Development of a New Prototype Thermal Desalination with Heat Recovery Triggered by Source Controlled of Electric Energy. / Desenvolvimento de um novo protÃtipo de dessalinizador tÃrmico com recuperaÃÃo de calor acionado por fonte controlada de energia elÃtrica

Francisco NascÃlio Pinheiro

06 August 2013

CoordenaÃÃo de AperfeiÃoamento de NÃvel Superior / Solar thermal desalination plants operate with variable heat source, solar radiation, which complicates the identification of the influence of process variables and of the constructive geometric parameters. In operation, brackish or salt water is heated in a storage tank, where it evaporates and condenses on the walls of a lower metal tray (first stage) installed above the tank. By condensing, the steam transfers heat to the salt water of this first stage and the condensate is collected on the outside of the tank. This work aims to develop a new prototype desalination unit with thermal controllable operating parameters for operation in transient and steady states. In the prototype, the heating of the water to be desalinated is done by electrical resistance with controllable source, allowing the variation of the desired heating power. Sensors of the type PT-100 were installed, especially specified for the dimensions of the storage tank for measuring water temperature at different positions in the tank. The mass of water in the tank is measured by a precision balance. With the measurements, graphics of water temperature of the tank during the heating, the cooling and the steady state were constructed. Also, the Global Coefficient of Heat Transfer was measured for phases of heating, cooling and steady state. Finally, desalination was found by the electrical conductivity of the used water. / Dessalinizadores solares tÃrmicos operam com fonte variÃvel de calor, a radiaÃÃo solar, o que dificulta a identificaÃÃo da influÃncia das variÃveis de processo e dos parÃmetros geomÃtricos construtivos. Em seu funcionamento, Ãgua salobra ou salgada à aquecida em um tanque de armazenamento, onde evapora e condensa nas paredes inferiores de uma bandeja metÃlica (primeiro estÃgio) instalada acima do tanque. Ao condensar, o vapor transfere calor para a Ãgua salgada desse primeiro estÃgio e o condensado à coletado no exterior do tanque. O presente trabalho tem como objetivo o desenvolvimento de um novo protÃtipo de dessalinizador tÃrmico com parÃmetros operacionais controlÃveis para funcionamento em regimes transiente e permanente. No protÃtipo, o aquecimento da Ãgua a ser dessalinizada à feito por resistÃncia elÃtrica com fonte de tensÃo controlÃvel, permitindo a variaÃÃo desejÃvel da potÃncia de aquecimento. Foram instalados sensores do tipo PT-100, especialmente especificados para as dimensÃes do tanque de armazenamento, para mediÃÃes de temperaturas da Ãgua em diferentes posiÃÃes no tanque. A massa de Ãgua no tanque à medida por balanÃa de precisÃo. Com as mediÃÃes realizadas, foram construÃdos grÃficos de temperatura da Ãgua do tanque durante os regimes constante de aquecimento e resfriamento. Foi tambÃm medido o Coeficiente Global de TransferÃncia de Calor para as fases de aquecimento, regime permanente e resfriamento. Por fim, foi constatada a dessalinizaÃÃo por medidas de condutividade elÃtrica da Ãgua utilizada.

Dessalinizador

desalinator

electrical resistance

global coefficient of heat transfer

ENGENHARIA MECANICA

Primena metoda inverznog inženjerstva u cilju pronalaženja graničnih uslova pri livenju u peščanim kalupima / Application of inverse engineering methods for estimation of boundary conditions in sand casting process

Kovačević Lazar

01 October 2015

<p>U disertaciji je razvijena nova eksperimentalna postavka za merenje<br />graničnih uslova pri livenju u peščanim kalupima. Utvrđeno je da se<br />uvođenjem pojma prividne toplotne difuzivnosti materijala kalupa<br />može poništiti greška pozicioniranja termoparova i time smanjiti<br />greška procene graničnih uslova. Dodatno, pokazano je da proces<br />izdvajanja intermetalnih jedinjenja tokom procesa očvršćavanja<br />kalupa može uticati na vrednosti graničnih uslova. Razvijena je i<br />nova empirijska korelaciona funkcija kojom se može opisati promena<br />vrednosti koeficijenta prenosa toplote između kalupa i odlivka.</p> / <p>In this study a new experimental technique and apparatus for estimation of<br />boundary conditions in sand casting process were developed. It is shown<br />that thermocouple positioning errors can be nullified by introducing a concept<br />of apparent heat diffusivity of the mold material. In this way, total error of the<br />heat transfer estimation can be reduced. Additionally, it was found that the<br />process of precipitation of intermetallic compounds can influence the value of<br />achieved metal-mold heat transfer. A novel empirical correlation function is<br />proposed. This function has the ability to accurately describe the change in<br />interfacial heat transfer with the casting surface temperature.</p>

Estudo da condensação de refrigerantes halogenados e suas misturas com óleo de lubrificação no interior de micro canais / Condensation study of halogen refrigerants and mixtures with lubricant oil in microchannel tubes

Gonzales Mamani, Williams

26 October 2001

A presente pesquisa envolve um estudo teórico-experimental da transferência de calor e da perda de carga na condensação e no escoamento monofásico de fluidos refrigerantes halogenados no interior de lâminas com micro canais. Os ensaios consideram o fluido refrigerante puro R-134-a e a mistura quase azeotrópica R-410A. As lâminas estudadas envolvem micro canais de seção quadrada de Dh = 1,214 mm e de seção circular de Dh = 1,494 mm. Os ensaios de líquido subresfriado compreendem velocidades mássicas de 390 a 1360 Kg/sm2 para um temperatura de saturação de 40ºC e subresfriamento de 10ºC. Por sua parte, os ensaios foram realizados considerando um fluxo de calor constante de 5 kW/m2, títulos de vapor de 0,1 a 0,9, velocidades mássicas de 410 a 1135 kg/sm2, temperaturas de saturação de 40 a 50ºC e misturas óleo-refrigerante com concentrações de óleo em massa de 0,25 e 0,45%. Para cada condição de ensaio foram avaliados o coeficiente de transferência de calor e a queda de pressão por atrito na lâmina ensaiada. Os resultados para escoamento monofásico apresentaram consistência com relação às correlações típicas aplicáveis a transferência de calor e perda de carga para regime turbulento em tubos convencionais, apresentando, em média, valores de 12% superiores. Na maioria das condições de ensaios de condensação, segundo mapas de escoamento disponíveis na literatura, foi identificado o domínio do padrão estreitamento anular. Este comportamento foi aferido pelos resultados experimentais de perda de carga mostrando dependência quase exclusiva do parâmetro de Martinelli, e o mecanismo conectivo como principal mecanismo de transferência de calor, característico no padrão anular. Os resultados de condensação foram correlacionados a partir de abordagens empíricas em função do parâmetro de Martinelli e o conceito de velocidade mássica equivalente. Assim como, a partir de uma abordagem semi-empírica considerando um modelo anular que permite avaliar os mecanismos principais de transferência de calor e quantidade de movimento, avaliando a espessura do filme de líquido na parede do canal. Finalmente, os resultados experimentais e os obtidos a partir das correlações desenvolvidas são comparados com estudos disponíveis na literatura relativos a lâminas com micro canais. / This project involves a theoretical-experimental study of heat transfer and pressure drop in condensation and single phase flow of halogen refrigerants in microchannel tubes. The tests include the pure refrigerant R-134a and quasi azeotropic mixture R-410A. The microchannel tubes tested include one with square ports of Dh = 1,214 mm and other with circular port of Dh = 1,494 mm. The subcooled liquid tests considered the mass velocities of 390 to 1360 kg/sm2, the saturation temperature of 40ºC and subcooled of 10ºC. The condensing tests considered a constant heat flux of 5 kW/m2, vapor quality of 0,15 to 0,9, mass velocities of 410 to 1135 kg/sm2, saturation temperature of 40 to 50ºC and oil-refrigerant mixtures with oil mass concentrations of 0,25 and 0,45%. For each test condition was evaluated the coefficient of heat transfer and frictional pressure drop in the microchannel tube. The single phase results agree with typical correlations used in conventional tubes to evaluate the heat transfer and pressure drop in turbulent flow, even though the most of experimental date are 12% higher. The most of flow patterns in condensation were identified as annular using the flow patterns maps available on literature. This behavior was verified through pressure drop results, which show exclusive dependence on Martinelli Parameter. The heat transfer results show that the main heat transfer mechanism was convective, typical in annular flow. The results of condensation were correlated from empirical approachs using the Martinelli parameter and the equivalent mass velocity concept. And, also a semi-empirical approach modeling the annular flow to evaluate the mechanism of heat transfer through the liquid film around the wall of the tube. Finally, the experimental results and the results obtained through the models were compared with correlations referred to microchannels available on the literature.

Coefficient of heat transfer

Coeficiente de transferência de calor

Condensação

Condensation

Escoamento bifásico

Micro canais

Microchannels

Oil

Óleo

Perda de carga

Pressure drop

Refrigerant

Refrigerantes

Two phase flow

Estudo da condensação de refrigerantes halogenados e suas misturas com óleo de lubrificação no interior de micro canais / Condensation study of halogen refrigerants and mixtures with lubricant oil in microchannel tubes

Williams Gonzales Mamani

26 October 2001

A presente pesquisa envolve um estudo teórico-experimental da transferência de calor e da perda de carga na condensação e no escoamento monofásico de fluidos refrigerantes halogenados no interior de lâminas com micro canais. Os ensaios consideram o fluido refrigerante puro R-134-a e a mistura quase azeotrópica R-410A. As lâminas estudadas envolvem micro canais de seção quadrada de Dh = 1,214 mm e de seção circular de Dh = 1,494 mm. Os ensaios de líquido subresfriado compreendem velocidades mássicas de 390 a 1360 Kg/sm2 para um temperatura de saturação de 40ºC e subresfriamento de 10ºC. Por sua parte, os ensaios foram realizados considerando um fluxo de calor constante de 5 kW/m2, títulos de vapor de 0,1 a 0,9, velocidades mássicas de 410 a 1135 kg/sm2, temperaturas de saturação de 40 a 50ºC e misturas óleo-refrigerante com concentrações de óleo em massa de 0,25 e 0,45%. Para cada condição de ensaio foram avaliados o coeficiente de transferência de calor e a queda de pressão por atrito na lâmina ensaiada. Os resultados para escoamento monofásico apresentaram consistência com relação às correlações típicas aplicáveis a transferência de calor e perda de carga para regime turbulento em tubos convencionais, apresentando, em média, valores de 12% superiores. Na maioria das condições de ensaios de condensação, segundo mapas de escoamento disponíveis na literatura, foi identificado o domínio do padrão estreitamento anular. Este comportamento foi aferido pelos resultados experimentais de perda de carga mostrando dependência quase exclusiva do parâmetro de Martinelli, e o mecanismo conectivo como principal mecanismo de transferência de calor, característico no padrão anular. Os resultados de condensação foram correlacionados a partir de abordagens empíricas em função do parâmetro de Martinelli e o conceito de velocidade mássica equivalente. Assim como, a partir de uma abordagem semi-empírica considerando um modelo anular que permite avaliar os mecanismos principais de transferência de calor e quantidade de movimento, avaliando a espessura do filme de líquido na parede do canal. Finalmente, os resultados experimentais e os obtidos a partir das correlações desenvolvidas são comparados com estudos disponíveis na literatura relativos a lâminas com micro canais. / This project involves a theoretical-experimental study of heat transfer and pressure drop in condensation and single phase flow of halogen refrigerants in microchannel tubes. The tests include the pure refrigerant R-134a and quasi azeotropic mixture R-410A. The microchannel tubes tested include one with square ports of Dh = 1,214 mm and other with circular port of Dh = 1,494 mm. The subcooled liquid tests considered the mass velocities of 390 to 1360 kg/sm2, the saturation temperature of 40ºC and subcooled of 10ºC. The condensing tests considered a constant heat flux of 5 kW/m2, vapor quality of 0,15 to 0,9, mass velocities of 410 to 1135 kg/sm2, saturation temperature of 40 to 50ºC and oil-refrigerant mixtures with oil mass concentrations of 0,25 and 0,45%. For each test condition was evaluated the coefficient of heat transfer and frictional pressure drop in the microchannel tube. The single phase results agree with typical correlations used in conventional tubes to evaluate the heat transfer and pressure drop in turbulent flow, even though the most of experimental date are 12% higher. The most of flow patterns in condensation were identified as annular using the flow patterns maps available on literature. This behavior was verified through pressure drop results, which show exclusive dependence on Martinelli Parameter. The heat transfer results show that the main heat transfer mechanism was convective, typical in annular flow. The results of condensation were correlated from empirical approachs using the Martinelli parameter and the equivalent mass velocity concept. And, also a semi-empirical approach modeling the annular flow to evaluate the mechanism of heat transfer through the liquid film around the wall of the tube. Finally, the experimental results and the results obtained through the models were compared with correlations referred to microchannels available on the literature.

Coeficiente de transferência de calor

Condensação

Escoamento bifásico

Micro canais

Óleo

Perda de carga

Refrigerantes

Coefficient of heat transfer

Condensation

Microchannels

Oil

Pressure drop

Refrigerant

Two phase flow

Výpočtové hodnocení konstrukčních staviv na energetickou náročnost budovy / Computational assessment of structural building materials in terms of energy performance of the building

Křenek, Daniel

January 2018

Theme of the diploma thesis is computational assessment of structural building materials in terms of energy performance of the building. The history and types of the objects with low energy performance are described. There are listed elements of constructionally energetic concept with low energy performance and overview of building materials used for their construction. In the practical part a selected building was tested for energy performance by legislation. Then two structural material solutions on selected detached house are compared by using a simulation program.

Optimalizace lehkého šikmého střešního pláště k redukci letních tepelných zisků / Optimization of a lightweight pitched roof in order to reduce summer heat gains

Svobodová, Sylvia

January 2020

The thesis deals with the topic of overheating of attic rooms during the summer period. In vast majority of family houses and apartment houses with inhabited attic spaces is the roof solved as lightweight. This kind of roof assembly is not able to sufficiently resist the summer boundary conditions and leads to increased heat gains in the interior. In this work, the attention is drawn entirely to the heat penetration through the roof. Different aspects of passive cooling were applied to the roof and the impact of each change was assessed. This concerns the color of the tiles, thermal accumulation, reflective surfaces and the ventilated air layer. The temperature and velocity profiles in the ventilated cavity were monitored and an analysis of the ventilated cavity efficiency was conducted. For individual analyses was used software – based on the principles of the Finite Element Method or the dynamic simulation software. Also other methods were employed: long-term measurement of temperatures on roof models; short-term measurement of surface temperature of various kinds of roof tiles; and laboratory measurement of reflexivity. Also the effect of insect grilles on the air flow is discussed; which was tested on a ventilator track. In this publication are explained the principles of natural convection; boundary layers and the theory of the coefficient of heat transfer. This work includes a standard of the precise calculation methodology for ventilated roofs which was developed for the purpose of creating a user-friendly guide. The results of individual analyses show, a definitely positive effect of the ventilated cavity on the heat gain reduction of attic rooms. The current technical solution of a roof ridge provides the exhaust of the water vapor from a roof assembly; but for providing ventilation for reducing heat gains is insufficient. This lead to a concept of an innovative roof ridge design which enhances the air exchange between the cavity and outdoor environment.

Velkoplošné systémy pro vytápění a chlazení / Heating and cooling systems

Pavlíček, Radek

Unknown Date

The topic of this diploma thesis is large area heating and cooling systems. Theoretical part of this thesis is focused on thermal comfort of people in interier and on theoretical calculation of heat transfer and on large area heating and cooling systems. Second part is devided to two variants. First variant is design of a heating system in kindergarden with floor heating combined with plate heating radiators. Second variant is heating system with only plate heating radiators. As source of heat is used condensing gas boiler. Part of a design is preparation of hot water. Experimental part of the thesis contains measurements of coefficient of heat transfer in floor heating and wall heating.

Návrh vytápění a ohřevu teplé vody v rodinném domě / Design of a space and DHW heating system for a detached dwelling

Záboj, Jakub

January 2011

The thesis aims to propose a system for heating and hot water for a family house, according to drawings supplied by the building architect. At the request of the investor as the primary object will be considered a variant of underfloor heating. For comparing the heat loss, economic and possibly to State subsidies system selected will be processed by an alternative option to the ventilation air heating. Underfloor heating and hot air are among the low-temperature heating system, which can use low temperature heat sources, such as heat pumps. This assumption corresponds to investor requests, the source of heat in a family house with a heat pump and gas boiler. For hot water will be used as an alternative to a fireplace in the living room. To use the results of the thesis is to calculate the heat loss and heat, according to current standards include design and hot-water heating system including hot-drawing documentation. Finally, the economic evaluation of different alternatives in terms of investment and operating costs.