Medidas e modelos de estimativa da radiação direta na incidência: Eduardo Nardini Gomes. -

Pós-graduação em Agronomia (Irrigação e Drenagem) - FCA

Simulação de ciclo combinado utilizando software comercial

In Brazil, The power generation has always depended on the rivers, in other words, there are moments that the power generation can vary, which can cause variations in energy supply and even blackout according to the level of water in the reservoirs of the hydroelectric plants. For this reason, many options has been studied, like our example, which is about a combined cycle power plant in Canas. The use of combined cycle is interesting from the point o view of energy, because its efficiency is between 50 and 60%, and from the point of view of environment, because it can burn natural gas, which is cleaner than coal, it reduces the emission of gases that influence on the greenhouse effect. This work aims to perform a technical analysis of a case study of a power plant proposed to be built in Canas by the AES/AES Tietê Group. For the analysis will be used the commercial software GateCycle 6.0.0 from GE, this software has the power of simulating power generation cycles (nuclear, combined, etc.). The energy department of UNESP has the license, which makes possible the academic use of this tool. Two combined cycles were simulated, one using one pressure level HRSG, and another one closer to the real power plant, which is a combined cycle with a three pressure level HRSG. The results were close to expected, for the combined cycle with one pressure HRSG the power was 513,9 MW and a efficiency of 53,27%, in the case with the three pressure level HRSG the power was 517,1 MW and a efficiency of 53,5%. We conclude that the software requires that the user must have the knowledge about the subjects involved in the use of GateCycle in problems resolutions

Study of thermal decomposition of ignition temperature of bagasse, coal and their blends

In Brazil, due to its availability, sugar cane bagasse has a high potential for power generation. The knowledge of ignition behavior, as well as the knowledge of the chemical kinetics, in of fuels combustion process is important features in boilers projects and in the stability of the combustion process control. The aim of this study is to investigate the thermal behavior of sugar cane bagasse, coal and their blends. The methodology proposed by Tognotti et al. (1985) was applied to determine the ignition temperature for all samples. Ignition temperatures were 256oC for neat bagasse and 427oC for neat coal, and 275oC for both blends (50-50% and 25-75%). The ModelFree Kinetics was applied to determine the apparent activation energy (Eα) of the thermal decomposition of sugar cane bagasse. For the two major events of mass loss of bagasse which correspond to the thermal decomposition of organic matter (mainly hemicellulose, cellulose and lignin), average values of Eα were obtained for both combustion and pyrolysis processes. In synthetic air atmosphere, the Eα were 170.8±26.3 kJ⋅mol-1 and 277.8±58.6 kJ⋅mol-1, while in nitrogen atmosphere, the Eα were 185.0 ± 11.4 kJ⋅mol-1 and 82.1±44.4 kJ⋅mol-1. The results obtained can be explained by synergistic effects when both bagasse and coal were blended, changing the fuel reactivity.

The calcium looping cycle study for capturing carbon dioxide applied to the energy generation

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Analytical solution for transient one-dimensional couette flow considering constant and time-dependent pressure gradients

This paperaims to determine the velocity profile, in transient state, for a parallel incompressible flow known as Couette flow. The Navier-Stokes equations were applied upon this flow. Analytical solutions, based in Fourier series and integral transforms, were obtained for the one-dimensional transient Couette flow, taking into account constant and time-dependent pressure gradients acting on the fluid since the same instant when the plate starts it´s movement. Taking advantage of the orthogonality and superposition properties solutions were foundfor both considered cases. Considering a time-dependent pressure gradient, it was found a general solution for the Couette flow for a particular time function. It was found that the solution for a time-dependent pressure gradient includes the solutions for a zero pressure gradient and for a constant pressure gradient.

Analisys of thermal efficiency of a modified solar collector type evacuated tube

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Simulação numérica da convecção mista em cavidade preenchida com meio poroso heterogêneo e homogêneo

In this work is presented mixed convection heat transfer inside a lid-driven cavity heated from below and filled with heterogeneous and homogeneous porous medium. In the heterogeneous approach, the solid domain is represented by heat conductive equally spaced blocks; the fluid phase surrounds the blocks being limited by the cavity walls. The homogeneous or pore-continuum approach is characterized by the cavity porosity and permeability. Generalized mass, momentum and energy conservation equations are obtained in dimensionless form to represent both the continuum and the pore-continuum models. The numerical solution is obtained via the finite volume method. QUICK interpolation scheme is set for numerical treatment of the advection terms and SIMPLE algorithm is applied for pressure-velocity coupling. Aiming the laminar regime, the flow parameters are kept in the range of 102≤Re≤103 and 103≤Ra≤106 for both the heterogeneous and homogeneous approaches. In the tested configurations for the continuous model, 9, 16, 36, and 64 blocks are considered for each combination of Re and Ra being the microscopic porosity set as constant φ=0,64 . For the pore-continuum model the Darcy number (Da) is set according to the number of blocks in the heterogeneous cavity and the φ. Numerical results of the comparative study between the microscopic and macroscopic approaches are presented. As a result, average Nusselt number equations for the continuum and the pore continuum models as a function of Ra and Re are obtained.

Comparação da eficiência térmica de trocadores de calor no laboratório de sistemas térmicos da Faculdade de Engenharia

This work aims to verify and compare the efficiency of heat exchangers used in the thermal systems laboratory at Faculdade de Engenharia do Campus de Guaratinguetá - UNESP. Basically, it has been studied two types of heat exchangers: plate type, operating in parallel flow and counter-flow, shell and tube type and also operating in parallel flow and counter flow. Initially it has been presented the didactic equipment and procedures for use of these heat exchangers in the proposed experiments. With the results obtained from the experiments, comparisons were made in order to define the behavior of the heat exchangers regarding some variables. In the study, one comes to the conclusion that the results from shell and tube type of heat exchanger, used in the thermal systems lab, are superior in all conditions analyzed

Condutividade e difusividade térmica do figo (Ficus carica L.) Roxo de Valinhos

The post harvest cooling and/or freezing processes for horticultural products have been carried out with the objective of removing the heat from these products, allowing them a bigger period of conservation. Therefore, the knowledge of the physical properties that involve heat transference in the fig fruit Roxo de Valinhos is useful for calculating projects and systems of food engineering in general, as well as, for using in equations of thermodynamic mathematical models. The values of conductivity and thermal diffusivity of the whole fig fruit-rami index were determined, and from these values it was determined the value of the specific heat. For these determination it was used the transient method of the Line Heat Source. The results shown that the fig fruit has a thermal conductivity of 0.52 W m-1°C, thermal diffusivity of 1.56 x 10-7 m² s-1, pulp density of 815.6 kg m-3 and specific heat of 4.07 kJ kg-1 °C.

Avaliação térmica de placas de argamassa de cimento e casca de arroz aquecidas por resistência elétrica

An alternative proposal for floor heating system by means of electric resistance for both chick and piggy installation is presented in this work. Several formulations of rice husk and cement mortar boards were used. An electronic device controlled all board temperature. This system presented a good efficiency design. The conventional cement mortar mixed with rice husk showed a better performance.

Ambiências térmica, aérea e acústica para reprodutores suínos

The swine breeder rearing environment directly affects the animal's performance. This research had the objective of developing a thermal, aerial and acoustic environmental evaluation pattern for boar housing. The experiment was carried on a commercial swine farm in Salto County -SP, Brazil. Thermal, aerial and acoustic environment data of rearing conditions were registered. Data were statistically analyzed using as threshold the ideal housing environment that leads to animal welfare. Results showed that ambient temperature was around 70% beyond normal range, while air relative humidity, air speed and gases concentration were within threshold values. Noise level data besides being within normal range did not present large variation. In relation to the fuzzy logic analysis it was possible to build up a scenario which indicated that the best welfare indexes to male swine breeders happens when thermal comfort index are close to 80%, and noise level is lower than 40 dB. In the other hand the worst welfare index occur in the sector where the thermal comfort values are below 40% at the same time that the noise level is higher than 80 dB leading to inadequate conditions to the animal, and may directly interfere in the reproduction system performance.

Simulação térmica de uma fachada de dupla pele com ventilação natural

Este trabalho relata os resultados obtidos de uma simulação térmica de uma fachada de dupla pele com ventilação natural utilizando um software genérico de simulação térmica de edifícios. Esta fachada encontra-se montada numa célula de teste no Laboratório de Engenharia Civil em Lisboa, e cujo propósito é verificar e analisar o comportamento térmico deste tipo de elementos em regimes de ventilação natural. Para atingir o objectivo desta dissertação em simular a DSF, é utilizado o amplamente conhecido EnergyPlus, um programa de grande capacidade para simular o comportamento térmico de edifícios e dimensionar pormenorizadamente os seus sistemas de ventilação e AVAC. Paralelamente a este software, é utilizado um outro programa, o DesignBuilder, tratando-se este de um interface comercial para o EnergyPlus. Os resultados das simulações efectuadas são comparadas com os dados experimentais retirados durante o funcionamento da DSF entre das datas de 23 a 28 de Abril de 2008. Utilizando estas ferramentas informáticas, foram efectuadas duas modelações da fachada de modo a avaliar diferentes graus de detalhe, ambas segundo as características geométricas, propriedades térmicas e ópticas dos seus elementos de construção, sombreamento existente e modo de funcionamento durante o período em causa. Posteriormente são comparados os resultados das simulações com os dados experimentais. A análise dos resultados permitiu chegar á conclusão que, embora o software utilizado não contenha até á data um modelo próprio e detalhado para fachadas envidraçadas de dupla pele com ventilação natural, este possui uma potencialidade promissora para efectuar uma simulação fiável. No entanto, diversas divergências significativas foram notadas e analisadas nos parâmetros comparados, nomeadamente a temperatura e o caudal, de modo a estabelecer algumas limitações do software.

Reabilitação térmica e energética de edifício antigo: aplicação ao antigo edifício dos CTT em Coruche

O estudo desenvolvido no presente documento teve como alvo um edifício antigo construído entre 1930 e 1940 no concelho de Coruche, com construção característica da sua época. Numa fase inicial analisou-se de que forma se comporta o edifício em termos térmicos e energéticos, com base nas metodologias de cálculo apresentadas pelo regulamento térmico em vigor (RCCTE, 2006), e de seguida foram analisadas várias soluções existentes para a reabilitação térmica e energética do edifício que poderá ser concretizada, essencialmente devido às soluções para isolamento térmico das paredes, pavimentos e cobertura, assim como devido às soluções para vidros e caixilharia dos vãos envidraçados. Numa fase posterior, foi estudada a aplicação isolada das várias soluções de reabilitação consideradas, tendo sido simulada a aplicação de várias espessuras de isolante para as soluções da envolvente opaca e vários tipos de vidro duplo e caixilharia para as soluções da envolvente envidraçada, de forma a perceber-se a implicação que cada uma tem quanto à variação das necessidades energéticas do edifício. Por fim, foram calculados os custos de aplicação das várias soluções estudadas, com auxílio de um software de orçamentação, de forma que estas possam ser comparadas em termos da relação custo/benefício, em que, o benefício de cada solução será a variação provocada nas necessidades energéticas do edifício com aplicação da mesma. Assim, procurará encontrar-se para o edifício em estudo não só as soluções mais vantajosas em termos energéticos mas também as mais rentáveis, e procurará perceber-se se um investimento numa intervenção de reabilitação deste género conduzirá a um período de retorno do investimento reduzido, que possa ser considerado aceitável.

Estudo da estabilidade térmica da pele

Mestrado em Engenharia Química

Central de produção de energia eléctrica a partir de energia solar térmica

Trabalho Final de Mestrado para obtenção do grau de Mestre em Engenharia Mecânica