997 resultados para Water heaters
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Nowadays there are several ways of supplying hot water for showers in residential buildings. One of them is the use of electric storage water heaters (boilers). This equipment raises the water temperature in a reservoir (tank) using the heat generated by an electric resistance. The behavior of this equipment in Brazil is still a research object and there is not a standard in the country to regulate its efficiency. In this context, an experimental program was conducted aiming to collect power consumption data to evaluate its performance. The boilers underwent an operation cycle to simulate a usage condition aiming to collect parameters for calculating the efficiency. This 1-day cycle was composed of the following phases: hot water withdrawal, reheating and standby heat loss. The methods allowed the identification of different parameters concerning the boilers work, such as: standby heat loss in 24 h, hot water withdrawal rate, reheating time and energy efficiency. The average energy efficiency obtained was of 75%. The lowest efficiency was of 62% for boiler 2 and the highest was of 85% for boiler 9. (C) 2008 Elsevier B.V. All rights reserved.
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The simulation programs are important tools to analyze the different energetic alternatives, including the use of renewable energy. The objective of this study was to analyze comparatively the different computer tools available for modeling of solar water heaters. Among the main simulation software of solar thermal systems, there are: RETScreen International, EnergyPlus, TRNSYS, SolDesigner, SolarPro, e T*SOL. Among the tools mentioned, only EnergyPlus and RETScreen International are free, but they allow obtaining interesting results when applied together. The first one has a detailed module of energy analysis of solar water heaters, while the second one provides an detailed economic feasibility study and an assessment of emissions of greenhouse gases. RETScreen International and EnergyPlus programs are aimed at a diverse audience, including designers, researchers and energy planners.
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"DOE/CS-0042/2"
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"February 1992."
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Includes index.
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"January 1969."
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In lower right corner of title page: No. 802.
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O objectivo desta Tese/Dissertação é conceber um sistema para a BOSCH Termotecnologia S.A., na qual exerço as funções de Engenheiro de Qualidade de Fornecedores de peças electrónicas, que permita testar funcionalmente dois tipos de PCBA (Printed Circuit Board Assembled) utilizados em dois modelos de esquentador estanque com denominação Celsius e Celsius Plus, produzidos nesta empresa para mercados de todo o Mundo. Os PCBA foram desenvolvidos internamente pelo departamento de ENG (Departamento de Desenvolvimento) e são actualmente peças de compra cujo fornecedor está localizado na China. Em primeiro lugar foi efectuado um estudo das necessidades da empresa relativamente aos projectos necessários para melhorar os processos de investigação de falhas e melhoria de Qualidade dos fornecedores de peças electrónicas, no contexto do departamento onde este projecto se insere. A conclusão chegada foi que existe uma grande necessidade de investigar avarias nas PCBA de compra do fornecedor asiático de forma rápida e precisa, de modo a que seja possível trabalhar mais activamente e rapidamente na melhoria de Qualidade do mesmo, melhorando, por exemplo, os seus processos produtivos. Em segundo lugar concebeu-se a solução a realizar. Optou-se por um conjunto hardware e software desenvolvido de raiz, que inclui um jig (gabarit anti-erro – Poke Yoke) dotado de agulhas para o teste FCT (Functional Circuit Test), um hardware de aquisição de dados analógicos e digitais adquirido para o projecto, um hardware de interface entre o PC (Personal Computer) e o hardware de aquisição de dados, e um software desenvolvido em LabVIEW versão 8.6 (Laboratory Virtual Instruments Engineering Workbench).
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Aquest projecte es basa en l’aprofitament de l’energia solar per a produir ACS en diferents processos industrials d’un escorxador mitjançant una instal·lació solar tèrmica. L’objectiu és cobrir el màxim de necessitats energètiques d’aigua calenta en els processos d’escaldat, rentat de les canals i neteja d’equips i instal·lacions. Com en totes les instal·lacions solars, es fa necessària la presència d’una instal·lació de recolzament, ja que la instal·lació solar no ens satisfà el total de necessitats de producció. En aquest projecte s’ha dut a terme un ampli estudi energètic en el qual s’han estudiat dos tipus de captadors solars: el pla i el de tubs de buit. S’han tingut en compte paràmetres com el rendiment del captador, la inclinació i la superfície captadora per tal d’obtenir un determinat percentatge de cobertura solar
Käyttövesivaraajan ekosuunnitteluvaatimusten merkityksen arvioiminen rakennusten energianhallinnassa
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Työn lähtökohtana ovat veden lämmittimiä koskeva ekosuunnittelulainsäädäntö ja sen vaatiman testausjärjestelmän laatiminen. Työn tavoitteena on arvioida ekosuunnittelulainsäädännön vaikutusta varaajan toimintaan osana rakennusten energianhallintaa. Työssä laaditaan käyttövesivaraajalle tuoteryhmäkohtaisen ekosuunnittelulainsäädännön mukainen mittausjärjestelmä energiatehokkuuden, lämpimän veden saannon, vuosittaisen sähkönkulutuksen sekä energiamerkinnän määrittämiseksi. Lisäksi tarkastellaan ekosuunnittelulainsäädännön tarkoituksenmukaisuutta, selvitetään varaajan toimintaperiaatteet sekä keinoja käyttöveden tarvitseman energian vähentämiseksi. Testattu käyttövesivaraaja täyttää ekosuunnitteluvaatimukset. Lämmitysenergian vähentäminen käyttövesivaraajan toimintaa tehostamalla on kuitenkin vaikeaa. Hybridijärjestelmien hyödyntäminen sähkölämmityksen ohella muita energianlähteitä ja esim. käyttöveden lämmöntalteenottoa käyttäen on toimivin keino vähentää käyttöveden energiankulutusta sekä parantaa varaajan energiatehokkuutta. Lämpimän käyttöveden energiankulutuksen osuus rakennuksen energiankulutuksesta kasvaa lainsäädännön pakottamana rakennusten kokonaisenergiankäytön vähentyessä. Ekosuunnittelulainsäädännön suora merkitys rakennusten energianhallintaan on Suomessa vähäistä nykyisen energiatehokkuustason ollessa suhteellisen korkea, jolloin käyttöveden tarvitseman energian vähentämiskeinoina on hyödynnettävä vaihtoehtoisia ratkaisuja.
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Includes bibliography
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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This report analyses the agriculture, energy, and health sectors in Trinidad and Tobago to assess the potential economic impacts of climate change on the sectors. The fundamental aim of this report is to assist with the development of strategies to deal with the potential impact of climate change on Trinidad and Tobago. It also has the potential to provide essential input for identifying and preparing policies and strategies to help advance the Caribbean subregion closer to solving problems associated with climate change and attaining individual and regional sustainable development goals. Some of the key anticipated impacts of climate change for the Caribbean include elevated air and sea-surface temperatures, sea-level rise, possible changes in extreme events and a reduction in freshwater resources. The economic impact of climate change on the three sectors was estimated for the A2 and B2 IPCC scenarios until 2050. An exploration of various adaptation strategies was also undertaken for each sector using standard evaluation techniques. The study of the impact of climate change on the agriculture sector focused on root crops, green vegetables and fisheries. For these sectors combined, the cumulative loss under the A2 scenario is calculated as approximately B$2.24 and approximately B$1.72 under the B2 scenario by 2050. This is equivalent to 1.37% and 1.05% of the 2008 GDP under the A2 and B2 scenarios, respectively. Given the potential for significant damage to the agriculture sector a large number of potential adaptation measures were considered. Out of these a short-list of 10 potential options were selected by applying 10 evaluation criteria. All of the adaptation strategies showed positive benefits. The analysis indicate that the options with the highest net benefits are: (1) Building on-farm water storage, (2) Mainstreaming climate change issues into agricultural management and (3) Using drip irrigation. Other attractive options include water harvesting. The policy decisions by governments should include these assessments, the omitted intangible benefits, as well as the provision of other social goals such as employment. The analysis of the energy sector has shown that the economic impact of climate change during 2011-2050 is similar under the A2 (US$142.88 million) and B2 (US$134.83 million) scenarios with A2 scenario having a slightly higher cost (0.737% of 2009 GDP) than the B2 scenario (0.695% of 2009 GDP) for the period. On the supply side, analyses indicate that Trinidad and Tobago’s energy sector will be susceptible to the climate change policies of major energy-importing countries (the United States of America and China), and especially to their renewable energy strategies. Implementation of foreign oil substitution policy by the United States of America will result in a decline in Trinidad and Tobago’s Liquefied Natural Gas (LNG) export (equivalent to 2.2% reduction in 2009 GDP) unless an alternative market is secured for the lost United States of America market. China, with its rapid economic growth and the highest population in the world, offers a potential replacement market for Trinidad and Tobago’s LNG export. In this context the A2 scenario will offer the best option for Trinidad and Tobago’s energy sector. The cost-benefit analysis undertaken on selected adaptation strategies reveal that the benefit-cost ratio of replacing electric water heaters with solar water heaters is the most cost-effective. It was also found that the introduction of Compact Fluorescent Light (CFL) and Variable Refrigerant Volume (VRV) air conditioners surpasses the projected cost of increased electricity consumption due to climate change, and provides an economic rationale for the adoption of these adaptation options even in a situation of increased electricity consumption occasioned by climate change. Finally, the conversion of motor fleets to Compressed Natural Gas (CNG) is a cost-effective adaptation option for the transport sector, although it has a high initial cost of implementation and the highest per capita among the four adaptation options evaluated. To investigate the effect of climate change on the health sector dengue fever, leptospirosis, food borne illnesses, and gastroenteritis were examined. The total number of new dengue cases for the period 2008 to 2050 was 204,786 for BAU, 153,725 for A2 and 131,890 for the B2 scenario. With regard to the results for leptospirosis, A2 and B2 seem to be following a similar path with total number of new cases in the A2 scenario being 9,727 and 9,218 cases under the B2 scenario. Although incidence levels in the BAU scenario coincided with those of A2 and B2 prior to 2020, they are somewhat lower post 2020. A similar picture emerges for the scenarios as they relate to food-borne illnesses and to gastroenteritis. Specifically for food-borne illnesses, the BAU scenario recorded 27,537 cases, the A2 recorded 28,568 cases and the B2 recorded 28,679 cases. The focus on the selected sources of morbidity in the health sector has highlighted the fact that the vulnerability of the country’s health sector to climate change does not depend solely on exogenously derived impacts, but also on the behaviour and practices among the population. It is clear that the vulnerability which became evident in the analysis of the impacts on dengue fever, leptospirosis and food-borne illnesses is not restricted solely to climate or other external factors. The most important adaptation strategy being recommended targets lifestyle, behaviour and attitude changes. The population needs to be encouraged to alter their behaviours and practices so as to minimise their exposure to harmful outcomes as it relates to the incidence of these diseases.
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
