Aplicação da análise inversa no projeto de fornos com aquecedores de filamento

Lemos, Larissa Domingues

January 2015

No projeto de um forno, normalmente busca-se uma configuração para a posição dos aquecedores que resulte em aquecimento uniforme na superfície inferior, a superfície de projeto. Neste trabalho, o fluxo de calor e a temperatura são prescritos na superfície de projeto e os elementos aquecedores devem ser projetados em um conjunto de quatro filamentos, ou um filamento em cada quarto simétrico do forno, a fim de satisfazer às condições prescritas. O forno é modelado como uma cavidade tridimensional preenchida com meio transparente; assume-se que as paredes sejam cinzas e difusas e que o único mecanismo de transferência de calor presente é a radiação térmica. Esse problema, convencionalmente, é solucionado através de um procedimento de tentativa-e-erro; neste trabalho, a solução é obtida através da análise inversa, uma técnica mais versátil e eficaz de projeto, embora exija tratamentos matemáticos especiais. O problema inverso é resolvido nesta pesquisa de forma implícita, como um problema de otimização. A solução é obtida através do método da Otimização Extrema Generalizada (GEO), um método de otimização estocástico e global, utilizado para encontrar as posições para os aquecedores respeitando a condição de formar um filamento. A metodologia é aplicada para se obter a configuração geométrica e posição do filamento aquecedor, uma abordagem inédita na literatura, conduzindo a resultados com desvio máximo inferior a 2%. Por fim, nesta pesquisa, realiza-se um estudo acerca do fator de forma dos elementos aquecedores que indica a aplicabilidade da solução obtida para filamentos com diferentes espessuras. / In the design of a oven is desired to obtain the positions for the heaters that results in a uniform heating to the bottom surface, the design surface. The heat flux and temperature are prescribed in the design surface and the heating elements are positioned in a single filament so as to satisfy prescribed conditions. The oven is modeled as a three-dimensional cavity filled with transparent medium, it is assumed that the walls are gray and diffuse and the dominant heat transfer mechanism is thermal radiation. This problem, conventionally, is solved through a trial and error procedure, in this work, the solution is obtained by inverse analysis. The inverse problem is solved implicitly, as an optimization problem. The solution is obtained by the method of optimization extreme (GEO) a stochastic global optimization method used to find the locations for the heaters respecting the condition of build a filament. The methodology leads to satisfactory results, with maximum error less than 2%. Finally, this research, realized a study of the view factor of the elements heaters that indicates the applicability of the solution into filaments with different thicknesses.

Análise inversa

Otimização matemática

Transferencia de calor

Inverse analysis

Filament heater

Radiative enclosure

GEO

Aquecimento solar de água: metodologia de avaliação da incerteza na medição do desempenho térmico de coletores solares planos utilizando simulador artificial de radiação solar. / Solar water heating: methodology for uncertainty evaluation of solar thermal collectors performance using a solar simulator.

Daniel Setrak Sowmy

30 August 2013

Este trabalho apresenta uma metodologia de avaliação da incerteza associada à medição do desempenho térmico de coletores solares térmicos, utilizados em aquecedores de água residenciais. A determinação desta grandeza tem influência direta na estimativa da fração solar obtida pelo sistema, e consequentemente no tempo de retorno sobre o investimento do mesmo. Coletores solares planos, construídos a partir de perfis de alumínio, com absorvedores metálicos, pintura preta não seletiva, tubulação interna de cobre, cobertura de vidro simples e isolante térmico na parte traseira, foram ensaiados individualmente em laboratório para determinação do seu desempenho. O procedimento adotado foi o indoor, onde os ensaios são realizados sob um simulador artificial de radiação solar, e envolveu a configuração da câmara de testes, estabilização das variáveis ambientais, ensaios das amostras, cálculo do desempenho térmico e estimativa da sua incerteza associada. Esta última levou em consideração as contribuições da instrumentação empregada, da estabilidade temporal das condições de contorno para realização das medições e do método estatístico utilizado na determinação da curva de desempenho térmico do coletor. Ao final do estudo foram ponderados os limites aceitos pelo programa de etiquetagem brasileiro de coletores em comparação com os resultados obtidos. / This work presents a methodology for assessing the thermal performance uncertainty of solar collectors used in residential water heaters. The uncertainty has a direct influence on the solar fraction prediction and consequently on its payback time. Flat solar collectors, built in aluminum frames, metallic absorber with non-selective black paint, copper pipes, single glass cover and thermal insulation on the back, were tested individually at the laboratory to measure their performance. The test procedure was the indoor, performed on an artificial solar simulator, and included the test chamber set-up, environmental variables control, sample testing, thermal performance calculating and its uncertainty estimate. The latter considered the instrumentation, temporal stability of variables and the statistical method used on the collectors thermal performance curve fitting. The study also compared the results obtained with the performance limits accepted by the Brazilian collector labeling program.

Aquecimento de água

Energia (Eficiência)

Energia solar

Sol (Simulação)

Energy (Efficiency)

Solar energy

Sun (Simulation)

Water heater

Aplicação da análise inversa no projeto de fornos com aquecedores de filamento

Lemos, Larissa Domingues

January 2015

No projeto de um forno, normalmente busca-se uma configuração para a posição dos aquecedores que resulte em aquecimento uniforme na superfície inferior, a superfície de projeto. Neste trabalho, o fluxo de calor e a temperatura são prescritos na superfície de projeto e os elementos aquecedores devem ser projetados em um conjunto de quatro filamentos, ou um filamento em cada quarto simétrico do forno, a fim de satisfazer às condições prescritas. O forno é modelado como uma cavidade tridimensional preenchida com meio transparente; assume-se que as paredes sejam cinzas e difusas e que o único mecanismo de transferência de calor presente é a radiação térmica. Esse problema, convencionalmente, é solucionado através de um procedimento de tentativa-e-erro; neste trabalho, a solução é obtida através da análise inversa, uma técnica mais versátil e eficaz de projeto, embora exija tratamentos matemáticos especiais. O problema inverso é resolvido nesta pesquisa de forma implícita, como um problema de otimização. A solução é obtida através do método da Otimização Extrema Generalizada (GEO), um método de otimização estocástico e global, utilizado para encontrar as posições para os aquecedores respeitando a condição de formar um filamento. A metodologia é aplicada para se obter a configuração geométrica e posição do filamento aquecedor, uma abordagem inédita na literatura, conduzindo a resultados com desvio máximo inferior a 2%. Por fim, nesta pesquisa, realiza-se um estudo acerca do fator de forma dos elementos aquecedores que indica a aplicabilidade da solução obtida para filamentos com diferentes espessuras. / In the design of a oven is desired to obtain the positions for the heaters that results in a uniform heating to the bottom surface, the design surface. The heat flux and temperature are prescribed in the design surface and the heating elements are positioned in a single filament so as to satisfy prescribed conditions. The oven is modeled as a three-dimensional cavity filled with transparent medium, it is assumed that the walls are gray and diffuse and the dominant heat transfer mechanism is thermal radiation. This problem, conventionally, is solved through a trial and error procedure, in this work, the solution is obtained by inverse analysis. The inverse problem is solved implicitly, as an optimization problem. The solution is obtained by the method of optimization extreme (GEO) a stochastic global optimization method used to find the locations for the heaters respecting the condition of build a filament. The methodology leads to satisfactory results, with maximum error less than 2%. Finally, this research, realized a study of the view factor of the elements heaters that indicates the applicability of the solution into filaments with different thicknesses.

Análise inversa

Otimização matemática

Transferencia de calor

Inverse analysis

Filament heater

Radiative enclosure

GEO

[en] CRITICAL ANALYSIS OF THE STANDARDS FOR EVALUATING WATER HEATERS USING GAS FUEL / [pt] ANÁLISE CRÍTICA DE NORMAS EXISTENTES PARA AVALIAÇÃO DE AQUECEDORES DE ÁGUA QUE UTILIZAM GÁS COMO COMBUSTÍVEL

MILSON JOSE DE CARVALHO

14 March 2018

[pt] No presente trabalho calcula-se a eficiência de um aquecedor de água, sem evaporação, queimando gás combustível com composição química desconhecida. Faz-se a comparação dos resultados obtidos com duas normas que apresentam formas diferentes de cálculo, ASME (1) e NBS (2). Com os resultados finais, sugere-se um procedimento a ser seguido no cálculo de eficiência de aquecedores. / [en] In this research, the thermal efficiency of a sensible water heater is measured and calculated, burning fuel gas with unknown chemical composition. The experimental results are then compared with the calculated values, when using ASME(1) and NBS(2) standard procedures. Finally and procedure is suggested to calculate the thermal efficiency of such heaters.

[pt] AQUECEDOR DE AGUA

[en] WATER HEATER

[pt] EVAPORACAO

[en] EVAPORATION

[pt] GAS COMBUSTIVEL

[en] FUEL GAS

New approaches for high spatial and temporal resolution nanothermometry : development of hot wire nano heater devices and investigation of thermosensitive materials with fluorescent and spin crossover properties / Nouvelles approches de la nanothermométrie à hautes résolutions spatiales et temporelles : développement de dispositifs de chauffage à l'échelle nanométrique et études de matériaux thermosensibles par la fluorescence et les propriétés de la transition de spin

Kraieva, Olena

26 October 2015

L'objectif de cette thèse était de développer de nouvelles méthodes micro- et nano-thermométriques proposant de hautes résolutions spatiales et temporelles. Dans ce cadre nous nous sommes concentrés sur deux tâches : dans un premier temps, nous avons développé un dispositif de nano-chauffage qui peut aisément servir à la caractérisation thermo-physique de matériaux à l'échelle nanométrique. Dans un second temps, en utilisant cette plate-forme nous avons étudié des matériaux thermosensibles, incluant divers luminophores et des complexes à transition de spin ainsi que leurs mélanges. Les dispositifs de nano-chauffage, basés sur des nanofils chauffés par effet Joule, ont été fabriqués par lithographie électronique conventionnelle. Grâce à leur faible inertie thermique, les dispositifs basés sur des nanofils sont particulièrement intéressants en termes de temps de réponse et de confinement des changements de température induits. La caractérisation thermique de ces éléments de chauffage a été réalisée à l'aide de méthodes électriques et optiques ainsi que de simulations par éléments finis. Nous avons montré expérimentalement que nos chauffages prodiguent des perturbations en température (1 K < DeltaT < 80 K) rapides (< µs) et spatialement localisées (< µm) lorsque stimulées par des impulsions de courant électrique. Les simulations par éléments finis reproduisent ces résultats expérimentaux avec une bonne précision et prouvent ainsi leur intérêt pour le design de tels dispositifs. Les performances thermométriques de matériaux fluorescents, incluant des colorants organiques (Rhodamine B), des nanoparticules inorganiques (PbF2:Er3+/Yb3+, CdSe) et des nanoparticules hybrides organiques/inorganiques ([Fe(Htrz)2(trz)]BF4@SiO2-pyrene), ont ensuite été étudiées. D'une manière générale, leur intérêt pour l'imagerie thermique a été démontré, mais des problèmes de stabilité rendent les mesures quantitatives difficiles avec de tels matériaux. D'un autre côté, nous avons réussi à synthétiser des films de nanoparticules du complexe à transition de spin [Fe(Htrz)2(trz)]BF4 (non-dopé). Ces films qui nous ont permis de suivre les changements de température à l'aide de mesures de réflectivité optique plus robustes. La boucle d'hystérèse thermique dans ce matériau procure un effet de mémoire thermique à long terme dont nous avons usé avec succès pour imager les changements de température très rapides (< µs) et spatialement localisés (< µm) - même après que la chaleur se soit dissipée. Cette méthode originale nous procure une combinaison sans précédent de sensitivité spatio-temporelle dans le champ de la nano-thermométrie aux applications pratiques prometteuses. / The overall objective of this PhD thesis was to develop novel micro- and nano-thermometry methods providing high spatial and temporal resolution thermal imaging. To achieve this goal we have focused on two tasks: First, we developed a nano-heater device that can be easily employed for the thermo-physical characterization of materials at the nanoscale. In a second time, using this platform we investigated thermo-sensitive materials, including different luminophores and spin crossover complexes as well as their mixtures. The nano-heater device, based on Joule-heated metallic nanowires, was fabricated by standard electron beam lithography. Due to their small thermal mass, nanowire based devices are particularly interesting in terms of response times and also in terms of confinement of the induced temperature changes. The thermal characterization of these heating elements was carried out using electrical and optical methods as well as finite element simulations. We have shown experimentally that our heaters can provide fast (< µs) and spatially well localized (< µm) T-jump perturbations (1 K < DeltaT < 80 K) driven by an electrical current pulse. Finite element simulations reproduced these experimental results with good accuracy and proved to be a powerful tool of prediction for the device design. Fluorescent materials, including organic dyes (Rhodamine B), inorganic nanoparticles (PbF2:Er3+/Yb3+, CdSe) and hybrid organic/inorganic nanoparticles ([Fe(Htrz)2(trz)]BF4@SiO2-pyrene), were then investigated for their thermometry performance. Overall, they were found useful for thermal imaging, but stability problems make quantitative measurements challenging with these materials. On the other hand, we have succeeded in synthesizing nanoparticle films of the (undoped) [Fe(Htrz)2(trz)]BF4 spin crossover complex, which allowed us to infer temperature changes through more robust optical reflectivity measurements. The thermal hysteresis loop in this material provides a long-term thermal memory effect which we used successfully to image very fast (˜µs) transient temperature changes with high spatial resolution (sub-µm) - even when the heat is dissipated. This original method provides an unprecedented combination of spatio-temporal sensitivity within the field of nanothermometry with promising potential applications.

Nano-thermometry

Spin crossover

Thermal imaging

Lithography

Nano-heater device

Luminophore

Joule effect

Controle de aquecedores de passagem a gás com chama modulante

Gutterres, Leonardo Maraschin

January 2014

Este trabalho aborda o desenvolvimento de um sistema de controle de temperatura para um aquecedor de passagem de água a gás. O sistema de controle Controlgás é apresentado e comparado ao sistema de controle típico, usado em aquecedores de passagem convencionais. São apresentadas as características e objetivos do projeto Controlgás, o qual serviu de base para o desenvolvimento deste trabalho. É apresentada uma fundamentação teórica sobre técnicas de controle para compensação de variações paramétricas e de atrasos de transporte, bem como uma revisão sobre as principais soluções já desenvolvidas para o controle de temperatura da água em aquecedores de passagem. A bancada experimental, contendo o aquecedor e o sistema de controle, utilizada em trabalhos anteriores, foi reestruturada e instrumentada com sensores de temperatura na entrada e na saída de água e com sensores que detectam a presença de chama e de fluxo de água. Foi desenvolvida uma servo-válvula que permite a regulagem automática da vazão de gás. Desenvolveu-se um circuito de potência para o acionamento dos atuadores (solenoides e servo-válvula) da bancada, assim como algoritmos que geram os sinais adequados para seu funcionamento. Foi feita a identificação do processo e o modelo da servo-válvula foi obtido por meio da análise de ensaios experimentais. O modelo do sistema completo foi desenvolvido no programa Simulink, onde foram feitas simulações do comportamento dinâmico do sistema proposto. O sistema foi implantado experimentalmente e foi capaz de convergir para as temperaturas de referência durante os ensaios. / This work addresses the development of a temperature control system for a gas tankless water heater. The Controlgás control system is presented and compared to typical control systems used in regular tankless water heaters. The characteristics and objectives of Controlgás project, which formed the basis for the development of this work, are presented. A theoretical foundation on control techniques for compensation of parametric variations and transport delays is presented, as well as a review of the main solutions already developed for the control of water temperature on tankless water heaters. The experimental set containing the heater and the control system used in previous work was restructured and instrumented with temperature sensors at the water's input and output and with sensors which detect the presence of flame and the water flow. A servo-valve that allows automatic adjustment of the gas flow was developed. A power circuit was created to drive the actuators (solenoids and servo-valve) of the set, as well as algorithms that generate the appropriate signals for its operation. The process identification and the servo-valve‟s model were obtained through experimental analysis. The system‟s complete model was developed in Simulink, where simulations of the dynamic behavior of the proposed system were made. The system was implemented experimentally and was able to converge to the reference temperatures during the tests.

Controle de temperatura

Trocador de calor

Tankless water heater

Combustion control

Temperature control

Modulating flame

Component development for a high fidelity transient simulation of a coal-fired power plant using Flownex SE

Le Grange, Willie

25 February 2019

Large coal-fired power stations are designed to be run predominantly at full load and optimum conditions. The behaviour of plants, operating at low load and varying conditions, is getting more and more attention due to the introduction of variable renewable generation on the grid. Consequently, the need for a fully transient high-fidelity system based model has grown, as this will enable one to study the behaviour of plants under such non-ideal conditions. This report details the development of a feedwater heater, deaerator and turbine component for such a high-fidelity transient system model using the Flownex Simulation Environment, a onedimensional thermohydraulic network solver. The components have been modelled all with the aim of using minimal design input data. The feedwater heater component model includes transient effects and thermodynamic relations to represent aspects such as heater performance, level control and transient inertia. In determining the heat transfer characteristics, the model makes use of plant-performance data and correlates the amount of heat transfer by using the feedwater mass flow as the load indicating parameter. This approach eliminates the need for specific geometrical details to calculate the effective heat transfer area. The level control is modelled by using a level representation built from using heat exchanger design methods. The turbine component is modelled by using Fuls’ Semi-Ellipse law or the pressure drop modelling and Ray’s semi-empirical method for the efficiency modelling. The model also contains transient effects, which include thermal inertia due to the shaft and casing, and rotational inertia due to the shaft. The deaerator component is modelled by adapting the model presented by Banda, and modifying the model to work under various conditions. This involved using curve fit methods in Flownex to use input data to model the pressure drop over the main condensate valve. Each of the mentioned components was validated and verified with plant data and finally packaged into a compound component which is a component consisting of a subnetwork in Flownex. These compound components further contain design inputs which are easily accessible by the user. The component models were integrated into larger networks in which various scenarios can be run. A short transient scenario was run on the low-pressure feedwater train of a specific power station. The scenario involved a turbine trip where the bled steam valves for the heaters were closed suddenly. The speed of the valves closing was however unknown and after closing the valves in approximately 10 seconds, results agreed relatively well with plant data. This illustrated the short transient capabilities of the feedwater heater component model. The three component models (feedwater heater, turbine and deaerator) were finally integrated into a regenerative Rankine cycle and was set up using minimal design data. The boiler, condenser and condensate pump were set as boundary conditions in the network but all extraction points for the network were connected. Steady-state results were obtained for various load cases and the main temperature, flow and pressure results were compared. Results agree well with plant data, even at low load conditions

Zbytková životnost pecí v petrochemickém průmyslu / Residual Service Lifetime of Furnaces in Petrochemical Industry

Horsák, Libor

January 2018

The objectives of this work is residual lifetime of heaters in petrochemical industry. There is no comprehensive publication about this theme. This paper lists and describes the most of main phenomena that has to be taken into account in the process of determination of residual lifetime. This paper focuses on creep damage of a real heater based on deformation measurement. It describes some heater failures that could cause unplanned operation interruption however, appropriate intervention made possible safe heater operation until planned heater shutdown. No compact method is given how to determine heater residual lifetime, but a direction is given how a complex method of residual lifetime assessment of refinery heaters could be created.

Kotel na spalování smrkové kůry-18t/h / Steam boiler for spruce bark burning-18t/h

Dračka, Lukáš

January 2012

To design a grate boiler with a natural circulation for burning of a pine bark with an output 18t/h is a primary objective of this dissertation. Individual parts of a boiler and it´s heat transfering surfaces were calculated after the working out of stoichiometric calculations from given element analysis of fuel. All computations have to fulfill several parameters: boliler output, temperature and pressure of an overheated steam.

Roštový kotel na spalování tříděného odpadu 70t/h,4MPa, 400°C / Steam Boiler with grate firing RDF 70t/h, 4MPa, 400°C

Mokriš, Lukáš

January 2013

The goal of this Master’s Thesis is to design a refuse derived fuel (RDF) fired steam boiler with 70 t/h processing ability. The assignment consists of requested output parameters of overheated steam and analysis of fuel components. This analysis was used for stoichiometric calculation of fuel. Furthermore, heat balance of the boiler was calculated, from which was determined the heat loss and the efficiency of the boiler. Individual designs and calculations of heating surfaces and boiler dimensions were carried out from requested output parameters.