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11	Energia embutida na construção de edificações no Brasil: contribuições para o desenvolvimento de políticas públicas a partir de um estudo de caso em Mato Grosso do Sul / EMBODIED ENERGY IN THE CONSTRUCTION OF BUILDINGS IN BRAZIL: CONTRIBUTIONS TO PUBLIC POLICY DEVELOPMENT BASED ON A CASE STUDY IN MATO GROSSO DO SUL. Teodoro, Maria Inês Tavares de Matos 04 December 2017 (has links) O consumo de energia embutida nas edificações acontece ao longo do seu ciclo de vida nas atividades relacionadas com a construção e manutenção. Trata-se de um consumo de cálculo complexo uma vez que o seu valor está contabilizado em outros setores econômicos como o setor industrial de produção de materiais construção e o setor de transportes. A contribuição da energia embutida nas edificações do Brasil chega a 40% do seu ciclo de vida energético. Para além disso as necessidades de infraestrutura no país, em particular no setor residencial, deverão resultar em elevados consumos energéticos para a sua construção, contribuindo para pressionar as necessidades de expansão dos sistemas de oferta de energia. Neste contexto, o objetivo central desta pesquisa é calcular a energia embutida na construção de um condomínio residencial na cidade de Campo Grande no Estado de Mato Grosso do Sul. Para tal foi utilizada um metodologia baseada em Avaliação de Ciclo de Vida Energético (ACVE) tendo sido considerados dois cenários que diferem quanto à eficiência energética na etapa do transporte. Obteve-se um consumo de energia embutida inicial por unidade de área de 4,99 GJ/m2 para o cenário 1 e 5,52 GJ/m2 para o cenário 2, com participações de energia não renovável de 61,2% e 64,2%, respectivamente. No cenário 1 a etapa de fabricação dos materiais respondeu por 96,1% do consumo de energia embutida, o transporte contribuiu com 3,2% e a construção com 0,7%. Já no cenário 2, a participação de cada etapa foi de 86,8%, 12,6% e 0,6% respectivamente. Os resultados do estudo de caso apresentado e o panorama elaborado sobre a energia embutida nas edificações brasileiras realizado nesta tese reforçam a necessidade de incluir a energia embutida como critério de eficiência energética no desenvolvimento de políticas públicas que contribuam para reduzir o consumo de energia no setor de edificações. / The embodied energy in buildings is an energy consumption that happens throughout its life cycle in the activities related to construction and maintenance. Embodied energy calculation is a complex process since its value is accounted for in other economic sectors such as the manufacture of building materials and transportation. The contribution of embodied energy in Brazilian buildings reaches 40% of its energy consumption life cycle. In addition, infrastructure needs in the country, particularly in the residential sector, should result in high energy consumption for its construction, contributing to put pressure on the expansion needs of the energy supply system. In this context, the main objective of this research is to calculate the embodied energy in the construction of a residential condominium in the city of Campo Grande in the State of Mato Grosso do Sul. A methodology based on Life Cycle Energy Assessment (LCEA) was used considering two scenarios that differ in terms of energy efficiency at the transportation stage. Initial Embodied Energy per unit area was 4.99 GJ/m2 for scenario 1 and 5.52 GJ/m2 for scenario 2, with a non-renewable energy share of 61.2% and 64, 2%, respectively. In scenario 1, the material manufacturing stage accounted for 96.1% of the initial embodied energy value, transportation contributed with a share of 3.2% and the construction stage with 0.7%. In scenario 2, the share of each stage was 86.8%, 12.6% and 0.6%, respectively. The results of the presented case study and the elaborated panorama on the embodied energy in Brazilian buildings carried out in this thesis reinforce the need to include embodied energy as a criterion of energy efficiency in the development of public policies that contribute to reduce energy consumption in the building sector. Avaliação de Ciclo de Vida Energético Buildings Edificações Eficiência Energética Embodied Energy Energia Embutida Energia incorporada Energy Efficiency Life Cycle Energy Assessment Políticas Públicas Public Policies
12	Energia embutida na construção de edificações no Brasil: contribuições para o desenvolvimento de políticas públicas a partir de um estudo de caso em Mato Grosso do Sul / EMBODIED ENERGY IN THE CONSTRUCTION OF BUILDINGS IN BRAZIL: CONTRIBUTIONS TO PUBLIC POLICY DEVELOPMENT BASED ON A CASE STUDY IN MATO GROSSO DO SUL. Maria Inês Tavares de Matos Teodoro 04 December 2017 (has links) O consumo de energia embutida nas edificações acontece ao longo do seu ciclo de vida nas atividades relacionadas com a construção e manutenção. Trata-se de um consumo de cálculo complexo uma vez que o seu valor está contabilizado em outros setores econômicos como o setor industrial de produção de materiais construção e o setor de transportes. A contribuição da energia embutida nas edificações do Brasil chega a 40% do seu ciclo de vida energético. Para além disso as necessidades de infraestrutura no país, em particular no setor residencial, deverão resultar em elevados consumos energéticos para a sua construção, contribuindo para pressionar as necessidades de expansão dos sistemas de oferta de energia. Neste contexto, o objetivo central desta pesquisa é calcular a energia embutida na construção de um condomínio residencial na cidade de Campo Grande no Estado de Mato Grosso do Sul. Para tal foi utilizada um metodologia baseada em Avaliação de Ciclo de Vida Energético (ACVE) tendo sido considerados dois cenários que diferem quanto à eficiência energética na etapa do transporte. Obteve-se um consumo de energia embutida inicial por unidade de área de 4,99 GJ/m2 para o cenário 1 e 5,52 GJ/m2 para o cenário 2, com participações de energia não renovável de 61,2% e 64,2%, respectivamente. No cenário 1 a etapa de fabricação dos materiais respondeu por 96,1% do consumo de energia embutida, o transporte contribuiu com 3,2% e a construção com 0,7%. Já no cenário 2, a participação de cada etapa foi de 86,8%, 12,6% e 0,6% respectivamente. Os resultados do estudo de caso apresentado e o panorama elaborado sobre a energia embutida nas edificações brasileiras realizado nesta tese reforçam a necessidade de incluir a energia embutida como critério de eficiência energética no desenvolvimento de políticas públicas que contribuam para reduzir o consumo de energia no setor de edificações. / The embodied energy in buildings is an energy consumption that happens throughout its life cycle in the activities related to construction and maintenance. Embodied energy calculation is a complex process since its value is accounted for in other economic sectors such as the manufacture of building materials and transportation. The contribution of embodied energy in Brazilian buildings reaches 40% of its energy consumption life cycle. In addition, infrastructure needs in the country, particularly in the residential sector, should result in high energy consumption for its construction, contributing to put pressure on the expansion needs of the energy supply system. In this context, the main objective of this research is to calculate the embodied energy in the construction of a residential condominium in the city of Campo Grande in the State of Mato Grosso do Sul. A methodology based on Life Cycle Energy Assessment (LCEA) was used considering two scenarios that differ in terms of energy efficiency at the transportation stage. Initial Embodied Energy per unit area was 4.99 GJ/m2 for scenario 1 and 5.52 GJ/m2 for scenario 2, with a non-renewable energy share of 61.2% and 64, 2%, respectively. In scenario 1, the material manufacturing stage accounted for 96.1% of the initial embodied energy value, transportation contributed with a share of 3.2% and the construction stage with 0.7%. In scenario 2, the share of each stage was 86.8%, 12.6% and 0.6%, respectively. The results of the presented case study and the elaborated panorama on the embodied energy in Brazilian buildings carried out in this thesis reinforce the need to include embodied energy as a criterion of energy efficiency in the development of public policies that contribute to reduce energy consumption in the building sector. Avaliação de Ciclo de Vida Energético Edificações Eficiência Energética Energia Embutida Energia incorporada Políticas Públicas Buildings Embodied Energy Energy Efficiency Life Cycle Energy Assessment Public Policies
13	Rural Electrification and Societal Impacts on Future Energy Demand in Bolivia: A Case Study in an Altiplano Community Ålund, Anton January 2017 (has links) Social variables are a predominant force to community development in rural areas. However, research on how social aspects affect the energy situation as a community expands is to date limited. This study aims explore this void and investigate the following question: “What could be a feasible pathway to reach a sustainable and resilient future state in Micaya, based on the impact of key variables within three different sectors: education, health and production?” In this study, theories and models of rural electrification and scenario analysis are transposed and applied to community operated rural electrification in order to frame development. The investigation is restricted to focus on three social sectors, healthcare, education and production. Current literature confirmed that social aspects are missing in rural electrification programs. Through interview and discussion with an established expert group important social variables have been identified in the study community. These variables lay the foundation for the scenario building used to define a desirable future in the case study community. It was found that the variables within the production sector are most influential to future developments in the study community. The study revealed that energy access, especially access to electricity, is an essential condition for the development of rural communities. However, it does not guarantee an increase in productivity or effectiveness in social institutions in the absence of other development programs. The study also concludes that well-planned, carefully implemented rural electrification programs provide enormous benefits to rural people. Once an area has reached a certain level of development, further improvement of societal institutions depends on the availability of a secure and stable energy supply. Sustainable Development Rural electrification Energy assessment Decentralized energy solutions Scenario analysis Minor Field Study Annan geovetenskap och miljövetenskap
14	Energetické hodnocení občanských staveb / Energy assessment of civil buildings Slovenčíková, Iveta January 2015 (has links) The aim of the thesis is the energy rating of buildings. The introduction included the issues of the topic, including normative and legislative regulations, process energy performance certificates along with energy audits for residential building. The object is evaluated in terms of energy, economic and environmental. Within the energy audit was designed and evaluated austerity measures.
15	Energetické hodnocení budovy s využitím metodiky Breeam / Energy rating of the building using the methodology Breeam Jurča, Jaromír January 2017 (has links) The subject of diploma thesis is energy assessment of the building according to BREEAM methodology. First chapter overviews certification systems. The main part of the thesis consists of energy assessment of the building with application of BREEAM requirements. Specifically, building, its systems and interior environment analysis has been carried out, determination of heat transfer coefficients and production of energy performance certificate. Energy assessment of the building is carried out in accordance to BREEAM criteria. Third part contains analysis and evaluation of thermal comfort.
16	Energeticky úsporná budova pro vzdělávání v Hradci Králové / Low-energy building for education in Hradec Králové Mužík, Martin January 2022 (has links) The aim of the master project is to design nearly zero-energy university building in Hradec Králové. The thesis consists of three parts, architectural-construction part, building services and energy assessment report to a photovoltaic power plant. The building has two above-ground floors and a basement under part of the building. In the basement there is utility room and storage. On the first floor there is entrance hall, sanitary facilities and locker room. On the second floor there are two lecture halls and office rooms. The vertical load-bearing structures are designed as a reinforced concrete frame system. Horizontal load-bearing structures are designed as prestressed panels. The building is insulated with expanded mineral wool. There are solar panels situated on the flat roof over the second floor. The building is heated by heat exchange station and the whole building is ventilated by two air conditioning units. The main part in my master project is energy assessment report to a photovoltaic power plant. The project is carried out in ArchiCAD and HelioScope software.
17	Nízkoenergetický polyfunkční dům / Low-energy multifunctional building Maršoun, Jiří Unknown Date (has links) The master thesis designs a low-energy mixed-use building in Dolní Kralovice. The thesis consists of three parts, architectural-construction part, environment technology of building and energy assessment report to a photovoltaic power plant. The building has two above-ground floors and a basement under part of the building. The basement includes sanitary facilities and utility room, ground floor includes a restaurant and small sports hall and first floor offices. The building is founded on reinforced concrete foundation slab and foundation pads. The vertical load-bearing structures are designed as a frame system with shear core. Horizontal load-bearing structures are designed as cast-in-place reinforced slabs. External wall is designed from aerated concrete blocks with and mineral wool insulation. The building has a flat roof. In the building is air condition and cooling system and heating is with geothermal heat pumps with a borehole collector. Part of electricity demand is covered by photovoltaics on the roof. The thesis was developed in Revit software.
18	On the ECO2 multifunctional design paradigm and tools for acoustic tailoring Parra Martinez, Juan Pablo January 2015 (has links) Nowadays vehicle design paradigm influences not only the effectiveness of the different means of transport, but also the environment and economy in a critical way. The assessment of the consequences that design choices have on society at large are necessary to understand the limits of the methods and techniques currently employed. One of the mechanisms set in motion is the planned obsolescence of products and services. This has affected vehicle design paradigm in such a way that the variety in the market has shadowed the primary function of vehicle systems: the transport of persons and goods. Amongst the consequences of the expansion of such market is the exponential rise on combustion emissions to the atmosphere, which has become a great hindrance for humans health and survival of ecosystems. The development of evaluation tools for such consequences and their piloting mechanisms is needed so as to implement an ECO2 (Ecological and Economical) vehicle design paradigm. Moreover, the multifunctional design paradigm that drives aeronautical and vehicle engineering is an ever-growing demand of smart materials and structures, able to fulfil multiple requirements in an effective way. The understanding of certain phenomena intrinsic to the introduction of novel materials has found certain limits due to the complexity of the models needed. This work presents as a first step an assessment of the causes and consequences of the vehicle exponential market growth based on the analysis of the planned obsolescence within. Furthermore, a method for the acoustic response analysis of multilayered structures including anisotropic poroelastic materials is introduced. The methodology consists in a plane wave approach as a base for introducing the complex mechanic and acoustic equations governing anisotropic homogeneous media, e.g. open-celled foams, into an alternative mathematical tool manipulating physical wave amplitudes propagation within the studied media. In addition, this method is coupled to a power partitioning and energetic assessment tool so as to understand the phenomena present in complex multilayered designs. / <p>QC 20150323</p> vehicle design planned obsolescence anisotropy porous materials sound absorbing materials acoustic modelling power balance energy assessment dissipated power. Vehicle Engineering Farkostteknik
19	L'intégration des données énergétiques dans la conception architecturale située / Morpho-energetic investigations to assess buildings and city areas energy performance Arantes, Laëtitia 23 January 2013 (has links) Ce travail est une réflexion prospective sur la densification verticale de la ville par la tour d'habitation. Trois échelles sont considérées : le bâtiment seul (objet), la composition de sa façade et son insertion urbaine (bâtiment situé). Le parti pris est de n'examiner que le seul critère énergétique. Sont réalisées trois séries d'études « morpho-énergétiques » : 1 - une étude sur l'influence énergétique de la morphologie d'un bâtiment « objet » : l'objectif est de développer un outil d'évaluation simplifiée de la performance énergétique totale des bâtiments résidentiels. 2 - une extension du précédent modèle en insérant le bâtiment dans un morceau de ville : l'objectif est d'identifier l'influence des configurations urbaines sur leur performances énergétiques, à l'aide d'un outil d'optimisation par algorithmes génétiques. 3 - l'étude d'une nouvelle démarche de conception et de rénovation des bâtiments à travers le concept Core-Skin-Shell : l'objectif est d'évaluer l'intérêt énergétique d'une décomposition fonctionnelle du bâtiment. / This thesis analyses the energy performance of dense cities and residential towers. It focuses on the energy performance of the built environment at three different scales – the building, the façade and the city area. The details of the three “morpho-energetic” studies are as follows : 1 - the first one analyses the link between buildings' dimensions and their energy performance: it focuses on a simple calculation method to quickly approximate the whole energy balance of residential buildings. 2 - the second study analyses the morphology of energy and density reasoned city areas: the ultimate goal is to develop a tool helping to find the optimal form(s) of a low energy and dense city area. It is based on a genetic algorithm tool. 3 - the last one analyses the energy impact of a new design methodology for construction and refurbishment: the Core-Skin-Shell concept. Bâtiments résidentiels Bâtiment « objet » Morceau de ville Core - Skin - Shell Densité raisonnée Conception architecturale Outil d’évaluation simplifiée Façade Residential buildings Building scale City area scale Façade Core-Skin-Shell Density reasoned area Energy reasoned area Simplified energy assessment tool
20	Energetické hodnocení administrativní budovy / Energy evaluation of an administrative building Stadtherr, Jan January 2018 (has links) This master’s thesis deals with the energy assessment of an administrative building. The theoretical part is devoted to legislation for energy assessment – law, regulations and technical standards. The application of this legislation is provided in the calculation part as energy audit and energy performance certificate of the administrative building. The last part of this thesis is dedicated to application of computational softwares for analysing results of heat consumption in comparison with reality.

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