométrica foi impulsionado pela preocupação com a qualidade do ar e da saúde humana, somada às restrições do controle de particulados ultrafinos, cada vez mais intolerantes pelas leis ambientais. Adicionalmente, a crescente aplicação de partículas nanométricas em diversas áreas da ciência e tecnologia estimulou o aprofundamento de estudos sobre o assunto. Dentre os vários equipamentos capazes de operar com eficiência na remoção de partículas ultrafinas, destacam-se os filtros fibrosos. Tais filtros são, em princípio, capazes de atuar em escala submicrométrica, mas as informações referentes ao seu desempenho em escala nanométrica ainda são pouco conhecidas. No presente trabalho avaliou-se o desempenho de filtros de poliéster, de celulose HEPA, de microfibras de quartzo e, também, de membranas filtrantes cilíndricas, fornecidas pela empresa Pam-Membranas Seletivas Ltda. O sistema experimental disponível era capaz de simular uma contaminação de partículas nanométricas em uma corrente de ar ultrapuro, a fim de que, posteriormente, fosse possível investigar a eficiência dos meios filtrantes na operação de remoção das mesmas. O aerossol de teste era constituído por nanopartículas polidispersas de NaCl, produzidas na faixa de diâmetros de 6,15 a 245,1 nm. O desempenho do filtro foi avaliado através da análise da eficiência de remoção das partículas nanométricas, pela contagem das partículas antes e após a passagem pelo meio filtrante, utilizando a técnica de mobilidade elétrica. Tal procedimento foi realizado por meio de um equipamento da TSI, o Scannig Mobility Particle Sizer (SMPS), modelo 3936, que fornece o número de partículas por faixa de tamanho. Os resultados, em geral, mostraram que a eficiência dos meios filtrantes diminui com o aumento da velocidade de filtração e com aumento do diâmetro, na faixa em estudo, indicando o comportamento típico do mecanismo difusional. As membranas apresentaram um melhor desempenho na remoção das partículas, visto que, diferentemente dos demais meios filtrantes analisados, não se observou tendência para o aumento da penetração de partículas, com o aumento da velocidade de filtração ou diâmetros das partículas, sendo que, em relação à faixa de tamanho, a penetração ocorreu de forma aleatória.
Zappulla, Antonino. "Filtrazione tangenziale con membrane ceramiche statiche e dinamiche". Bachelor's thesis, Alma Mater Studiorum - Università di Bologna, 2018. http://amslaurea.unibo.it/15665/.
Texto completo da fonteSilva, Denilton da. "Estudo da recuperação de lignossulfonatos de baixa massa molar por nanofiltração". [s.n.], 2007. http://repositorio.unicamp.br/jspui/handle/REPOSIP/266200.
Texto completo da fonteTese (doutorado) - Universidade Estadual de Campinas, Faculdade de Engenharia Quimica
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Resumo: Na indústria de papel e celulose os processos de separação por membranas, como a ultrafiltração (UF) e a nanofiltração (NF), são utilizados para a recuperação de diversas espécies presentes nos resíduos da digestão da madeira que são atrativos para outras aplicações, tais como a lignina e açúcares, e em especial os lignossulfonatos, auxiliando também na recirculação de água do processo e na redução do teor poluente do efluente. Devido à sua gama de aplicações, existe hoje um mercado próprio de industrialização de lignossulfonatos obtidos a partir de subprodutos da indústria de papel, contexto em que se insere o interesse deste trabalho que teve como objetivo o estudo da recuperação por nanofiltração, no retentado, da fração de lignossulfonatos de baixa massa molar (<5000 g/mol) que não é recuperada pelo processo prévio de ultrafiltração do efluente de indústria de papel com processo sulfito, empregando membranas poliméricas comerciais NF e NF270, fornecidas pela Filmtec, Dow Liquid Separations, EUA. Os experimentos e as análises foram realizados de acordo com um planejamento experimental fatorial 2² (duas variáveis, dois níveis), em duplicata, onde as variáveis de processo estudadas foram: tipo de membrana e a pressão. As variáveis de resposta estudadas foram: fluxo de permeado, retenção baseada nos sólidos totais e na absorbância UV-VIS, massa molar média, condutividade e pH. A temperatura utilizada foi de 45°C e a placa suporte com 43,7% de área perfurada. O planejamento experimental possibilitou a determinação de modelos matemáticos para a previsão do fluxo de permeado de água pura e fluxo de permeado de amostra de lignossulfonato em função das variáveis estudadas, e para estes parâmetros os melhores resultados foram alcançados com as variáveis em nível superior: membrana NF270 e pressão 24 bar. A avaliação da retenção de lignossulfonatos, tanto através da análise de sólidos totais (diminuição de até 51,79% no teor de sólidos totais), bem como através da leitura de absorbância UV 280 nm (diminuição de até 84,26%, na absorbância), apresentou os melhores resultados com as variáveis em nível inferior: membrana NF e pressão 18 bar, como era esperado. Na análise da massa molar média de lignossulfonatos, realizada por Cromatografia de Permeação em Gel (GPC), o processo de nanofiltração apresentou capacidade de fracionamento, com Massa Molar Ponderal Média ( w M ) de 1994 g/mol para a alimentação, 2327 g/mol para o retentado e 1043 g/mol para o permeado. Para o estudo do conteúdo iônico (condutividade e pH) os resultados não apresentaram significância estatística. Estudo preliminar também foi realizado com o objetivo de avaliar a influência da área perfurada da placa-suporte da membrana no fluxo de permeado e permeabilidade hidráulica, utilizando-se três diferentes tipos de placa metálica como suporte para as membranas, todas com área total filtrante de membrana de 15,90 cm², mas com diferentes áreas perfuradas em relação à área total filtrante: 25,3%, 36,5% e 43,7% de área perfurada, respectivamente. Este estudo apresentou melhores resultados de fluxo para a maior área perfurada, indicando que para comparações entre valores de fluxo de permeado obtidos em células de fluxo perpendicular, é fundamental a informação da área perfurada da placa-suporte
Abstract: Membrane separation processes like ultrafiltration (UF) and nanofiltration (NF) are used in the pulp and paper industry to the recovery of several species present in the wood digest waste that are interesting to other applications as lignin, sugars and specially lignosulfonates, improving the recirculation of the water in the pulping process and the reduction of the pollutants in the waste water as well. Due to their wide range of applications, there is presently a specific market for lignosulfonates obtained from paper industry as byproducts, context where this study is inserted. The main objective is to recover by nanofiltration (NF) the low molecular weight lignosulfonates fraction (<5000 g/mol) from the permeate produced in a previous current ultrafiltration process of the paper industry effluent with sulphite process, using polymeric membranes NF and NF270, supplied by Filmtec, Dow Liquid Separations, USA. The assays and the analysis where conducted according to a 22 full factorial design (two variables, two levels), where the studied independent variables were: type of membrane and pressure. The studied dependent variables were: permeate flux, retention based on total solids and on UV-VIS absorbance, average molecular weight, conductivity and pH. The temperature used was 45°C and the perforated area of the support plate was 43.7%. The used full factorial design enabled the determination of mathematical models to predict the permeate flux of pure water and of lignosulfonate samples as a function of the studied variables. The best results to these parameters were achieved with the variables at the superior level values: membrane NF270 and pressure of 24 bar. The evaluation of the lignosulfonates retention using the total solids data (decrease of up to 51.79% in total solids in the permeate) or using the UV 280 nm absorbance data (decrease of up to 84.26% in absorbance in the permeate), as expected presented the best results with the variables at the inferior level values: membrane NF and pressure of 18 bar. In the analysis of the averaged molecular weight of lignosulfonates obtained by Gel Permeation Chromatography (GPC), the nanofiltration process presented fractioning capacity with Averaged Molecular Weight ( w M ) of 1994 g/mol to the sample, 2327 g/mol to the concentrated and 1043 g/mol to the permeated. The results have not presented statistical significance to the ionic content (conductivity and pH). Preliminary study were also conducted to estimate the influence of perforated area (%) of metallic plates used to support the membranes in the permeate flux and hydraulic permeability, using three different types of metallic support plates, each one with a total filtration membrane area of 15.90 cm2, but with different perforated areas (%) related to the total filtration area: 25.3%, 36.5% and 43.7%. This study presented better water permeate flux results to the biggest perforated area, indicating that when comparing permeate flux values obtained in perpendicular flux cells, the information of the perforated area (%) of the support plate is important
Doutorado
Ciencia e Tecnologia de Materiais
Doutor em Engenharia Química