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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

Análise de oportunidades de poligeração em edificações e cidades / Analysis of polygeneration opportunities in buildings and cities / Análisis de oportunidades de poligeneración en edificios y ciudades

Vargas, Adriana Lopez [UNESP] 24 February 2016 (has links)
Submitted by ADRIANA LOPEZ VARGAS (adrialovargas@gmail.com) on 2016-04-14T14:20:54Z No. of bitstreams: 1 Analise de oportunidades de poligeração para edificações e cidades - Adriana Lopez Vargas.pdf: 3896010 bytes, checksum: 3c34d108a2a908648717c9ac5860cd3d (MD5) / Approved for entry into archive by Felipe Augusto Arakaki (arakaki@reitoria.unesp.br) on 2016-04-18T16:55:10Z (GMT) No. of bitstreams: 1 vargas_al_me_guara.pdf: 3896010 bytes, checksum: 3c34d108a2a908648717c9ac5860cd3d (MD5) / Made available in DSpace on 2016-04-18T16:55:10Z (GMT). No. of bitstreams: 1 vargas_al_me_guara.pdf: 3896010 bytes, checksum: 3c34d108a2a908648717c9ac5860cd3d (MD5) Previous issue date: 2016-02-24 / Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) / A geração de energia distribuída em edificações e cidades tem sido proposta como uma importante alternativa para que os países ampliem a base tecnológica de suas matrizes energéticas. No caso do Brasil, a possibilidade da incorporação da geração distribuída em edificações apresenta amparo legal por meio de recentes regulamentações do setor elétrico e das normas de melhoria da eficiência energética de edificações. Por estas razões, novos empreendimentos imobiliários com visão de sustentabilidade ambiental, estão avaliando o uso da geração distribuída na etapa de planejamento. Nesta dissertação, foi analisada uma proposta para atender as necessidades energéticas de um hospital (vapor, água quente, resfriamento e eletricidade) considerando as informações de demanda, classificadas em oito dias típicos do ano, dois por cada estação do ano (outono, inverno, primavera e verão) sendo um dia de trabalho normal e outro de final de semana. A proposta consiste na otimização de uma superestrutura composta de diferentes tecnologias de geração e cogeração incluindo equipamentos solares, para assim obter a melhor configuração em termos econômicos. A superestrutura é flexível, ou seja, permite a venda ou compra de eletricidade e analisa três casos, verificando-se a viabilidade de gerar mais eletricidade. Finalmente são apresentados os resultados da configuração final obtida pela otimização. / Distributed generation in buildings and cities has been proposed as an important option for countries in order to include more technologies in their energy mixes. In Brazil, the possibility of including distributed generation in buildings has recent advances in energy policy and building energy efficiency standards. For these reasons, new construction projects of sustainable buildings include the assessment of distributed generation in the initial stages. In this work, we present an approach for attending energy needs (steam, hot water, cooling and electricity) of a hospital. The information about demand is classified in eight typical days, two for each season of the year (autumn, winter, spring and summer); a workday and a weekend day. The approach consists in the optimization of a superstructure containing different energy generation and cogeneration technologies like solar panels, for obtaining the best configuration in economic terms. The superstructure is flexible, this is, it allows buying or selling electricity. It also analyzes three cases, verifying the feasibility for generating more electricity. Finally, the results present the final configuration obtained from the optimization process.
2

Combined Energy Systems Applied to Productive Sectors: The Case of Dairy Farms in Central Bolivia / Sistemas Combinados de Energía Aplicados a Sectores Productivos: El Caso de las Granjas Lecheras en Bolivia Central

Villarroel-Schneider, Johnny January 2019 (has links)
Most energy solutions in developing countries focus primarily on solving domestic energy demands of their growing populations without due consideration of sustainable development. On the other hand, in most of these countries, a segment of energy users that has not received enough attention from governments and institutions regarding appropriate energy solutions is the productive sector. This sector is mainly composed by small and medium-sized industries and ventures that greatly contribute to the countries’ economy, as in the case of Bolivia. However, the low investment capacity, the lack of knowledge, training and insufficient support from local and national governments do not allow these solutions to arrive as expected. Although many of these sectors have the potential to apply energy solutions utilizing alternative energy sources, as the waste generated by the activity, this work has not materialized. This is the case of the dairy farmers in central Bolivia, who do not have an adequate management of farm waste. This problem contributes negatively to the contamination of the local and global environment.  This study explores solutions of combined energy systems applied to the dairy sector of Bolivia. The two cases under investigation consider the utilization of waste from farms to produce biogas, which drives the proposed systems. The first solution focuses on a polygeneration system featuring either an internal combustion engine or internally fired microturbine for the simultaneous provision of biogas for cooking, electricity, refrigeration, and fertilizer. The second system involves trigeneration i.e. absorption chiller integrated to an externally fired microturbine for supplying electricity, refrigeration and hot water. Analysis methods include determination of levelized cost of services, payback period, primary energy rates and energy saving rates.  The techno-economic assessment for the polygeneration system shows that the costs of the supplied services are still attractive when compared to subsidized prices of fossil fuel-based services in the market if the investment capital of this system is partially subsidized. The biogas cost from the system is lower than the cost of conventional gas used for cooking. The use of the internal combustion engine results in a lower electricity cost than using the microturbine. The refrigeration cost is slightly higher than conventional refrigeration for both cases. A sensitivity analysis shows that the cost for feedstock (cow dung) can be increased while maintaining an attractive price of biogas, and that subsidies on investment capital cause a reduction in the services costs. In the case of energy performance evaluation of the trigeneration system it was found to be more efficient in terms of energy utilization than conventional fossil fuel-based solutions, and this leads to energy savings.  Finally, it is shown that combined energy systems applied to the Bolivian dairy sector are competitive in terms of their economic feasibility and energy performance. / De flesta energilösningar i utvecklingsländer fokuserar på att lösa inhemska energibehov för sina växande populationer utan att ta hänsyn till hållbar utveckling. Å andra sidan är ett segment av energianvändare den produktiva sektorn, som inte fått tillräckligt med uppmärksamhet från regeringar och institutioner när det gäller lämpliga energilösningar. Denna sektor består huvudsakligen av små och medelstora industrier och företag som i hög grad bidrar till ländernas ekonomi, vilket är fallet med Bolivia. Låg investeringskapacitet, brist på kunskap, utbildning och otillräckligt stöd från lokala och nationella regeringar tillåter dock inte att dessa lösningar kommer fram som förväntat. Även om många av dessa sektorer har potential att tillämpa energilösningar som använder alternativa energikällor, som det avfall som genereras av verksamheten, har detta inte exploaterats i nämnvärd grad. Detta gäller bland annat mjölkbönderna i centrala Bolivia, som inte har en adekvat hantering av jordbruksavfal, vilket bidrar negativt till föroreningar av den lokala och globala miljön. Denna studie undersöker lösningar med kombinerade energisystem för mjölkhantering i Bolivia. De två fall som undersöks gäller användningen av avfall från gårdar för att producera biogas, som driver de föreslagna systemen. Den första lösningen fokuserar på ett polygenerationssystem som innehåller antingen en förbränningsmotor eller mikroturbin med klassisk intern förbränning. Systemet möjliggör samtidig försörjning av biogas för matlagning och elgenerering, bl.a. för kylning samt ger gödningsmedel som restprodukt. Det andra systemet innefattar tri-gereration, dvs en absorptionskylare integrerad med en externt driven mikroturbin för att leverera el, kylning och varmt vatten. Analysmetoder innefattar bestämning av driftkostnader för de olika energitjänsterna, återbetalningsperiod, förbrukad primärenergi och relativ energibesparing. En teknisk-ekonomisk analys av polygenerationssystemet visar att kostnaderna för de tillhandahållna tjänsterna är attraktiva i förhållande till de subventionerade priserna på tjänster på marknaden om subventioner tillämpas på investeringskapitalet. Kostnaden för biogas från systemet är lägre än kostnaden för konventionell gas som används för matlagning. Användning av en förbränningsmotor resulterar i en lägre elkostnad än att använda en mikroturbin. Kylkostnaden är något högre än med konventionell kylning för båda fallen. En känslighetsanalys visar att kostnaden för råvaror (kogödsel) kan tillåtas öka, samtidigt som ett attraktivt biogaspris bibehålls, och att subventioner på investeringskapital leder till en minskning av kostnaderna för energitjänsterna. När det gäller utvärdering av energiprestanda för tri-gererationssystemet visade sig det vara mer effektivt när det gäller energianvändning än konventionella lösningar baserade på fossila bränslen, vilket leder till energibesparingar. Slutligen visas att kombinerade energisystem som tillämpas på mjölkhanteringssektorn är konkurrenskraftiga när det gäller den ekonomiska genomförbarheten och energiprestanda.

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