Global ETD Search

101	Chloroform Formation from Swimming Pool Disinfection: A Significant Source of Atmospheric Chloroform in Phoenix? January 2014 (has links) abstract: Chloroform (CHCl3) is an important atmospheric pollutant by its direct health effects as well as by its contribution to photochemical smog formation. Chloroform outgassing from swimming pools is not typically considered a source of atmospheric CHCl3 because swimming pools are scarce compared to other sources. However, large urban areas in hot climates such as Phoenix, AZ contain a substantial amount of swimming pools, potentially resulting in significant atmospheric fluxes. In this study, CHCl3 formation potential (FP) from disinfection of swimming pools in Phoenix was investigated through laboratory experiments and annual CHCl3 emission fluxes from swimming pools were estimated based on the experimental data. Swimming pool water (collected in June 2014 in Phoenix) and model contaminants (Pharmaceuticals and Personal Care Products (PPCPs), Endocrine Disrupting Compounds (EDCs), artificial sweeteners, and artificial human waste products) were chlorinated in controlled laboratory experiments. The CHCl3 production during chlorination was determined using Gas Chromatography-Mass Spectrometry (GC-MS) following solid-phase microextraction (SPME). Upon chlorination, all swimming pool water samples and contaminants produced measureable amounts of chloroform. Chlorination of swimming pool water produced 0.005-0.134 mol CHCl3/mol C and 0.004-0.062 mol CHCl3/mol Cl2 consumed. Chlorination of model contaminants produced 0.004-0.323 mol CHCl3/mol C and 0.001-0.247 mol CHCl3/mol Cl2 consumed. These numbers are comparable and indicate that the model contaminants react similarly to swimming pool water during chlorination. The CHCl3 flux from swimming pools in Phoenix was estimated at approximately 3.9-4.3 Gg/yr and was found to be largely dependent on water temperature and wind speed while air temperature had little effect. This preliminary estimate is orders of magnitude larger than previous estimates of anthropogenic emissions in Phoenix suggesting that swimming pools might be a significant source of atmospheric CHCl3 locally. / Dissertation/Thesis / Masters Thesis Chemistry 2014 Chemistry atmospheric chloroform disinfection Phoenix pool swimming
102	Condutas de biossegurança adotadas por cirurgiões-dentistas em trabalhos protéticos / Behavior of dentists in the handling of templates, models and dentures Juliana Vieira Frezza Bernardes 27 October 2010 (has links) Introdução: Moldes, modelos e próteses são veículos de microrganismos entre o consultório odontológico e o laboratório de prótese dentária, portanto, a adoção de medidas de biossegurança por cirurgiões dentistas e técnicos de prótese dentária são essenciais para a manutenção de uma cadeia asséptica. Objetivo: Este estudo verificou o comportamento de cirurgiões dentistas durante o manuseio de moldes, modelos e trabalhos protéticos na cidade de Porto Velho, RO. Método: Foram incluídos no estudo cirurgiões dentistas inscritos no Conselho Regional de Odontologia da cidade de Porto de Velho. Um questionário contendo perguntas relacionadas às condutas de biossegurança que envolvem trabalhos protéticos foi aplicado aos participantes do estudo. A análise estatística foi conduzida adotando nível de significância estatística de 95% (p<0,05), com auxílio do software Bio Estat 5.0. Resultados: 71 cirurgiões dentistas (CD) participaram do estudo, com média de idade de 3410 anos. Todos sempre utilizavam avental, luvas e máscara durante o atendimento ao paciente, 59,15% dos profissionais afirmaram sempre realizar a desinfecção do molde após sua confecção, sendo que o alginato (88,73%) e a silicona (66,20%) foram os materiais de escolha para moldagem Quanto à desinfecção do modelo quando recebido do laboratório de prótese 43,66% afirmaram nunca realizar o procedimento, 40,75% utilizam o glutaraldeido 2% para realizar a desinfecção e 35,21% dos profissionais utilizam a imersão como método de desinfecção. Quanto ao tempo de exposição ao desinfetante, 21,13% expõem o artigo por dez minutos, 19,72% por um minuto e 19,72% por trinta minutos e 85,94% dos profissionais submetem as moldeiras ao processo de esterilização. Conclusão: A aplicação das normas de biossegurança em trabalhos protéticos, pelos profissionais da cidade de Porto Velho (RO), está aquém do esperado para que haja redução no risco de infecção cruzada. / Introduction: Patterns, models and prostheses are vehicles of microorganisms between the dental office and dental laboratory, therefore, the adoption of biosecurity measures by dentists and dental technicians are essential to maintaining an aseptic chain. Objective: This study investigated the behavior of dentists during the handling of templates, models and prosthetic works in the city of Porto Velho, RO. Method: The study included dentists enrolled in the Regional Council of Dentistry of Porto Velho. A questionnaire concerning the conduct of biosafety studies involving prosthetic was applied to study participants. Statistical analysis was conducted by adopting statistical significance level of 95% (p <0.05), using the software Bio Estat 5.0. Results: 71 dentists (CD) were enrolled, mean age 34 10 years. Everyone always used aprons, gloves and mask during patient care, 59.15% of the respondents said they always carry out disinfection of the mold after its making, and the alginate (88.73%) and silicon (66.20%) were the material of choice for casting The disinfection of the model when received from the dental lab 43.66% say they never perform the procedure, 40.75% are using 2% glutaraldehyde for disinfection and hold 35.21% of professionals use the immersion as a method of disinfection. Regarding the duration of exposure to disinfectant, the article exposes 21.13% for ten minutes, 19.72% for one minute and 19.72% for thirty minutes and 85.94% of the professionals submit the trays to the sterilization process. Conclusion: The implementation of biosafety norms in prosthetic works by professionals in the city of Porto Velho (RO), is less than expected so there is reduced risk of cross infection. biossegurança próteses desinfecção biosafety prosthesis disinfection ODONTOLOGIA
103	Efeito de sucessivos ciclos de desinfecção por microondas sobre a microdureza e rugosidade superficial de diferentes bases de próteses totais: estudo longitudinal / Effect of successive microwave disinfection cycles on the hardness and roughness of different denture base resins: a longitudinal study Flora Freitas Fernandes Távora 22 June 2007 (has links) O objetivo desse estudo foi investigar longitudinalmente, o efeito de sucessivos ciclos de desinfecção sobre as propriedades de microdureza e rugosidade superficial de 4 diferentes resinas acrílicas. Foram confeccionados 200 corpos de prova, utilizando um material para base de dentaduras (Lucitone 550) e três materiais rígidos para reembasamento (Jet, Kooliner e Tokuyama Rebase II Fast), os quais foram divididos, para cada resina, em cinco grupos: imersos em água (controle) e submetidos à irradiação por microondas em quatro combinações diferentes de potência-tempo. Esses grupos foram avaliados em relação à rugosidade superficial (Ra-µm) e microdureza Knoop (KHN) em um período anterior às desinfecções e após 30, 90 e 180 ciclos de desinfecção. Os dados foram submetidos à análise de variância, seguida por teste de Tukey a 5%. As principais alterações nos valores de microdureza (diminuição) e rugosidade superficial (aumento) ocorreram após 30 ciclos de desinfecção em microondas. Após esse período existiu uma tendência para a estabilização dos valores dessas propriedades, mesmo quando ciclos adicionais (90 e 180 ciclos) foram realizados. Os tratamentos empregados para os diferentes grupos experimentais (diferentes combinações de potência-tempo) não foram os principais fatores que tiveram influência sobre a propriedade de microdureza. É provável que a redução dos valores de microdureza tenha sido mais dependente da sorpção de água do que da energia de microondas por si só. O principal efeito sobre a microdureza através da irradiação por microondas parece ser o efeito da água. A exposição da prótese a fluidos como água e saliva é uma condição que não pode ser evitada. Esse comportamento não foi observado para a rugosidade superficial. Os tratamentos empregados para os diferentes grupos experimentais (diferentes combinações de potência-tempo) tiveram influência sobre a propriedade de rugosidade superficial. De maneira geral observou-se que os valores de rugosidade superficial dos espécimes somente imersos em água foram menores do que os valores dos espécimes irradiados. Apesar da rugosidade de alguns espécimes ter ficado acima de 0.2 um, isso não parece contra-indicar a desinfecção por microondas. As técnicas convencionais de acabamento e polimento aplicadas para as outras superfícies dificilmente atingem níveis de rugosidade superficial inferiores a 0,2 µm. Dessa maneira parece ser prudente a afirmação de que a desinfecção através da energia de microondas pode ser utilizada para a desinfecção de próteses. / The objective of this study was to investigate the longitudinal effect of microwave disinfection on the hardness and roughness of one heat-polymerizing denture base acrylic resin and three hard chairside resins. A total of 200 specimens were fabricated using one denture base material (Lucitone 550; n=50) and three hard chairside reliners (Jet; n=50, Kooliner; n=50, Tokuyama Rebase II Fast; n=50), which were immersed in water (control), and submitted to microwave disinfection at four different arrangements of power and time. These specimens were tested for knoop hardness (KHN) and roughness (Ra-µm) for different times (before disinfection, after 30, 90 and 180 disinfection cycles). Data were analyzed by Variance Analysis which was followed by the Turkey\'s test at a level of 5%. The principal alterations on hardness (reduction) and on roughness (elevation) occurred after 30 disinfection cycles. Both of the properties remained stable after this period, even after 90 and 180 disinfection cycles. The different arrangements of power and time carried out for the experimental groups did not have influence on hardness. It is possible that this property was more affected from water sorption than microwave energy only. During its clinical use, the denture is exposed to water and saliva and it seems that this condition cannot be prevented. This fact was not observed for roughness. The different arrangements of power and time carried out for the experimental groups had influence on roughness. It was observed that the control group had lower roughness values when compared to the experimental groups. The roughness values of some specimens were greater than 0.2 um. However, this fact does not compromise the indication of microwave disinfection. The finishing and polishing techniques commonly used for the other surfaces of the denture do not get roughness values below 0.2 um. Therefore, it is very likely that microwave disinfection could be recommended for the disinfection of dentures. Desinfecção Resinas acrílicas Acrylic resins Disinfection
104	Efeito da desinfecção química sobre a microdureza e rugosidade superficial de resinas para base de dentaduras e resinas rígidas para reebasamento: estudo longitudinal / Effect of chemical disinfection on the hardness and roughness of denture base resins and hard chairside resins: a longitudinal study Luciana de Rezende Pinto 20 April 2007 (has links) O objetivo deste estudo foi investigar, longitudinalmente, o efeito de cinco soluções desinfetantes sobre a microdureza e rugosidade superficial de uma resina acrílica termopolimerizável e três materiais reembasadores rígidos. Um total de 240 corpos de prova circulares (30 X 6mm) foram fabricados, utilizando um material para base de dentaduras (Lucitone 550; n=60), e três materiais rígidos, para reembasamento (Jet; n=60, Kooliner; n=60, Tokuyama rebase II fast; n=60), os quais foram imersos em água (controle), e em cinco soluções desinfetantes (hipoclorito de sódio a 1%, hipoclorito de sódio a 2%, hipoclorito de sódio a 5,25%, glutaraldeído a 2% e gluconato de clorexidina a 4%), e testados para avaliação de microdureza Knoop (KHN) e rugosidade superficial (Ra-µm) em diferentes intervalos (antes das imersões, após 30, 90 e 180 ciclos de desinfecção. Em cada condição experimental foram utilizados 10 corpos de prova de cada material estudado. Os dados foram analisados através de esquema fatorial (6X4) e as médias foram analisadas por meio de análise de variância, seguida por teste de Tukey a 5%. Para as resinas Lucitone 550 (20,61 ± 1,36 a 15,44 ± 1,26 KHN), Jet (18,74 ± 0,47 a 13,75 ± 0,95 KNH), Kooliner (14,09 ± 1,63 a 7,52 ± 0,88 KHN) e Tokuyama rebase II fast (12,57 ± 0,94 a 8,28 ± 0,39 KHN), foi observada uma diminuição significativa dos valores de microdureza, independente da solução utilizada, após 180 ciclos de imersão. Não foi observada interação significativa para a rugosidade da resina Kooliner. Para a resina Lucitone 550 (0,06 ± 0,01 a 0,20 ± 0,02µm) e Jet (0,07 ± 0,01 a 0,23 ± 0,04µm), foi observado aumento significativo dos valores de rugosidade superficial, independente da solução desinfetante utilizada, e a após 180 ciclos de imersão em água, estes materiais mantiveram valores semelhantes ao da avaliação inicial. A resina Tokuyama rebase II fast não mostrou diferenças significativas nos valores de rugosidade superficial quando imersa em água, hipoclorito de sódio a 2%, 5,25% e glutaraldeído a 2%, durante o período do estudo. Ao final da avaliação (180 ciclos), conclui-se que, embora todas as soluções tenham causado redução da microdureza da resina Lucitone 550, os espécimes submetidos às imersões em H5,25% e H2% apresentaram menores valores, no entanto, não ocorreu diferença significante entre os desinfetantes para as resinas autopolimerizáveis. As soluções H1%, H2% e GC4% causaram maior alteração na rugosidade superficial da resina Lucitone 550. Estas mesmas soluções, além de H5,25%, promoveram maior rugosidade na resina Jet, enquanto que, para a resina Tokuyama Rebase II fast, não houve diferença entre os desinfetantes. / The aim of this study was to investigate the longitudinal effect of five disinfection solutions on the hardness and roughness of one heat-polymerizing denture base acrylic resin and three hard chairside resins. A total of 240 circular specimens (30 X 6mm) were fabricated using one denture base material (Lucitone 550; n=60) and three hard chairside reliners (Jet; n=60, Kooliner; n=60, Tokuyama rebase II fast; n=60), which were immersed in water (control), and five disinfecting solutions (1% sodium hypochlorite; 2% sodium hypochlorite; 5,25% sodium hypochlorite, 2% glutaraldehyde; 4% chlorhexidine gluconate) that were tested for knoop hardness (KHN) and roughness (Ra-µm) for different times (before immersions, after 30, 90 and 180 immersion cycles). For each experimental condition, 10 specimens were used from each material. Data was analyzed by factorial scheme (6 X 4) and the means were analyzed by The Variance Analysis which was followed by Tukey\'s test 5%. For Lucitone 550 (from 20,61 ± 1,36 to 15,44 ± 1,26 KHN), Jet (from 18,74 ± 0,47 to 13,75 ± 0,95 KHN), Kooliner (from 14,09 ± 1,63 to 7,52 ± 0,88 KHN), Tokuyama rebase II fast (from 12,57 ± 0,94 to 8,28 ± 0,39 KHN) significant decrease in hardness was observed regardless of the solution used, after 180 immersion cycles. No significant interactions were observed for Kooliner roughness. Between Lucitone (from 0,06 ± 0,01 to 0,20 ± 0,02µm) and Jet, (from 0,07 ± 0,01 to 0,23 ± 0,04µm) there was a significant increase in roughness regardless of the disinfectant solution used; Jet showed significant increase in roughness after immersion in water for 180 cycles. Tokuyama rebase II fast showed no significant differences in roughness when immersed in water, 2% sodium hypochlorite, 5.25% sodium hypochlorite, and 2% glutaraldehyde after 180 cycles. In conclusion, this study showed that Lucitone 550 specimens exhibited significant decrease in hardness regardless of the disinfection solution used, and the specimens immersed in H5,25% and H2% showed lower hardness values; However, no significant differences were noted between all disinfectants solution, for hard chairside resins. The solutions H1%, H2% and GC4% caused more alteration in roughness of Lucitone 550. These solutions along with H5,25% caused an increase in the roughness of Jet, while with the Tokuyama rebase II fast there was no difference between the disinfection solutions. desinfecção resinas acrílicas acrylic resins disinfection
105	The development of appropriate brine electrolysers for disinfection of rural water supplies Siguba, Maxhobandile January 2005 (has links) >Magister Scientiae - MSc / A comparative study of electrolysers using different anodic materials for the electrolysis of brine (sodium chloride) for the production of sodium hypochlorite as a source of available chlorine for disinfection of rural water supplies has been undertaken. The electrolyser design used was tubular in form, having two chambers i.e. anode inside and cathode outside, separated by a tubular inorganic ceramic membrane. The anode was made of titanium rod coated with a thin layer of platinum and a further coat of metal oxide. The cathode was made of stainless steel wire. An assessment of these electrolysers was undertaken by studying the effects of some variable parameters i.e.current, voltage and sodium chloride concentration. The cobalt electrolyser has been shown to be superior as compared to the ruthenium dioxide and manganese dioxide electrolysers in terms of hypochlorite generation. Analysis of hydroxyl radicals was undertaken since there were claims that these are produced during brine electrolysis. Hydroxyl radical analysis was not successful, since sodium hypochlorite and hypochlorous acid interfere using the analytical method described in this study. / South Africa Water, Purification Water, Purification - Disinfection Water, Electrolysis
106	The electrogeneration of hydroxyl radicals for water disinfection Mangombo, Zelo January 2006 (has links) Magister Scientiae - MSc / This study has shown that OHË radicals can be generated in an Fe/O2 cell from the electrode products via Fenton’s reaction and used for water disinfection. The cell system in which the experiments were carried out was open and undivided and contained two electrodes with iron (Fe) as the anode and oxygen (O2) gas diffusion electrode. Typically, 100 ml of Na2SO4.10H2O (0.5M) solution was used as a background electrolyte. OHË radicals were produced in-situ in an acidic solution aqueous by oxidation of iron (II), formed by dissolving of the anode, with hydrogen peroxide (H2O2). The H2O2 was electrogenerated by reduction of oxygen using porous reticulated vitreous carbon (RVC) as a catalyst. / South Africa Electrolysis Water Purification - Disinfection Purification - Ozonization
107	Kinetika elektrofotokatalytické dezinfekce vody / Kinetics of electrophotocatalytic water disinfection Štefancová, Eva January 2019 (has links) In this work, electrophotocatalytic disinfection on selected microorganisms was verified. The electrophotocatalytic system allows the application of electrical bias to the photoanode coated with a titanium dioxide layer. The disinfecting effect was observed on E.coli and C.glabrata in aqueous solution. The effect of radiation intensity on electrophotocatalysis and selected optimal conditions for further experiments was observed in the E. coli organism. Photocatalytic disinfection was carried out under suitable conditions on C.glabrata yeast and the effect of sodium sulfate electrolyte on electrophotocatalytic disinfection was observed in this case.
108	Effects of Microwave Treatments on Barley Seed Quality and Eradication of Seed-Borne Ustilago Nuda (Jens.) Rostr. Stephenson, Patrick M. M. January 1995 (has links) No description available. Cereal smut diseases. Microwave heating. Seeds -- Disinfection.
109	A comparison of four skin cleansing products. Boroda, Eli 01 January 1972 (has links) (PDF) No description available. Cleaning compounds Testing Disinfection and disinfectants Testing Soap.
110	A comparison of the disinfecting capacity of commercial preparations of 3% and 6% hydrogen peroxide and its applicability to the disinfection of soft contact lenses. Levine, William Leonard 01 January 1980 (has links) (PDF) No description available. Hydrogen peroxide Soft contact lenses Disinfection.

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