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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Estudo de durabilidade de pinturas \"frias\" e convencionais expostas ao envelhecimento natural. / Study of the durability of \"cool\" and convenctional paints exposed to natural aging.

Silva, Isabela Libório Martins da 09 December 2016 (has links)
O uso de pinturas \"frias\", em coberturas e fachadas, é uma estratégia utilizada para melhorar a sensação térmica dos usuários por meio do aumento desempenho térmico das edificações, potencializar a eficiência energética e mitigar ilhas de calor. Por outro lado, a exposição ao longo do tempo pode alterar a capacidade refletiva dessas superfícies, devido à deposição de sujidades e crescimento microbiológico. Esse estudo tem o objetivo de avaliar a manutenção da capacidade refletiva, a alteração da cor, do aspecto e da emissividade de pinturas expostas por três anos ao envelhecimento natural. Para esse estudo foram produzidos, em laboratório, dois grupos de tintas tipo premium, para uso em superfícies externas de fachadas e coberturas, com dois acabamentos: acetinado (PVC 30%) e fosco (PVC 50%), nas cores: branco, cinza, amarelo e marrom, que são cores usualmente utilizadas em fachadas e coberturas no Brasil. Um grupo é composto por tintas convencionais, formuladas com pigmentos inorgânicos naturais e orgânicos. O outro grupo é composto por tintas formuladas com pigmentos, com alta capacidade de refletância solar na região do infravermelho próximo, conhecidos como pigmentos \"frios\". Ainda há um terceiro grupo de tintas que foi coletado do mercado e utilizado como referência. Na exposição ao envelhecimento natural o microclima é um dos fatores determinantes no tipo de degradação da pintura, por isso esse estudo contempla os três microclimas predominantes do Estado de São Paulo: rural (Pirassununga), urbano (São Paulo) e costeiro (Ubatuba). Nesse trabalho estão sendo apresentados os resultados obtidos com três anos de exposição e já foi possível observar redução da refletância inicial, alteração de cor (diminuição do índice L luminosidade) e indícios de crescimento microbiológico. / The application of cool paints, on roofs and facades components, is a strategy to improve indoor thermal comfort for users in rooms that are not air conditioned. Increasing the thermal performance of buildings, enhance thermal efficiency and mitigate urban heat island. On the other hand, the exposure of paints over time can change reflectance capability of the surface, due to dirty deposition and microbiological colonization. The objectives of this study is evaluate the level of maintenance of reflectance, emissivity, color and visual aspects of paints after three years of natural aging exposure. Two groups of \"premium\" type paints, formulation recommended for applications on facades and roofs, we prepared in laboratory. Each group of paints was produced with two sheen type, two ratios pigment to binder, gloss finish (PVC 30%) and silk finish (PVC 50%), for the colors white, yellow, grey and brown, which are the most used colors in facades and roofs in Brazil. One group, the standard paint, was produced with natural inorganic and organic pigments and the other group was produced with cool pigments, which has high solar reflectance capacity in the near-infrared spectrum. Additionally, a third group of paints was acquired from the market and used as reference data. The microclimate is one of the key factors for paint degradation by natural aging, so in this study was considered three major microclimates of São Paulo State: rural (Pirassununga City),urban (São Paulo city) and oceanic climate (Ubatuba). The present study shows the results of the paints after three years exposure, which was observed significant reduction in reflectance, color change (reduction of the luminance L index) and evidences of microbiological colonization.
2

Estudo de durabilidade de pinturas \"frias\" e convencionais expostas ao envelhecimento natural. / Study of the durability of \"cool\" and convenctional paints exposed to natural aging.

Isabela Libório Martins da Silva 09 December 2016 (has links)
O uso de pinturas \"frias\", em coberturas e fachadas, é uma estratégia utilizada para melhorar a sensação térmica dos usuários por meio do aumento desempenho térmico das edificações, potencializar a eficiência energética e mitigar ilhas de calor. Por outro lado, a exposição ao longo do tempo pode alterar a capacidade refletiva dessas superfícies, devido à deposição de sujidades e crescimento microbiológico. Esse estudo tem o objetivo de avaliar a manutenção da capacidade refletiva, a alteração da cor, do aspecto e da emissividade de pinturas expostas por três anos ao envelhecimento natural. Para esse estudo foram produzidos, em laboratório, dois grupos de tintas tipo premium, para uso em superfícies externas de fachadas e coberturas, com dois acabamentos: acetinado (PVC 30%) e fosco (PVC 50%), nas cores: branco, cinza, amarelo e marrom, que são cores usualmente utilizadas em fachadas e coberturas no Brasil. Um grupo é composto por tintas convencionais, formuladas com pigmentos inorgânicos naturais e orgânicos. O outro grupo é composto por tintas formuladas com pigmentos, com alta capacidade de refletância solar na região do infravermelho próximo, conhecidos como pigmentos \"frios\". Ainda há um terceiro grupo de tintas que foi coletado do mercado e utilizado como referência. Na exposição ao envelhecimento natural o microclima é um dos fatores determinantes no tipo de degradação da pintura, por isso esse estudo contempla os três microclimas predominantes do Estado de São Paulo: rural (Pirassununga), urbano (São Paulo) e costeiro (Ubatuba). Nesse trabalho estão sendo apresentados os resultados obtidos com três anos de exposição e já foi possível observar redução da refletância inicial, alteração de cor (diminuição do índice L luminosidade) e indícios de crescimento microbiológico. / The application of cool paints, on roofs and facades components, is a strategy to improve indoor thermal comfort for users in rooms that are not air conditioned. Increasing the thermal performance of buildings, enhance thermal efficiency and mitigate urban heat island. On the other hand, the exposure of paints over time can change reflectance capability of the surface, due to dirty deposition and microbiological colonization. The objectives of this study is evaluate the level of maintenance of reflectance, emissivity, color and visual aspects of paints after three years of natural aging exposure. Two groups of \"premium\" type paints, formulation recommended for applications on facades and roofs, we prepared in laboratory. Each group of paints was produced with two sheen type, two ratios pigment to binder, gloss finish (PVC 30%) and silk finish (PVC 50%), for the colors white, yellow, grey and brown, which are the most used colors in facades and roofs in Brazil. One group, the standard paint, was produced with natural inorganic and organic pigments and the other group was produced with cool pigments, which has high solar reflectance capacity in the near-infrared spectrum. Additionally, a third group of paints was acquired from the market and used as reference data. The microclimate is one of the key factors for paint degradation by natural aging, so in this study was considered three major microclimates of São Paulo State: rural (Pirassununga City),urban (São Paulo city) and oceanic climate (Ubatuba). The present study shows the results of the paints after three years exposure, which was observed significant reduction in reflectance, color change (reduction of the luminance L index) and evidences of microbiological colonization.
3

Analyse de l'impact des propriétés radiatives de façades pour la performance énergétique de bâtiments d'un environnement urbain dense / Analysis of façade radiative properties for building energy efficiency in a dense urban environment

Doya, Maxime 08 July 2010 (has links)
L’interaction des phénomènes de transfert de chaleur et de masse dans un tissu urbain avec les apports anthropiques participent à l’îlot de chaleur urbain et à la dégradation de la performance énergétique des bâtiments. L’objectif de cette étude est de définir l’impact de la modification des propriétés radiatives aux façades des bâtiments qui peut être réalisée par l’utilisation de revêtements sélectifs colorés récemment développés pour les toitures. Les flux sensibles et l’impact sur les bâtiments sont étudiés pour une morphologie caractéristique des milieux urbains denses, la rue canyon. Un suivi expérimental mené sur des surfaces élémentaires de propriétés radiatives différentes nous a permis de développer par une méthode d’optimisation un procédé de détermination simultané du coefficient de convection et des absorptivités solaires effectives sur la période de mesure. L’utilisation de peintures sélectives dans la configuration canyon retenue est ensuite analysée expérimentalement. Pour cela une maquette (1/10ème) de scène urbaine a été conçue sur la base de 5 rangées de cuves de béton creux qui ont fait l’objet de mesures de températures et de flux radiatifs. Dans un premier temps, le traitement de deux mois de mesures a permis de caractériser les évolutions de champs de températures liés à cette forme urbaine. Par la suite, trois configurations de propriétés radiatives aux façades ont été étudiées simultanément et ont permis d’analyser les modifications spécifiques sur les champs de température, de sur-faces et d’air. Afin d’estimer les économies d’énergie réalisables sur un bâtiment réel ainsi que l’impact sur son environnement proche, une étude paramétrique des revêtements de façade et de la chaussée a été effectuée par des simulations de l’interaction du bâti et du micro-climat. Les méthodes et expériences établies dans cette étude nous permettent d’envisager le développement du traitement des façades et de la caractérisation de leurs performances globales. / Modified heat and mass transfer in the urban built and anthropogenic loads contribute to the urban heat island phenomenon as to the deterioration of building energy efficiency. The scope of this study is to define the impact implied by the modification of façade radiative properties that can be achieved by using selective cool-coloured coatings initially developed for roofing. Sensible heat transfers and consequences on building comfort are studied through a characteristic morphology from dense urban environment, the street canyon. Monitoring of surface energy budget on elementary discs of different radiative properties allowed us to develop, through optimisation method, a process to determine simultaneously the effective solar absorptivities and a convective heat transfer coefficient on the measurement period. The following step consists in an experimental analysis of cool selective paints in the chosen canyon configuration. A reduced-scale model (1/10th) of an urban scene has been designed with 5 rows of hollow concrete tanks that had temperatures and radiative fluxes monitored. Measured data for uniform coatings allowed highlighting the temperature evolution linked to the particular urban form. Afterwards, three façades radiative properties configurations have been studied simultaneously and allowed the analysis of those specific modifications on air and surface temperature fields. Lastly, in order to estimate energy consumption savings on real scale buildings as well as the impact on the near urban environment, a parametric study on coating of façades and roads has been performed through simulation taking into account interactive heat transfers between the built environment and the microclimate. The experiments and methods designed along the study permit to consider façade coating development and global efficiency characterization.

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