Etiketovacie lepidlá so zvýšenou odolnosťou voči vlhkosti / Label Adhesives with Enhanced Humidity Resistance

Kotrlová, Janka

January 2013

The main topic of the thesis was to examine the hydrophobicity of labeling adhesives in the state before drying, it means their resistance against condensated moisture. The problem was solved by measuremensts of contact angle between the drop of water and glue. Measurements of dynamic viscosity and wet tack were also performed for the sake of complex characterization of the glue properties. Comparison of properties among single-component adhesives based on the acrylic copolymers alkalised with various agents was made. The impact of starches and industrial additives on glues was determined by the analysis of primary physical and chemical parameters. The purpose of the measurements was to develop a formula of the glue with enhanced atmospheric moisture resistance, that also would have the required parameters in the equilibrium. Finally, some selected glue samples were practically tested for condensation water resistance. These tests were performed in a climatic chamber with water condensating conditions.

Caracterização da condutividade térmica, viscosidade dinâmica e ângulo de contato para nanofluidos baseados em partículas de alumina-gama em água / Characterization of the thermal conductivity, dynamic viscosity and contact angle of nanofluids based on gama-alumina nanoparticles in water

Motta, Franciane de Campos

26 April 2012

Este trabalho trata da caracterização de propriedades termodinâmicas e de transporte de nanofluidos baseados em nanopartículas de alumina em água para diferentes concentrações. Suspensões estáveis foram elaboradas por meio de um agitador ultrassônico. As seguintes propriedades foram analisadas: i) condutividade térmica com o método da sonda-linear; ii) viscosidade dinâmica através do reômetro do tipo cone e placa e iii) ângulo de contato com base em registros fotográficos de gotas em uma superfície plana e o tratamento de imagem através de um programa elaborado em LabVIEW. Procedimentos foram utilizados visando validar os métodos experimentais adotados, entre eles a comparação com resultados para fluidos puros. Além do estudo experimental, foi realizada uma análise crítica da literatura sobre condutividade térmica e viscosidade dinâmica de nanofluidos. Com base nesta análise, os resultados experimentais foram comparados a dados empíricos da literatura e métodos de previsão de propriedades desenvolvidos para nanofluidos e para suspensões de particulado sólido em líquido. De uma maneira geral, os resultados levantados neste estudo para condutividade térmica e viscosidade dinâmica de nanofluidos foram significativamente superiores a maioria dos dados experimentais da literatura e aos resultados proporcionados pelos métodos de previsão. Entretanto, para nanofluidos com composições distintas de nanopartículas de alumina em água, comportamentos similares ao do presente estudo também são observados na literatura. No caso do ângulo de contato, verificou-se seu decréscimo com o incremento da concentração de nanopartículas. Tal resultado coincide com a bibliografia consultada, segundo a qual a molhabilidade do nanofluido se eleva com o incremento da concentração de nanopartículas. / The present study concerns the characterization of thermodynamic and transport properties of nanofluids based on alumina nanoparticles in deionized water. Stable suspensions were obtained using an ultrasonic homogenizer (Sonicator). The following properties were measured: i) thermal conductivity using the linear probe method, ii) dynamic viscosity through a cone-plate rheometer iii) contact angle, based on photographic of nanofluid drops on a flat surface and image processing through a program based on LabVIEW. The methods and experimental procedures were validated by performing measurements properties of pure fluids with well known characteristics. Besides the experimental study, it was performed a comprehensive literature review on thermal conductivity and dynamic viscosity of nanofluids. Experimental results were compared against the data from the literature and the respective predictive methods developed for suspensions of nanofluids and micro solid particles in liquid. Generally speaking, the nanofluid thermal conductivity and dynamic viscosity measured in the present study were higher than the empirical values from the literature and the values given by predictive methods. However, it should be highlighted that although for different compositions of nanofluids behaviors similar to the one observed in this study are also reported in the literature. In case of contact angle, it was found that its value decreases with increasing the nanoparticle volumetric concentration. Such results is coincident with literature reports according to which the nanofluid wettability, given in terms of the contact angle, increases with increasing the nanoparticle concentration.

Condutividade térmica

Dynamic viscosity

Nanofluidos

Nanofluids

Thermal conductivity

Viscosidade

Wettability contact angle

Caracterização da condutividade térmica, viscosidade dinâmica e ângulo de contato para nanofluidos baseados em partículas de alumina-gama em água / Characterization of the thermal conductivity, dynamic viscosity and contact angle of nanofluids based on gama-alumina nanoparticles in water

Franciane de Campos Motta

26 April 2012

Este trabalho trata da caracterização de propriedades termodinâmicas e de transporte de nanofluidos baseados em nanopartículas de alumina em água para diferentes concentrações. Suspensões estáveis foram elaboradas por meio de um agitador ultrassônico. As seguintes propriedades foram analisadas: i) condutividade térmica com o método da sonda-linear; ii) viscosidade dinâmica através do reômetro do tipo cone e placa e iii) ângulo de contato com base em registros fotográficos de gotas em uma superfície plana e o tratamento de imagem através de um programa elaborado em LabVIEW. Procedimentos foram utilizados visando validar os métodos experimentais adotados, entre eles a comparação com resultados para fluidos puros. Além do estudo experimental, foi realizada uma análise crítica da literatura sobre condutividade térmica e viscosidade dinâmica de nanofluidos. Com base nesta análise, os resultados experimentais foram comparados a dados empíricos da literatura e métodos de previsão de propriedades desenvolvidos para nanofluidos e para suspensões de particulado sólido em líquido. De uma maneira geral, os resultados levantados neste estudo para condutividade térmica e viscosidade dinâmica de nanofluidos foram significativamente superiores a maioria dos dados experimentais da literatura e aos resultados proporcionados pelos métodos de previsão. Entretanto, para nanofluidos com composições distintas de nanopartículas de alumina em água, comportamentos similares ao do presente estudo também são observados na literatura. No caso do ângulo de contato, verificou-se seu decréscimo com o incremento da concentração de nanopartículas. Tal resultado coincide com a bibliografia consultada, segundo a qual a molhabilidade do nanofluido se eleva com o incremento da concentração de nanopartículas. / The present study concerns the characterization of thermodynamic and transport properties of nanofluids based on alumina nanoparticles in deionized water. Stable suspensions were obtained using an ultrasonic homogenizer (Sonicator). The following properties were measured: i) thermal conductivity using the linear probe method, ii) dynamic viscosity through a cone-plate rheometer iii) contact angle, based on photographic of nanofluid drops on a flat surface and image processing through a program based on LabVIEW. The methods and experimental procedures were validated by performing measurements properties of pure fluids with well known characteristics. Besides the experimental study, it was performed a comprehensive literature review on thermal conductivity and dynamic viscosity of nanofluids. Experimental results were compared against the data from the literature and the respective predictive methods developed for suspensions of nanofluids and micro solid particles in liquid. Generally speaking, the nanofluid thermal conductivity and dynamic viscosity measured in the present study were higher than the empirical values from the literature and the values given by predictive methods. However, it should be highlighted that although for different compositions of nanofluids behaviors similar to the one observed in this study are also reported in the literature. In case of contact angle, it was found that its value decreases with increasing the nanoparticle volumetric concentration. Such results is coincident with literature reports according to which the nanofluid wettability, given in terms of the contact angle, increases with increasing the nanoparticle concentration.

Condutividade térmica

Nanofluidos

Viscosidade

Dynamic viscosity

Nanofluids

Thermal conductivity

Wettability contact angle

Dynamic viscosity, interfacial tension and mass diffusion coefficient of n-hexane, cyclohexane, 2-methylpentane and CO2 systems

Yan, Shaomin, Bi, Shengshan, Cui, Junwei, Meng, Xianyang, Wu, Jiangtao

05 March 2020

No description available.

info:eu-repo/classification/ddc/530

ddc:530

Experimentální stanovení mechanických ztrát turbodmychadla / Experimental Determination of Turbocharger Mechanical Losses

Kudláček, Petr

January 2020

This master’s thesis deals with mechanical losses in turbochargers. The theoretical part provides general information of the methods of support the turbocharger rotor, then focuses on hydrodynamic bearings. The thesis analyzes the occurrence of mechanical losses and the effects that affect them. An important part of this thesis focuses on the determination of mechanical losses and their possibilities. A test stand was compiled for the possibility of experimental measurement of mechanical losses. Several test measurements were performed on this test stand at different operating modes. Simultaneously, the determination of mechanical losses was performed using two other methods. Based on these measurements, it was also possible to perform an evaluation and analyze the occurrence of mechanical losses depending on the set operating conditions. A comparison of individual methods for determining mechanical losses performed in the experimental part was performed. At the end of the thesis, the possibilities of the test stand were defined based on the performed measurements.

Dynamická viskozita elektroizolačních kapalin / Dynamic viscosity of electroinsulating liquids

Míka, Petr

January 2013

This work deals with persepective environmentally friendly electroinsulating liquids. Important properties of currently used electroinsulating liquids are listed. Physical nature of viscosity of liquids and its temperature dependance are described and methods of its measuring are listed. Also temperature dependance of density is described from physical point of view. Measurement of density and of temperature dependance of viscosity of chosen vegetable and mineral oils was performed. On the basis of this measurement was calulated the activation energy of these samples. Two methods of dynamic viscosity measurement were used for some samples.

Stanovení viskozity pro různé typy splaškových vod / Determination of the viscosity of various types of wastewater

Glombová, Pavla

January 2015

The aim of this diploma thesis is a description of viscosity as a physical characteristic of liquids, next a description of projecting different types of sewer systems (pressure sewer system, vacuum sewer system and gravity sewer system). There was a range of density and viscosity of wastewater experimentally determined. These values were compared with ordinary values used in practice. The practical part of this work consists of sampling wastewater from different types of sewer systems and various localities. Chemical-biological analysis was realized on those samples with defined density, then dynamic viscosity was measured by the rotary viscometer for various temperatures. Measured data are evaluated. Finally, a calculation related to the design of sewers was made.

[en] EXPERIMENTAL INVESTIGATION ON THE VISCOSITY OF NANOFLUIDS IN THE LOW TEMPERATURE RANGE / [pt] INVESTIGAÇÃO EXPERIMENTAL DA VISCOSIDADE DE NANOFLUIDOS A BAIXAS TEMPERATURAS

GUILHERME CUNHA MAIA NOBRE

27 December 2017

[pt] O uso de nanofluidos na área de Termociências tem sido de grande interesse tendo em vista possibilitar uma melhora significativa na capacidade de transferência de calor em máquinas térmicas. Isto se deve em função da presença de partículas em suspensão com diâmetros menores que 100 nm que são dispersas em fluidos convencionais. Parâmetros como viscosidade e condutividade térmica são fatores determinantes no desempenho desses materiais como fluidos térmicos em diferentes aplicações. O presente trabalho teve como objetivo a realização de ensaios experimentais para determinação da viscosidade dinâmica e da tensão cisalhante de três nanofluidos com diferentes composições, sob condições de temperatura controlada (faixa de -10 graus Celsius a 30 graus Celsius). Dois parâmetros adicionais - taxa de cisalhamento e taxa de rotação - foram condicionantes nos ensaios. A montagem da bancada experimental foi realizada a partir do acoplamento de um viscosímetro rotativo com um banho termostático. As curvas obtidas mostraram incremento da viscosidade dinâmica com a temperatura para os nanofluidos em relação aos seus fluidos base. Houve também incremento da viscosidade relativa, sobretudo para temperaturas mais elevadas. Os nanofluidos apresentaram comportamento não newtoniano. Para elevadas taxas de cisalhamento, as medições de viscosidade tendem a valores constantes. Correlações entre viscosidade com temperatura e com taxa de cisalhamento foram construídas seguindo funções exponenciais decrescentes e de potência, respectivamente. Os resultados obtidos neste trabalho acrescentam conhecimento à literatura científica sobre a viscosidade e o comportamento reólógico de nanofluidos a baixas temperaturas. / [en] The use of nanofluids in the Thermosciences has been of great interest since it enables a substantial improvement in the heat transfer capacity in thermal machines. This is possible due to the presence particles in suspension, with diameters less than 100 nm, dispersed in conventional fluids. Parameters such as viscosity and thermal conductivity are determining factors in the performance of these materials as thermal fluids in different applications. The objective of the present work was to determine the dynamic viscosity and the shear stress of three distinct nanofluids under controlled temperature conditions (range -10 Celsius degrees to 30 Celsius degrees) at laboratory. In addition, shear rate and rotation rate were also conditioning parameters. The experimental apparatus was assembled coupling a viscometer with a thermal bath. The obtained results showed an increase of the dynamic viscosity with temperature for all nanofluids with respect to their base fluids. An increase of the relative viscosity was also observed especially at higher temperatures. The three nanofluids have shown a non-newtonian behavior. With high shear rates, the measured viscosities tended towards constant values. Curve adjustments were performed between viscosity vs temperature and viscosity vs shear rate using exponential decay function and the Power Law, respectively. The achievements of this research added scientific understanding about the viscosity and rheological behavior of nanofluids at low temperatures.

[pt] REOLOGIA

[en] RHEOLOGY

[pt] ENSAIO EXPERIMENTAL

[en] EXPERIMENTAL TEST

[pt] NANOFLUIDOS

[en] NANOFLUIDS

[pt] VISCOSIMETRO

[en] VISCOMETER

[pt] VISCOSIDADE DINAMICA

[en] DYNAMIC VISCOSITY

[pt] BANHO TERMOESTATICO

[en] THERMOSTATIC BATH

Diagnostika vlastností elektroizolačních kapalin / Diagnostics of electroinsulating liquids properties

Makówka, Tomasz

January 2010

The diploma thesis deals with the liquid insulators, their properties and their use in the electrical industry. The general aim is to study the physical essence of the dynamic viscosity, the electric conductivity and the diagnostic methods for monitoring these variables. The experimental part contains measuring the dynamic viscosity and the electric conductivity of the mineral transformer oils ESTO BNX, RENOLIN ELTEC and the biodegradable oil MIDEL 7131 during the degradation. The Walden rule is applied on measured results.

Diagnostika perspektivních elektroizolačních kapalin / Diagnostics of the perspective insulating liquids

Spohner, Milan

January 2011

This work deals with the classification and diagnosis of electrical insulating liquids. Furthermore, the theoretical part describes the mathematical and physical principles of these liquids. The automated workplace was compiled with development environment VEE Pro for measurement of viskosity and control thermostat medingen and modifiable components for measuring complex permittivity in the frequency range. In the experimental part was carried out measurements of selected material parameters, investigated the effect of difficult conditions and made the mathematical evaluation of physical phenomena.