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31	Energetická náročnost přípravy teplé vody / Energy Performance of Domestic Hot Water Preparation Helánová, Blanka January 2013 (has links) Master’s thesis on Energy performance of domestic hot water preparation is concerned with calculating and comparing the energy performance of domestic hot water preparation in two-generation family house with an administrative part. Energy performance of domestic hot water preparation is calculated by two calculation methods and by experimental measurements, which are compared at the end of the thesis. The calculation is performed according to standard ČSN 06 0320 and set of standards ČSN EN 15316-3. Thesis is processed in accordance with valid legislative regulations.
32	Avaliação da disponibilidade de boro em um latossolo de Mato Grosso/MT Bíscaro, Thaís [UNESP] 06 September 2005 (has links) (PDF) Made available in DSpace on 2014-06-11T19:22:16Z (GMT). No. of bitstreams: 0 Previous issue date: 2005-09-06Bitstream added on 2014-06-13T18:07:57Z : No. of bitstreams: 1 biscaro_t_me_botfca.pdf: 707769 bytes, checksum: a5322c5ecf4e0883a2d95b9be40fdd31 (MD5) / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / Em algumas condições não se têm obtido correlações entre os teores de B do solo, extraído com água quente, o teor de boro na planta e a produtividade da soja no Estado do Mato Grosso, mais precisamente na região de Campo Novo do Parecis. Sabe-se que o boro é um nutriente fortemente adsorvido nas partículas minerais do solo. Objetivou-se com este trabalho submeter amostras de solo de uma determinada área de estudo, na qual foi cultivada soja por três anos consecutivos e posteriormente cultivado algodão, a diferentes métodos de extração de boro, a fim de se estabelecer correlações entre a dose de boro na planta, a dose de nutriente aplicada e o teor de boro no solo disponível às plantas e, ainda, com a produtividade da soja. Amostras de solo, cultivadas com soja, coletadas por ocasião da condução do experimento no campo, foram analisadas quanto à concentração de B extraída pelos métodos: água quente modificado com solução de BaCl2 1,25 g L-1 (recomendado e chamado de método da água quente pelo IAC); água quente modificado com solução de CaCl2 0,01 mol L-1,a quente e água quente tradicional (o qual é preconizado por muitos autores como o método oficial) para dessa forma, tentar quantificar a real disponibilidade de boro neste solo, caracterizado como um LATOSSOLO VERMELHO AMARELO (LVA), possibilitando a determinação de um nível crítico. Ainda, durante o período de condução do trabalho, foi feito um estudo de adsorção de B nas amostras, e um estudo do comportamento da lixiviação do nutriente em colunas de solo, procurando verificar o efeito das adubações na dinâmica do nutriente. Em relação aos métodos de extração de boro no solo, o CaCl2 foi o que apresentou correlação positiva e significativa com o boro presente no tecido vegetal nos três anos agrícolas. Os métodos do BaCl2 e... / In some conditions, doesn't have obtained correlations among boron content in soil, boron extracted by hot water, boron content in plants and soybean productivity in a region (Campo Novo do Parecis) of the state of Mato Grosso/Brazil. This work was carried out to submit soil samples from determined area of study where was tillage soybean for three subsequent years and after tillage cotton, to differents extraction methods by boron with the aim to establish correlations among, amount of boron content in plants, amount of nutrient putted in soil, boron content in soil disponible to plants and the productivity. Soil samples obtained during the conduction of experiment on field were analyzed to predict the amount of boron in soil by the methods: hot water modified with BaCl2 solution (recommended and called by hot water from IAC - Instituto Agronômico de Campinas/SP-Brazil), hot water modified CaCl2 0,01 mol L-1 solution and hot water traditional (which is preconized by many authors like the official method) to this way try to quantify the real situation of boron disponibility in this soil, characterized like a Yellow Red Latossol, to take the determination of a critical level. During the conduction period of this work was made an adsorption study in the samples, and still a study of boron leaching behavior in soil columns, to verify fertilizer effect in nutrient dynamic. The extraction method with CaCl2 presented positive and significative correlation with boron present in soybean leaves on three subsequent farm work years. BaCl2 method and hot water traditional also presented positives and significatives correlations each one in two farm work years, this results were expected in function of similarity among three methods, it's an evidence that there is a method with capacity to predict boron disponibility in soils of Mato Grosso... (Complete abstract, click eletronic address below) Solos - Teor de boro Adsorção Lixiviação Extração (Quimica) Latossolos - Mato Grosso do Sul Boron Hot water extraction in microwave Hot extraction CaCl2 Traditional hot water Boron adsorption Boron leaching
33	Teplovodní krbová vložka / Hot-water Fireplace Kárl, Jiří January 2013 (has links) Diploma thesis has three main parts. The first one deals with division of fireplace inserts, their description, way of connection, regulation and protection againts overheating. The second part is about calculations and engineering desing of the prototype hot-water fireplace „Kárlovka“. The last part of diploma thesis verifies the parameters of the desingned fireplace insert by experimental test in two different measurement setup, where there are compared to results obtained with the results of calculation.
34	Optimalizace kombinovaného systému ohřevu TUV / Optimalization of the water heating system Lebeda, Ladislav January 2016 (has links) This thesis is aimed to enable energy optimization of combined water heating system. The first part deals with the assessment of the general view of thermal solar systems with autonomic power from photovoltaics and description of a particular solar system for energy optimization. Then there is chosen the control system conception based on single-board computer Raspberry Pi, which is complemented by auxiliary measuring and controlling circuit. In the following chapters is described design and implementation of software for control system including web interface. The remote monitoring and controlling of solar heating system is the main purpose of web interface.
35	Economic and Environmental Analysis of PV Electricity Storage in Sweden Bayo, Oihane January 2016 (has links) Renewable energies, and among them solar photovoltaics, are becoming more important in the last years due to the lack of fossil fuels and the environmental impact of them. PV installed capacity is increasing over and over in some countries and the prices of the installation are decreasing while the prices of the electricity are predicted to increase. Electricity use in buildings account for an important part of all electricity use in the world. This two facts make the PV installation in the rooftops of buildings a good opportunity to reduce the purchase of electricity from the grid. The aim of the thesis is to analyze the profitability and the environmental impact (when using a hot water accumulator) of a PV system with different storage systems placed in the rooftop of two dwellings located in Gävle (Sweden). The storage systems can be either batteries or hot water accumulators. The purpose of the storage system is to increase the self-consumption rate of the PV system and to save the highest amount of money possible. It is also studied the difference of installing PbA and Li-ion batteries, and the reliability of the data used in the simulation of the alternative systems with the help of the software PVsyst. Results show that the profitability of the proposed three alternative PV systems with storage is not higher than the PV system without storage. The reason for this has been found in the low prices of electricity and DH nowadays. Moreover, the impact of decreasing the heating demand from DH network does not benefit the environment, because the electricity has to be produced in power plants that produce more pollutants. It can be said also that the data obtained in PVsyst has been determined reliable and that the difference between the two types of batteries is not conclusive. It can be concluded that if the cost of the PV systems or the batteries would decrease, the profitability will be higher. Furthermore, the increase in the price of electricity, DH or governmental subsidies would improve the results. PV system battery storage hot water accumulator economic analysis environmental impact
36	Integrated heat exchanger for shower cabins : Legal issues, cost efficiency, designing a prototype Pekkala, Ossian January 2016 (has links) The global energy usage have been growing and is expected to grow in the forthcoming years. The negative effects of increased energy use are greatly depending on the type of base raw materials required for converting the energy and the negative consequences those have on the environment. From the energy used, fossil fuels stands for the largest part. Excess use of fossil fuels have been shown to have considerable negative effects on the environment, including, but not limited to global warming. Renewable energy is today the world’s fastest growing energy source limiting the negative consequences of growing energy use. The commercial and residential buildings stands together for about 40 % of the total energy usage. Residential buildings alone stands for 20 % of the total world delivered energy consumption by end-use sector. In EU the average residential energy use amounts to 25 % and for individual countries like Sweden and Finland it is 21 %. The EU energy efficiency directive from year 2012 sets a target to save 20 % of the unions primary energy usage by year 2020 compared to the year 1990. The EU countries also agreed in October 2014 on a new energy efficiency target of at least 27 % by the year 2030. To reach this goal, improved energy efficiency are required in all sectors. Finland’s energy efficiency law for buildings from 2013 greatly reduces the minimum energy usage allowed for new buildings. Finland is also preparing for a new law that would by 2020 require all new buildings to be zero or close to zero energy buildings. This is defined by the Ministry of the Environment as buildings that have very high energy efficiency, where the already greatly reduced energy demand is satisfied extensively by renewable energy. As part of the goal to greatly increase buildings energy efficiency, this work focus on heat exchangers for showers. The purpose of this project is to investigate how two different heat exchangers works for shower cabins. This is done by testing a system where the heat exchangers are linked together. The system works by transferring heat from the drainage water and the moist air to the incoming colder drinking water before the cold water is heated in the mixerto desired shower temperature. The measurements are taken for different simulated shower situations. The Heat exchangers efficiency are calculated and the energy savings are examined with annual energy savings. The payback time shows that the system is not currently viable. The efficiency need to be improved, the main issue being the constituent materials heat transfer attributes between cold and hot water. The results are discussed and it is concluded that the system would be viable with improved heat exchanger efficiency and adequate shower use, which depends on the user and the amount of people using the shower. The main issue with increased heat transfer efficiency is the greater risk of contamination between the incoming cold drinking water and the outgoing dirty drainage water. Shower heat exchanger hot water distribution shower cabins housing energy efficiency Geberit Group
37	Evaluating building energy performance : a lifecycle risk management methodology Doylend, Nicholas January 2015 (has links) There is widespread acceptance of the need to reduce energy consumption within the built environment. Despite this, there are often large discrepancies between the energy performance aspiration and operational reality of modern buildings. The application of existing mitigation measures appears to be piecemeal and lacks a whole-system approach to the problem. This Engineering Doctorate aims to identify common reasons for performance discrepancies and develop a methodology for risk mitigation. Existing literature was reviewed in detail to identify individual factors contributing to the risk of a building failing to meet performance aspirations. Risk factors thus identified were assembled into a taxonomy that forms the basis of a methodology for identifying and evaluating performance risk. A detailed case study was used to investigate performance at whole-building and sub-system levels. A probabilistic approach to estimating system energy consumption was also developed to provide a simple and workable improvement to industry best practice. Analysis of monitoring data revealed that, even after accounting for the absence of unregulated loads in the design estimates, annual operational energy consumption was over twice the design figure. A significant part of this discrepancy was due to the space heating sub-system, which used more than four times its estimated energy consumption, and the domestic hot water sub-system, which used more than twice. These discrepancies were the result of whole-system lifecycle risk factors ranging from design decisions and construction project management to occupant behaviour and staff training. Application of the probabilistic technique to the estimate of domestic hot water consumption revealed that the discrepancies observed could be predicted given the uncertainties in the design assumptions. The risk taxonomy was used to identify factors present in the results of the qualitative case study evaluation. This work has built on practical building evaluation techniques to develop a new way of evaluating both the uncertainty in energy performance estimates and the presence of lifecycle performance risks. These techniques form a risk management methodology that can be applied usefully throughout the project lifecycle. 696
38	Produção e avaliação da qualidade de painéis aglomerados constituídos por partículas de bagaço de cana-de-açúcar e bambu / Production and quality evaluation of particleboards produced with particles of sugarcane bagasse and bamboo Brito, Flavia Maria Silva 19 January 2018 (has links) O presente estudo teve por objetivo avaliar a qualidade de painéis de partículas de média densidade (MDP), manufaturados a partir de bagaço de cana-de-açúcar e bambu (Dendrocalamus asper). A massa específica nominal foi 0,65 g.cm-3 e utilizou-se adesivo à base de uréia-formaldeído. O delineamento consistiu em 16 tratamentos, divididos em quatro Experimentos. Foram avaliadas as propriedades físicas (Massa Específica Aparente - MEA, Absorção de Água - AA, Inchamento em Espessura - IE e Taxa de Não-Retorno em Espessura - TNRE), mecânicas (Flexão Estática - MoR e MoE, Arrancamento de Parafuso de Superficie e Topo - APS e APT e Ligação Interna - LI, além do Perfil de Densidade, Molhabilidade e Resistência Natural. Os objetivos foram: I - Avaliar painéis de partículas de bagaço de cana com duas granulometrias (0,50 mm e 0,85 mm), tratadas e não tratadas em água quente; II - Avaliar os painéis adotando as mesmas variáveis do experimento anterior, porém, empregando partículas de bambu; III - Avaliar os painéis gerados a partir da mistura de ambos materiais nas proporções de 100%, 75%, 50%, 25% e 0%; IV - Avaliar os painéis constituídos com partículas termorretificadas de bagaço e bambu encoladas com três teores de adesivo (10, 12 e 14%). Os resultados do Experimento I mostraram que propriedades físicas (IE2h, IE24h, AA24h e TNRE), mecânicas (MoR, MoE, APS, APT e LI) e molhabilidade não foram influenciadas pelos fatores (granulometria e condição de partículas). Os fatores influenciaram de forma interativa o perfil de densidade de massa específica aparente da camada externa. A resistência natural foi influenciada pelos fatores e os painéis foram inclusos na categoria \"resistência moderada\". Os resultados do Experimento II mostraram que as partículas tratadas em água quente resultaram em aumento significativo dos valores de IE2h, IE24h e TNRE. O APS, APT e LI apresentaram melhorias significativas para os painéis manufaturados com partículas tratadas em água quente. Os fatores avaliados influenciaram a massa específica aparente da camada externa dos painéis. Houve interação significativa entre os fatores para o ângulo inicial obtido com água. O fungo G. trabeum causou maiores perdas de massa nos painéis constituídos com partículas tratadas em água quente e o T. versicolor evidenciou maior índice de ataque em chapas confeccionadas com partículas controle. No Experimento III o aumento da razão de compactação apresentou tendência significativa de aumento de valores da AA24h, IE2h, IE24h e TNRE, além do MoR. Tal variável reduziu a AA2h, APT e LI, proporcionou picos mais acentuados de massa específica nas faces dos painéis, reduziu significativamente a molhabilidade e aumentou a perda de massa dos painéis submetidos aos fungos P. placenta e G. trabeum. No Experimento IV o tratamento térmico promoveu melhorias significativas para AA2h, AA24h, IE2h e IE24h, porém reduziu o MoR, MoE, APS, APT e LI, que foram melhoradas com o aumento no teor de adesivo, além do perfil de densidade. Não houve influência significativa na molhabilidade, comparando os painéis com mesmo teor de adesivo e nem considerando diferentes teores de adesivo. De forma geral, os painéis apresentaram melhorias significativas na resistência biológica com a termorretificação e aumento no teor de adesivo. Bagaço de cana-de-açúcar e bambu representam boas alternativas de matérias-primas para confecção de chapas aglomeradas. Os painéis podem ser utilizados para forros, isolamento térmico e acústico, revestimentos, painéis decorativos, componentes para construção civil, substrato para piso, embalagens, pequenos objetos entre outras aplicações. / The aiming of this study was to evaluate the quality of medium density particleboard (MDP) manufactured with particles of sugarcane bagasse and bamboo with nominal density of 0.65 g.cm-3 and urea-formaldehyde adhesive. The experimental design was composed of 16 treatments divided in four experiments. The physical properties (apparent density, water absorption, thickness swelling and the nonrecoverable tax, mechanical (static bending - modulus of elasticity and modulus of rupture, screw withdrawal strength and internal bonding) were evaluated, as well as the density profile, wettability and natural resistance. The objectives were: I - To evaluate panels of sugarcane bagasse particles with two granulometries (0.50 mm and 0.85 mm) treated and not treated in hot water; II - To evaluate the panels using the same variables of the previous experiment, however using bamboo particles; III - Evaluate the panels origin from the mixture of both materials in proportions of 100%, 75%, 50%, 25% and 0%; IV - Evaluate the panels constituted with heat treatment particles of bamboo and bagasse and glued with three adhesive contents (10, 12 and 14%). The results of the Experiment I showed that physical (IE2h, IE24h, AA24h and TNRE) and mechanical properties (MoR, MoE, APS, APT and LI) and wettability were not influenced by the factors (grain size and particle condition). The factors influenced the apparent specific bulk density profile of the outer layer. Natural resistance was influenced by the factors and the panels were included in the \"moderate resistance\" category. The results of Experiment II showed that the particles treated in hot water resulted in a significant increase in the values of IE2h, IE24h and TNRE. APS, APT and LI showed significant improvements for panels manufactured with hot water treated particles. The evaluated factors influenced the apparent specific mass of the outer layer of the panels. There was a significant interaction between the factors for the initial angle obtained with water. The G. trabeum fungus caused greater mass losses in the panels constituted with particles treated in hot water and T. versicolor evidenced a higher attack rate in plates made with control particles. In Experiment III the increase in compaction ratio showed a significant tendency to increase values of AA24h, IE2h, IE24h and TNRE, in addition to MoR. This variable reduced AA2h, APT and LI, provided more pronounced peaks of specific mass in the faces of the panels, significantly reduced wettability and increased the mass loss of the panels submitted to P. placenta and G. trabeum fungi. In Experiment IV the heat treatment promoted significant improvements for AA2h, AA24h, IE2h and IE24h, but reduced MoR, MoE, APS, APT and LI, which were improved with the increase of the adhesive content, as well as the density profile. There was no significant influence on wettability, comparing the panels with the same adhesive content and different adhesive contents. In general, the panels showed significant improvements in the biological resistance with thermortification and increase in the adhesive content. Sugarcane bagasse and bamboo represent good alternatives of raw materials for confection of agglomerated sheets. The panels can be used for linings, thermal and acoustic insulation, coatings, decorative panels, components for civil construction, substrate for flooring, packaging small objects among other applications. Água quente Durabilidade natural Granulometria Granulometry Heat treatment Hot water Molhabilidade Natural resistance Tratamento térmico Wettability
39	Chronic passive heat therapy as a novel means of improving vascular function in sedentary humans Brunt, Vienna 27 October 2016 (has links) Cardiovascular disease is the leading cause of death in the developed world. The majority of cardiovascular diseases are characterized by disorders of the arteries, predominantly caused by endothelial dysfunction and arterial stiffening. Passive heat stress results in elevations in core temperature (inducing heat shock protein expression) and changes in cardiovascular hemodynamics, such as increased cardiac output and shear stress, that are similar to exercise. Thus, repeated passive heat stress (“heat therapy”) may provide an alternative means of improving cardiovascular health, particularly for patients with limited exercise tolerance and/or capabilities. Therefore, the goal of this dissertation was to perform integrative studies to determine the effects of heat therapy on vascular function and the associated cellular pathways in young, sedentary humans. Twenty subjects were assigned to participate in 8 weeks (4-5x/week) of heat therapy (N=10; immersion in a 40.5°C bath sufficient to maintain rectal temperature ≥38.5°C for 60 min/session) or thermoneutral water immersion (N=10; sham). As discussed in Chapter V, we found that heat therapy improved numerous well-established biomarkers of conduit vessel/macrovascular function, including flow-mediated dilation (a measure of endothelial function), arterial stiffness, intima media thickness, and blood pressure. Heat therapy also improved microvascular function, as discussed in Chapter VI, measured as improved cutaneous thermal hyperemia and nitric oxide-dependent dilation (the difference between microdialysis sites receiving Lactated Ringer’s [control] and nitric oxide synthase inhibition). No changes were observed in any variables in sham subjects. In Chapter VII, we showed that both direct cellular heating and serum collected from human subjects following heat therapy improved nitric oxide bioavailability and angiogenesis in cultured endothelial cells, providing potential mechanisms by which heat therapy improves vascular function in vivo. Therefore, the studies described herein provide comprehensive evidence that passive heat therapy improves vascular health and insight into the mechanisms involved. Our data presented in Chapters IV-VII, combined with pilot data we conducted in spinal cord injured individuals (Chapter VIII), strongly indicate that passive heat therapy could be used as a simple and effective tool to improve cardiovascular health in a variety of patient populations. This dissertation includes published and unpublished co-authored material. Arterial stiffness Cell culture Endothelial function Heat exposure Hot water immersion
40	The performance of the Energy Machine : A comparative study of the Energy Machine and a conventional heat pump system Hemgren, Viktor January 2013 (has links) The Achilles heel of the heat pump technology has for long been the low efficiency occurring during domestic hot water production. The problem is the high condensation pressure needed to reach high temperatures. To produce domestic hot water, the system need to deliver a supply temperature of about 60 °C, to be compared with a supply temperature of around 30-50 °C when heat is delivered to a radiator circuit. This drawback has for long held the heat pump technology back and instead gave room for alternative technologies on the market, like district heating.The Energy Machine is a heat pump system developed to bypass the poor efficiency during domestic hot water heating. The technology is based on the use of two heat pumps working together. The main heat pump delivers heat to the heating system, as usual, whilst the second smaller heat pump heats the domestic hot water. As the second heat pump is fed with reject heat from a subcooler in the main heat pump, it can operate at high efficiency, even when producing domestic hot water.The aim of this master thesis has been to investigate how the performance of the Energy Machine differs from that of a conventional heat pump system. In order to do so, models describing the two systems have been designed using MATLAB, Simulink. Simulations have then been performed to investigate how the two systems perform on an annual basis.The results of the simulations show that the Energy Machine performs much better than the conventional systems at most operating conditions, especially during domestic hot water heating. The annual COP- factor of the Energy Machine has proven to be 33,5 % higher than that of a conventional heat pump system. / Värmepumpsteknikens akilleshäl har sedan lång tid tillbaka varit den låga verkningsgraden som uppstår vid tappvarmvattenproduktion. Problemet är att det krävs mycket högt kondenseringstryck för att uppnå den höga framledningstemperatur som efterfrågas vid tappvarmvattenproduktion. Normalt krävs en temperatur omkring 60 °C vid tappvarmvattenproduktion, att jämföras med 30-50 °C då värme levereras ut på en radiatorkrets. Detta problem har länge hållt värmepumpstekninken tillbaka och istället givit utrymme för alternativ teknik på marknaden, såsom fjärrvärme.Energimaskinen, eller Energy Machine, är ett värmepumpssystem utvecklat för att kringgå problemet med den låga verkningsgraden vid tappvarmvattenproduktion. Tekniken bygger på två värmepumpar som arbetar tillsammans. En basmaskin används för att leverera värme ut på värmesystemet, medan en mindre värmepump används för att producera tappvarmvatten. Den mindre värmepumpen matas med värme från en underkylare i basmaskinen, vilket ger hög förångningstemperatur och därmed hög COP faktor, även vid tappvarmvattenproduktion.Målet med projektet har varit att jämföra prestandan hos en Energy Machine med ett konventionellt värmepumpssystem. För att kunna göra dettta har två modeller designats, en modell som beskriver en Energy Machine och en modell som beskriver ett konventionellt värmepumpssystem. Modellerna gjordes i MATLAB, Simulink, och simuleringar utfördes varpå resultaten tolkades och jämfördes.Resultaten från simuleringarna visar att en Energy Machine presterar mycket bättre än ett konventionellt värmepumpssystem i de allra flesta driftfallen , men särskilt vid tappvarmvattenproduktion. Simuleringarna visar att COP- faktorn på årsbasis för en Energy Machine är 33,5 % högre än den för ett konventionellt värmepumpssystem. Heat pump Domestic hot water Heating Chilled water Cooling COP Efficiency Simulink MATLAB

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