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51	Estudo e projeto de reatores fotoquimicos para tratamento de efluentes liquidos / Study and design of photochemical reactors to treat liquid effluents Gabardo Filho, Helio 29 September 2005 (has links) Orientadores: Edson Tomaz, Wilson de Figueiredo Jardim / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Quimica / Made available in DSpace on 2018-08-05T04:45:41Z (GMT). No. of bitstreams: 1 GabardoFilho_Helio_M.pdf: 3819999 bytes, checksum: a1b59cdf4b3995f67840fdb2259da9df (MD5) Previous issue date: 2005 / Resumo: O tratamento de efluentes industriais tem se tornado uma etapa fundamental do processo produtivo e os processos biológicos são atualmente o mais aplicado. No entanto, determinados tipos de efluentes não podem ser tratados por esses processos devido ao fato de possuírem características tóxicas o a presença de compostos recalcitrantes. Assim, os Processo Oxidativos Avançados (POA) podem ser aplicados com sucesso na remediação desses efluentes. O objetivo deste trabalho foi o estudo da degradação de fenol com peróxido de hidrogênio e radiação ultravioleta em reatores de seção anular, para avaliação das variáveis que influenciam no processo de tratamento e o desenvolvimento de uma metodologia de projeto de reatores para a determinação das condições ótimas de operação. As variáveis estudadas mediante análise fatorial foram a concentração de peróxido de hidrogênio, o regime de escoamento, a potência da lâmpada e o diâmetro do reator. O processo de degradação do fenol utilizando 'H IND. 2¿¿O IND. 2¿ apresenta um comportamento semelhante ao de reações autocatalíticas e o sistema pode ser arranjado de forma a otimizar sua aplicação, através de uma corrente de reciclo. Para isso foram utilizados dos reatores fotoquímicos de seção anular diferentes que foram operados em sistema contínuo e em batelada com reciclo... Observação: O resumo, na íntegra, poderá ser visualizado no texto completo da tese digital / Abstract: Wasterwater treatment has become a fundamental stage of industrial processes. Most wastewater treatment are currently based on biological processes. However, some types of wastewater cannot be treated by such processes due to the fact of possessing toxic. Therefore, the Advanced Oxidation Process (AOP) can be used with success in such wastewater remediation. The aim of this study was to study the degradation of phenol using hydrogen peroxide and ultraviolet in annular section reactor, observing the influence of certain variables in the treatment process and the development of a photochemical reactor design methodology to determine the best operation conditions. The factors studied through factorial analysis were hydrogen peroxide concentration, flow regime, light bulb power and reactor diameter. The phenol degradation process using 'H IND. 2¿¿O IND. 2¿ behaves similar to autocatalytic reactions and this system can be optimized through a recycle flow. Two photochemical reactors were used with different annular section operated both in a continuous flow and batch recycle system. The degradation was monitored by Total Organic Carbon (TOC). Showed to be more significant light bulb power, hydrogen peroxide concentration and reactor diameter, and that there is an interaction effect with these last two factors... Note: The complete abstract is available with the full electronic digital thesis or dissertations / Mestrado / Desenvolvimento de Processos Químicos / Mestre em Engenharia Química Oxidantes fotoquimicos Radiação ultravioleta Reatores químicos Fenois Águas residuais Água oxigenada Photochemical oxidants Ultraviolet radiation Chemical reactors Phenols Sewage Hydrogen peroxide
52	Remoção de substâncias húmicas em tratamento de água por meio de pré-oxidação e dupla filtração / Removal of humic substances in water treatment through preoxidation and double filtration Giovana Kátie Wiecheteck 18 March 2005 (has links) Para estudar a remoção de substâncias húmicas da água, foi utilizada uma instalação piloto de pré-oxidação e dupla filtração com filtro ascendente de areia grossa (FAAG) e filtro rápido descendente (FRD). Ozônio, peróxido de hidrogênio, peroxônio, tricloro-s-triazina-triona, dióxido de cloro, permanganato de potássio e hipoclorito de sódio foram utilizados como pré-oxidantes. A água de estudo era proveniente do Ribeirão do Feijão (São Carlos - SP) com adição de extrato de substâncias húmicas até cor verdadeira de 90 a 110 uH. O trabalho experimental foi realizado em quatro etapas: i) extração de substâncias húmicas; ii) ensaios em reatores estáticos; iii) ensaios na instalação piloto em escoamento contínuo sem pré-oxidação com taxas de filtração no FAAG entre 120 e 240 m3/m2d e no FRD entre 160 e 280 m3/m2d e; iv) ensaios na instalação piloto em escoamento contínuo sem e com pré-oxidação com taxas de filtração de 180 m3/m2 d no FAAG e 280 m3/m2d no FRD. Houve eficiência de remoção de substâncias húmicas nos ensaios sem pré-oxidação e com variação de taxas de filtração, eventualmente, observou-se residual de alumínio maior que 0,2 mg/L no efluente do FRD. Nos ensaios com pré-oxidação obteve-se redução de 50% na dosagem de coagulante, resultando em menores concentrações de alumínio residual nos filtros, e redução de 43 a 63% na perda de carga final do FAAG, comparando-se com o ensaio sem pré-oxidação. As amostras pré-oxidadas com ozônio apresentaram maiores concentrações de ácidos haloacéticos. No efluente do FRD, observou-se aumento das concentrações de trialometanos com o aumento do pH. Nos ensaios com dióxido de cloro e permanganato de potássio observaram-se menores concentrações de subprodutos. / A pilot plant of preoxidation and double filtration with coarse sand upflow filter (CSUF) and downflow filter (DF) was used with the purpose of removing humic substances of the water. Ozone, hydrogen peroxide, peroxone, chlorine, chlorine dioxide and potassium permanganate were used as preoxidants. The water of study was originating from Ribeirão Feijão (São Carlos - SP) with addition of extract of humic substances until true color from 90 to 110 uH. The experimental work was accomplished in four stages: i) extraction of humic substances; ii) tests in static reactors; iii) runs in the pilot plant in continuous flow without preoxidation with filtration rates in the upflow filter between 120 and 240 m3/m2d and in the downflow filter between 160 and 280 m3/m2d and; iv) runs in the pilot plant in continuous flow with and without preoxidation with filtration rates of 180 m3/m2d in the upflow filter and 280 m3/m2d in the downflow filter. There was efficiency of removal of humic substances in the runs without preoxidation with variation of filtration rates, but the effluent of the downflow filter presented aluminum residual larger than 0,2 mg/L. In the runs with preoxidation a reduction in the coagulant dosage of 50% was observed and consequently smaller concentration of aluminum residual in the effluent of the downflow filter, and reduction of 43 to 63% in the final load loss in the upflow filter, compared with the run without preoxidation. The preoxidaded water with ozone was verified higher concentration of haloacetic acids. In the effluent of the downflow filter was observed increase of trihalomethane concentrations with the increase of the pH. In the runs with chlorine dioxide and potassium permanganate were observed lower concentrations of byproducts. Dupla filtração Formação de subprodutos Oxidantes Pré-oxidação Remoção de substâncias húmicas Tratamento de água Byproduct formation Double filtration Oxidants Preoxidation Removal of humic substances Water treatment
53	Phytochemical study of Rhoicissus tomentosa Nqolo, Nandipha Lucia January 2008 (has links) Magister Scientiae - MSc / This investigation focused on Rhoicissus tomentosa, belonging to the family, Vitaceae in an attempt to assess the phytochemistry of this plant which is widely used by traditional healers in South Africa to ensure the safe delivery during pregnancy and childbirth (Hutchings et al., 1996). / South Africa Anti-bacterial Anti-fungal Anti-inflammatory Anti-microbial Anti-oxidants Medicinal plants Phytoalexin Pregnancy Resveratrol Rhoicissus Rhoicissus tomentosa South Africa Traditional healers Traditional medicine
54	Tracking Cyanobacteria Cell Integrity through Chemical and Mechanical Stressors in the Water Treatment Process Elliott, Dane 30 September 2022 (has links) No description available. Civil Engineering Environmental Engineering Cyanobacteria harmful algal blooms drinking water treatment phycocyanin microcystis planktothrix cell damage lysis chemical oxidants permanganate chlorine mechanical shear
55	Innovative Desinfektionsverfahren zur Brauchwassergewinnung in der dezentralen Abwasserbehandlung - Elektrolyse und UV/Elektrolyse-Hybridtechnik Haaken, Daniela 10 August 2015 (has links) (PDF) According to estimates of the United Nations Environment Programme (UNEP), more than 1.8 billion people will be living in countries or regions with absolute water scarcity by 2025. The pressure on water resources is increased not only in arid and semiarid regions, but also in fast growing megacities around the world as a result of, amongst other factors, the changing nutritional and consumer behavior (rising living standards). Over 90 % of the annual water consumption of the newly industrializing and developing countries in the arid and semiarid climate zone is used for agricultural irrigation to ensure the nutrition of the population. Thus, since the beginning of the 20th century, the planned/controlled reuse of wastewater has developed into a central task of the sustainable water resources management. Wastewater represents a valuable resource in view of its composition (e. g. nutrients P, N for soil fertilizing) and its reliable, weather-independent availability in every household. The establishment of a closed-loop water management can enhance the efficiency of water usage. Therefore, activities in research and development are currently focused on decentralized and semi-centralized concepts, since their structures offer better conditions for the establishment of closed-loop systems and innovations in wastewater technology can be implemented more easily. In general, the hygienic quality requirements for wastewater reuse are predominantly oriented towards the planned usage. These are, in turn, regulated by thresholds and guidance values, e. g. for faecal indicator bacteria (e. g. faecal coliforms: E. coli), in widely differing norms and legal provisions specific to the respective countries. In Germany since 2005, small wastewater treatment plants can obtain the discharge class +H by the German Institute for Civil Engineering (DIBt: Deutsches Institut für Bautechnik) if secondary effluents contain less than 100 faecal coliforms (E. coli) per 100 mL. This ensures a safe effluent seepage in karst and water protection areas. Due to the infectious risk caused by a multitude of pathogens (bacteria, viruses, worm eggs, protozoa) which are still contained in wastewater after mechanical-biological treatment, specific disinfection methods are indispensable for their satisfactory reduction. Demands on disinfection methods for wastewater reclamation are quite complex. They should be characterized by a high and constant disinfection efficiency at low or moderate formation of disinfection by-products. The reclaimed wastewater should be able to be stored safely. Moreover, the disinfection method should be technically simple, scaleable, space-saving, subjected to low maintenance and realized at moderate investment and operating costs without applying external toxic chemicals. Established methods in decentralized wastewater disinfection are mainly based on membrane and UV technologies. However, these methods are currently working under high operating costs (high maintenance and cleaning efforts). Furthermore, the high investment costs of the membrane filtration are disadvantageous. In addition, both methods do not provide a disinfection residual. Thus, further research is required for the development and testing of alternative disinfection technologies. Against this background, the applicability of the electrolysis and UV/electrolysis hybrid technology for the decentralized wastewater reclamation was investigated and assessed in this dissertation. Results have shown that the electrochemical disinfection of biologically treated wastewater represents an efficient method at temperatures of > 6 °C, pH values of < 8.5 and DOC con-centrations of < 22 mg L-1. Under these conditions, an E. coli reduction of four log levels was achieved at a concentration of free chlorine ranging from 0.4 mg L-1 to 0.6 mg L-1 and at an after-reaction time of 15...20 min. However, it becomes simultaneously apparent that low temperatures, high pH values and high DOC concentrations are limiting parameters for this disinfection method to reclaim biologically treated wastewater. A high energy consumption of the electrolysis cell equipped with boron-doped diamond (BDD) electrodes (2...2.6 kWh m-3) represents a further unfavourable effect. Moreover, the undesired formation of chlorate (c = 1.3 mg L-1) and perchlorate (c = 18 mg L-1) at BDD electrodes can be considered as critical, since these disinfection by-products are, amongst others, human-toxicologically relevant. The concentration of adsorbable organically bound halogens (AOX) and trihalomethanes (THMs) proved to be marginal to moderate. Due to the synergistic effect of the combined application of UV irradiation (primary disinfection method) and electrolysis, the disadvantages of the single methods can be compensated. Decisive drawbacks of UV irradiation are photo and dark repair mechanisms of reversibly damaged bacteria. It was observed that the reactivation of reversibly UV-damaged E. coli even occurs at low temperatures (T = 10 °C) and strongly differing pH values (pH = 5.7...8.1) as well as at low light intensities and in darkness to an extent excluding a safe usage and storage of the reclaimed wastewater. The reactivation processes might be lowered by increased UV fluences. However, this is limited by high concentrations of total suspended solids (TSS). In spite of high UV fluences of > 400 J m-1, no complete removal of E. coli bacteria can be achieved at TSS concentrations of > 17 mg L-1. Therefore, it is indispensable to prevent bacterial reactivation caused by photo and dark repair processes. This topic was studied in the current work by electrochemically produced oxidants using an electrolysis cell positioned downstream of the UV unit. Results have shown that photo and dark reactivation were completely prevented by oxidants in a total concentration of 0.5...0.6 mg L-1 at a TSS concentration of 8...11 mg L-1, at pH values ranging from 5.7 to 8.1 and at temperatures ranging from 10 °C to 30 °C (t = 24....72 h). Even at a high TSS concentration of 75 mg L-1, the reactivation of E. coli (ctotal oxidants = 1.8 mg L-1) and, up to a TSS concentration of 32 mg L-1, the reactivation of total coliforms (except E. coli, ctotal oxidants = 1.0 mg L-1) can be prevented at a high initial germ concentration of 2…3 105 per 100 mL. The lowest energy consumption could be observed when mixed oxide electrodes (MOX electrodes) were applied. This result and the fact that no chlorate and perchlorate were observed at MOX electrodes argue for the application of these electrodes in practice. All in all, the UV/electrolysis hybrid technology represents an energy-efficient method for reclamation of biologically treated wastewater with TSS concentrations ranging from < 11 to 32 mg L-1 (E = 0.17…0.24 kWh m-3, MOX electrodes). Thereby, the reclaimed wastewater meet the hygienic quality requirements for a multitude of reuse categories starting from agricultural irrigation to urban and recreational reuse. Moreover, the requirements of the discharge class +H (100 faecal coliforms (E. coli) per 100 mL) are complied with reliably. The operational stability of the UV/electrolysis hybrid technology should also be ensured within the required maintenance intervals (t > 6 months). The undesired formation of coverings caused by biofouling processes on quartz glass surfaces could be prevented by electrochemically produced oxidants in a total concentration of 1 mg L-1 within an experimental duration of 5.5 months. However, the application of the UV/electrolysis hybrid technology is limited by increased particle concentrations and faecal loadings (initial E. coli concentration). The resulting enhanced demand of electrochemically produced oxidants for the prevention of bacterial reactivation results in a considerable increase of the electric charge input and energy consumption. Elektrochemische Desinfektion UV/Elektrolyse-Hybridtechnik Wiederverwendung von Abwasser Abwasserrückgewinnung Desinfektionsnebenprodukte Reaktivierung von E. coli elektrochemisch erzeugte Oxidantien Vermeidung von Biofouling electrochemical disinfection UV/electrolysis hybrid technology wastewater reuse wastewater reclamation disinfection by-products reactivation of E. coli electrochemically produced oxidants prevention of biofouling ddc:550 rvk:AR 22560
56	Die belewing van stres en die gebruik van cope-vaardighede deur departementshoofde van skole : riglyne vir ondersteuning / Jan Adriaan Oberholzer Oberholzer, Jan Adriaan January 2006 (has links) An investigation into stress experience and the use of coping skills by departemental heads of schools: guidelines for support. Stress occurs when one's perception of demands exceeds his perception of his abilities to meet them. Except for work related demands, a variety of demands and threats in the environment have to be faced continuously. As a result stress is created that manifest in people's behavior, work efficiency and socialization. In general, the education profession is considered among the most stressful careers in the world. This also applies to the South African educational system. U'hm teachers experience stress, it has a negative effect on their beloved ones. colleagues and the learners. Therefore teacher stress has a negative effect on the teaching system in general. Thus teacher stress can be considered to be a national problem. The real situation of teachers in South Africa was determined by means of an empirical study that \\as complimented by a qualitative investigation. In this study. stress is dealt with from the educational psychology. However. stress is a holistic multi-dimensional concept that can only by understood at best when it is approached from a multi-professional point of view. Equally all the actions to cope with stress are rnultidimensional actions. This research aims to develop among teachers an awareness of stress manifestations. with the purpose to identi6 and control stressors. These actions are strengthened by appropriate adaptations in life style and the management of resources. A comprehensive support program is suggested to guide teachers towards an understanding and control of stress. and the establishment of a social support system. while serious manifestations of stress should be addressed by means of professional services. Key words: stress. cope. stress management. education. self control. stress control, environment. work stress: organization stress. community stress. health. wellness. neurological exercise. physical exercise. physiological exercise. religion. humor. feeding. free radicals. anti-osidants. and diet. / Thesis (Ph.D. (Education))--North-West University, Potchefstroom Campus, 2006. Stress Stres Stress management Stresbeheer Education Onderwys Self control Selfbeheer Stress control Streshantering Environment Omgewing Work stress Werkstres Organization stress Organisasiestres Community stress Gemeenskapstres Health Gesondheid Wellness Welstand Neurological exercise Neurologiese oefeninge Physical exercise Fisieke oefeninge Physiological exercise Fisiologiese oefeninge Religion Godsdiens/Religie Feeding Voeding Free radicals Vrye radikale Anti-oxidants Anti-oksidante Diet Diëet Cope Stresbelewenis Persoonlike ruimte Hulpbronbestuur Humor
57	Die belewing van stres en die gebruik van cope-vaardighede deur departementshoofde van skole : riglyne vir ondersteuning / Jan Adriaan Oberholzer Oberholzer, Jan Adriaan January 2006 (has links) An investigation into stress experience and the use of coping skills by departemental heads of schools: guidelines for support. Stress occurs when one's perception of demands exceeds his perception of his abilities to meet them. Except for work related demands, a variety of demands and threats in the environment have to be faced continuously. As a result stress is created that manifest in people's behavior, work efficiency and socialization. In general, the education profession is considered among the most stressful careers in the world. This also applies to the South African educational system. U'hm teachers experience stress, it has a negative effect on their beloved ones. colleagues and the learners. Therefore teacher stress has a negative effect on the teaching system in general. Thus teacher stress can be considered to be a national problem. The real situation of teachers in South Africa was determined by means of an empirical study that \\as complimented by a qualitative investigation. In this study. stress is dealt with from the educational psychology. However. stress is a holistic multi-dimensional concept that can only by understood at best when it is approached from a multi-professional point of view. Equally all the actions to cope with stress are rnultidimensional actions. This research aims to develop among teachers an awareness of stress manifestations. with the purpose to identi6 and control stressors. These actions are strengthened by appropriate adaptations in life style and the management of resources. A comprehensive support program is suggested to guide teachers towards an understanding and control of stress. and the establishment of a social support system. while serious manifestations of stress should be addressed by means of professional services. Key words: stress. cope. stress management. education. self control. stress control, environment. work stress: organization stress. community stress. health. wellness. neurological exercise. physical exercise. physiological exercise. religion. humor. feeding. free radicals. anti-osidants. and diet. / Thesis (Ph.D. (Education))--North-West University, Potchefstroom Campus, 2006. Stress Stres Stress management Stresbeheer Education Onderwys Self control Selfbeheer Stress control Streshantering Environment Omgewing Work stress Werkstres Organization stress Organisasiestres Community stress Gemeenskapstres Health Gesondheid Wellness Welstand Neurological exercise Neurologiese oefeninge Physical exercise Fisieke oefeninge Physiological exercise Fisiologiese oefeninge Religion Godsdiens/Religie Feeding Voeding Free radicals Vrye radikale Anti-oxidants Anti-oksidante Diet Diëet Cope Stresbelewenis Persoonlike ruimte Hulpbronbestuur Humor
58	Innovative Desinfektionsverfahren zur Brauchwassergewinnung in der dezentralen Abwasserbehandlung - Elektrolyse und UV/Elektrolyse-Hybridtechnik Haaken, Daniela 24 April 2015 (has links) According to estimates of the United Nations Environment Programme (UNEP), more than 1.8 billion people will be living in countries or regions with absolute water scarcity by 2025. The pressure on water resources is increased not only in arid and semiarid regions, but also in fast growing megacities around the world as a result of, amongst other factors, the changing nutritional and consumer behavior (rising living standards). Over 90 % of the annual water consumption of the newly industrializing and developing countries in the arid and semiarid climate zone is used for agricultural irrigation to ensure the nutrition of the population. Thus, since the beginning of the 20th century, the planned/controlled reuse of wastewater has developed into a central task of the sustainable water resources management. Wastewater represents a valuable resource in view of its composition (e. g. nutrients P, N for soil fertilizing) and its reliable, weather-independent availability in every household. The establishment of a closed-loop water management can enhance the efficiency of water usage. Therefore, activities in research and development are currently focused on decentralized and semi-centralized concepts, since their structures offer better conditions for the establishment of closed-loop systems and innovations in wastewater technology can be implemented more easily. In general, the hygienic quality requirements for wastewater reuse are predominantly oriented towards the planned usage. These are, in turn, regulated by thresholds and guidance values, e. g. for faecal indicator bacteria (e. g. faecal coliforms: E. coli), in widely differing norms and legal provisions specific to the respective countries. In Germany since 2005, small wastewater treatment plants can obtain the discharge class +H by the German Institute for Civil Engineering (DIBt: Deutsches Institut für Bautechnik) if secondary effluents contain less than 100 faecal coliforms (E. coli) per 100 mL. This ensures a safe effluent seepage in karst and water protection areas. Due to the infectious risk caused by a multitude of pathogens (bacteria, viruses, worm eggs, protozoa) which are still contained in wastewater after mechanical-biological treatment, specific disinfection methods are indispensable for their satisfactory reduction. Demands on disinfection methods for wastewater reclamation are quite complex. They should be characterized by a high and constant disinfection efficiency at low or moderate formation of disinfection by-products. The reclaimed wastewater should be able to be stored safely. Moreover, the disinfection method should be technically simple, scaleable, space-saving, subjected to low maintenance and realized at moderate investment and operating costs without applying external toxic chemicals. Established methods in decentralized wastewater disinfection are mainly based on membrane and UV technologies. However, these methods are currently working under high operating costs (high maintenance and cleaning efforts). Furthermore, the high investment costs of the membrane filtration are disadvantageous. In addition, both methods do not provide a disinfection residual. Thus, further research is required for the development and testing of alternative disinfection technologies. Against this background, the applicability of the electrolysis and UV/electrolysis hybrid technology for the decentralized wastewater reclamation was investigated and assessed in this dissertation. Results have shown that the electrochemical disinfection of biologically treated wastewater represents an efficient method at temperatures of > 6 °C, pH values of < 8.5 and DOC con-centrations of < 22 mg L-1. Under these conditions, an E. coli reduction of four log levels was achieved at a concentration of free chlorine ranging from 0.4 mg L-1 to 0.6 mg L-1 and at an after-reaction time of 15...20 min. However, it becomes simultaneously apparent that low temperatures, high pH values and high DOC concentrations are limiting parameters for this disinfection method to reclaim biologically treated wastewater. A high energy consumption of the electrolysis cell equipped with boron-doped diamond (BDD) electrodes (2...2.6 kWh m-3) represents a further unfavourable effect. Moreover, the undesired formation of chlorate (c = 1.3 mg L-1) and perchlorate (c = 18 mg L-1) at BDD electrodes can be considered as critical, since these disinfection by-products are, amongst others, human-toxicologically relevant. The concentration of adsorbable organically bound halogens (AOX) and trihalomethanes (THMs) proved to be marginal to moderate. Due to the synergistic effect of the combined application of UV irradiation (primary disinfection method) and electrolysis, the disadvantages of the single methods can be compensated. Decisive drawbacks of UV irradiation are photo and dark repair mechanisms of reversibly damaged bacteria. It was observed that the reactivation of reversibly UV-damaged E. coli even occurs at low temperatures (T = 10 °C) and strongly differing pH values (pH = 5.7...8.1) as well as at low light intensities and in darkness to an extent excluding a safe usage and storage of the reclaimed wastewater. The reactivation processes might be lowered by increased UV fluences. However, this is limited by high concentrations of total suspended solids (TSS). In spite of high UV fluences of > 400 J m-1, no complete removal of E. coli bacteria can be achieved at TSS concentrations of > 17 mg L-1. Therefore, it is indispensable to prevent bacterial reactivation caused by photo and dark repair processes. This topic was studied in the current work by electrochemically produced oxidants using an electrolysis cell positioned downstream of the UV unit. Results have shown that photo and dark reactivation were completely prevented by oxidants in a total concentration of 0.5...0.6 mg L-1 at a TSS concentration of 8...11 mg L-1, at pH values ranging from 5.7 to 8.1 and at temperatures ranging from 10 °C to 30 °C (t = 24....72 h). Even at a high TSS concentration of 75 mg L-1, the reactivation of E. coli (ctotal oxidants = 1.8 mg L-1) and, up to a TSS concentration of 32 mg L-1, the reactivation of total coliforms (except E. coli, ctotal oxidants = 1.0 mg L-1) can be prevented at a high initial germ concentration of 2…3 105 per 100 mL. The lowest energy consumption could be observed when mixed oxide electrodes (MOX electrodes) were applied. This result and the fact that no chlorate and perchlorate were observed at MOX electrodes argue for the application of these electrodes in practice. All in all, the UV/electrolysis hybrid technology represents an energy-efficient method for reclamation of biologically treated wastewater with TSS concentrations ranging from < 11 to 32 mg L-1 (E = 0.17…0.24 kWh m-3, MOX electrodes). Thereby, the reclaimed wastewater meet the hygienic quality requirements for a multitude of reuse categories starting from agricultural irrigation to urban and recreational reuse. Moreover, the requirements of the discharge class +H (100 faecal coliforms (E. coli) per 100 mL) are complied with reliably. The operational stability of the UV/electrolysis hybrid technology should also be ensured within the required maintenance intervals (t > 6 months). The undesired formation of coverings caused by biofouling processes on quartz glass surfaces could be prevented by electrochemically produced oxidants in a total concentration of 1 mg L-1 within an experimental duration of 5.5 months. However, the application of the UV/electrolysis hybrid technology is limited by increased particle concentrations and faecal loadings (initial E. coli concentration). The resulting enhanced demand of electrochemically produced oxidants for the prevention of bacterial reactivation results in a considerable increase of the electric charge input and energy consumption. info:eu-repo/classification/ddc/550 ddc:550

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