Estimating Thermal Conductivity and Volumetric Specific Heat of a Functionally Graded Material using Photothermal Radiometry

Koppanooru, Sampat Kumar Reddy

12 1900

Functionally graded materials (FGMs) are inhomogeneous materials in which the material properties vary with respect to space. Research has been done by scientific community in developing techniques like photothermal radiometry (PTR) to measure the thermal conductivity and volumetric heat capacity of FGMs. One of the problems involved in the technique is to solve the inverse problem, i.e., estimating the thermal properties after the frequency scan has been obtained. The present work involves finding the unknown thermal conductivity and volumetric heat capacity of the FGMs by using finite volume method. By taking the flux entering the sample as periodic and solving the discretized 1-D thermal wave field equation at a frequency domain, one can obtain the complex temperatures at the surface of the sample for each frequency. These complex temperatures when solved for a range of frequencies gives the phase vs frequency scan which can then be compared to original frequency scan obtained from the PTR experiment by using a residual function. Brute force and gradient descent optimization methods have been implemented to estimate the unknown thermal conductivity and volumetric specific heat of the FGMs through minimization of the residual function. In general, the spatial composition profile of the FGMs can be approximated by using a smooth curve. Three functional forms namely Arctangent curve, Hermite curve, and Bezier curve are used in approximating the thermal conductivity and volumetric heat capacity distributions in the FGMs. The use of Hermite and Bezier curves gives the flexibility to control the slope of the curve i.e. the thermal property distribution along the thickness of the sample. Two-layered samples with constant thermal properties and three layered samples in which one of the layer has varying thermal properties with respect to thickness are considered. The program is written in Fortran and several test runs are performed. Results obtained are close to the original thermal property values with some deviation based on the stopping criteria used in the gradient descent algorithm. Calculating the gradients at each iteration takes considerable amount of time and if these gradient values are already available, the problem can be solved at a faster rate. One of the methods is extending automatic differentiation to complex numbers and calculating the gradient values ahead; this is left for future work.

Volumetric specific heat

Volumetric heat capacity

Functionally Graded Materials

Brute force

Gradient descent

optimization

Heat -- Transmission.

Radiation -- Measurement.

Développement du modèle E-PPR78 pour prédire les équilibres de phases et les grandeurs de mélange de systèmes complexes d’intérêt pétrolier sur de larges gammes de températures et de pressions / Development of the E-PPR78 model in order to predict the phase equilibria and the mixing properties of complex systems of petroleum interest over wide ranges of temperature and pressure

Qian, Junwei

12 December 2011

Nous avons développé un modèle prédictif, utilisant le principe de contribution de groupes, pour prédire avec précision, le comportement des fluides pétroliers. Ce modèle baptisé PPR78 utilise l’équation d’état de Peng et Robinson et des règles de mélange de type Van der Waals avec un coefficient d’interaction binaire kij, dépendant de la température. De telles règles de mélange sont équivalentes à celles obtenues en combinant à compacité constante une fonction d’excès de type Van Laar et une équation d’état cubique.La première partie de cette étude a consisté à étendre le domaine d’application du modèle PPR78 aux systèmes contenant de l’eau, des alcènes et de l’hydrogène, en définissant six nouveaux groupes élémentaires. Une bonne précision du modèle est obtenue pour décrire les équilibres de phases de systèmes binaires impliquant ces constituants, notamment pour les systèmes présentant des diagrammes de phases de Type I et de Type II. Dans la deuxième partie l’ensemble des paramètres de groupes ont été réajustés, non seulement sur des données d’équilibres de phases mais également sur des données de grandeur de mélange. L’avantage de ce nouveau modèle E-PPR78 est qu’il permet de restituer les équilibres de phases avec une précision équivalente au modèle original et qu’il conduit à une très nette amélioration de la prédiction des enthalpies d’excès et des capacités calorifiques d’excès. / We have developed a predictive model, by means of a group contribution method, in order to predict with accuracy, the behavior of petroleum fluids. The model called PPR78 uses the Peng-Robinson equation of state and Van der Waals-type mixing rules with a temperature dependent binary interaction parameter kij. Such mixing rules are identical to those obtained by combining at constant packing fraction, a Van Laar-type excess function and a cubic equation of state.The first part of this study consisted in extending the application of the model PPR78 to systems containing water, alkenes and hydrogen, by defining six new elementary groups. The phase equilibria of binary systems involving these components are accurately described by the model, especially for the phase diagrams of Type I and Type II. In the second part, all the group parameters of the original model were re-fitted by using the phase equilibrium data, as well as the mixing property data. The advantage of this new model E-PPR78 is that it is capable to correlate the phase equilibria with an accuracy which is equivalent to the original model and it produces a very clear improvement in the prediction of excess enthalpies and excess heat capacities.

Equation d'état

Modèle prédictif

Méthode de contributions de groupes

Coefficient d'interaction binaire

Équilibre de phases

Enthalpie d'excés

Capacité calorifique d'excès

Equation of state

Predictive model

Group contribution method

Binary interaction parameter

Phase equilibrium

Excess enthalpy

Excess heat capacity

620

"Potencial estéreo-hidrofóbico e propriedades topológicas no enovelamento de proteínas". / Stereo-hydrophobic potential and topological properties in the protein folding

Tarragó, Maria Eulália Pinto

26 February 2003

O entendimento dos princípios básicos do enovelamento proteico pode conduzir a muitas aplicações importantes. Embora não se conheçam todos os aspectos significativos envolvidos neste problema, experimentos e aproximações teóricas têm produzido avanços relevantes na sua compreensão, como, por exemplo, o papel dominante das forças hidrofóbicas. Com o propósito de contribuir para a identificação de alguns parâmetros determinantes no processo de folding, o objetivo deste trabalho consiste em estudar o potencial estéreo-hidrofóbico (isto é, o potencial hidrofóbico e um conjunto de especificidades estéricas adequadas) relacionado ao processo de enovelamento de proteínas globulares, evidenciando o papel das restrições estéricas e as características topológicas do estado nativo. Para tanto, empregou-se um modelo simplificado em rede cúbica, estudando-se, através de simulações Monte Carlo, o comportamento de mais de 40 cadeias tipo-proteínas, que apresentam estados nativos caracterizados pelos seguintes parâmetros topológicos: ordem de contato, χ, ordem de longo alcance e número φ de estruturas tipo grande manivela. Claramente, os resultados das simulações para as cadeias com configurações nativas, caracterizadas por baixo valor de χ e elevado valor de φ, são bastante diferenciados daqueles obtidos para as cadeias que apresentam configurações nativas com χ elevado e φ pequeno, evidenciando que o potencial estéreo-hidrofóbico, adotado neste trabalho, permite relacionar os comportamentos termodinâmico e cinético da cadeia tipo-proteína com os atributos topológicos da configuração nativa correspondente. Adicionalmente, mostrou-se que as restrições estéricas consideradas introduzem fortes mudanças na atividade configuracional, aumentando a estabilidade do estado nativo, bem como alterando, drasticamente, a curva da capacidade térmica, em função da temperatura, em comparação com os resultados das simulações obtidos com o potencial hidrofóbico (sem restrições estéricas). / The understanding of the basic principles of the protein folding process may lead to very important applications. Although all significant aspects of this problem are not yet known, experimental and theoretical results have given important contribution on the subject, as, for instance, about the dominant role of the hydrophobic forces. In order to contribute to the identification of significant ingredients for the folding process, the main goal of this work consists in studying the stereo-hydrophobic potential (that is, the hydrophobic potential and a set of steric specificities) related to the folding process of globular proteins, revealing the importance of the steric constraints and the role of the native structure. A minimalist lattice model was employed for this purpose, and more than forty distinct protein-like chains were studied. These chains were designed based on native structures characterized by topological parameters as contact order, χ, long range order and number φ of crankshaft-like structures. The Monte Carlo simulation results show clearly that the folding process depends strongly on the topological attributes of the native structure: thermodynamical and kinetic behavior for chains designed from native structures, presenting smaller χ and higher φ, are very distinguishable from those with higher χ and lower φ. Additionally it was shown that the steric constraints significantly modify the configurational activity, increasing the general conditions for the globule stability, as well changing drastically the shape of the thermal capacity behavior, as a function of the temperature, in comparison with the corresponding results obtained using the hydrophobic potential only, i.e., without the steric specificities.

capacidade térmica

características geométricas

folding de proteínas

folding time

geometrical properties

heat capacity

lattice model

modelo em rede

potencial estéreo-hidrofóbico

propriedades termodinâmicas

propriedades topológicas

protein folding

stereo-hydrophobic potential

tempo de enovelamento

thermodynamic properties

topological properties

Physical and thermodynamic properties of aluminosilicate melts as a function of composition / Änderungen den thermodynamischen und physikalischen Eigenschaften von Silikatschmelzen in Abhängigkeit der Zusammensetzung

Falenty, Katarzyna

07 December 2007

No description available.

500 Naturwissenschaften

VHB 810

Mathematics and Natural Science

Aluminosilikatschmelze

Schermodul

Viskosität

Wärmekapazität

strukturelle Relaxation

Fließen von Silikatschmelzen

Schmelzstruktur

peralkalin

peraluminös

mechanische Spektroskopie

aluminosilicate

shear modulus

viscosity

heat capacity

melt flow

structural relaxation

melt structure

peralkaline

peraluminous

mechanical spectroscopy

38.30

Mesures de propriétés thermiques des métaux par procédé électromagnétique / Measurements of thermal properties of metals using electromagnetic process

Diarra, Alimata

20 July 2016

L’industrie de métallurgie est demandeuse de propriétés thermophysiques essentielles pour la modélisation et l’optimisation des procédés d’élaborations.Les propriétés thermophysiques des métaux et des alliages métalliques à l’état liquide sont mal connues. Ces propriétés dépendent de la température et sont difficiles à mesurer surtout à haute température. A l’état liquide, le métal est réactif et facilement polluable. Dans les années 1980, Egry a développé un lévitateur électromagnétique TEMPUS pour mesurer en apesanteur sans contact matériel les propriétés thermophysiques des métaux et alliages en fusion. Dans l’espace, les effets du brassage électromagnétique et de la déformation des échantillons fondus sont beaucoup plus faibles que sur terre.L’emploi de cet outil spatial est coûteux. C’est pour, à terme, diminuer les coûts tout en maintenant voire améliorant la qualité des mesures, que nous avons souhaité remplacer la microgravité par un champ magnétique continu.Les travaux réalisés dans cette thèse consistent à mesurer les propriétés thermiques des métaux par procédé électromagnétique en utilisant une méthode de calorimétrie modulée.Elle comporte deux parties.-Une partie numérique dans laquelle nous avons simulé d’une part le lévitateur spatial TEMPUS et d’autre part le lévitateur terrestre AEXAM.La simulation du lévitateur spatial TEMPUS a pour but de déterminer l’effet de la superposition de courants inducteurs de fréquences différentes (courants de chauffage et de centrage) sur les comportements hydrodynamique et thermique de la goutte. Les résultats des calculs nous ont montré que le courant de centrage est susceptible d’agir sur les mesures.La simulation du lévitateur terrestre AEXAM consiste à déterminer la fréquence d’oscillation verticale de la goutte, la puissance Joule dissipée dans celle-ci, les champs de vitesse et de température. La goutte prend la forme d’une poire et elle oscille à une fréquence de 7 Hz. La puissance Joule dissipée dans la charge est maximale vers le bas de la charge dans les premiers millimètres à mi-hauteur entre l’équateur et le pôle. Elle diminue en pénétrant dans la charge et est nul sur l’axe de symétrie. La convection dans la goutte crée un brassage électromagnétique et homogénéise le champ de température.-Une partie expérimentale dans laquelle le lévitateur AEXAM a été placé dans un champ magnétique continu horizontal pour amortir l’oscillation verticale et le brassage électro-magnétique de la goutte mentionnée dans les calculs. Ceci nous a permis la mise en œuvre d’un protocole de mesure original sur un métal liquide. Ce protocole est un programme de traitement des donnés basé sur le comportement du champ de température lorsque les sources thermiques internes à l’échantillon sont instationnaires. Dans ce programme, nous avons utilisé une fonction d’identification qui permet d’obtenir un modèle mathématique à partir de mesures. Pour obtenir un modèle mathématique consistant, il est important d'exciter le système avec toutes les fréquences de sa plage de fonctionnement. C’est ce que nous faisons quand nous appliquons un bruit blanc sur la consigne d’entrée du générateur. Nous avons précédemment validé le protocole sur du solide en remontant aux valeurs de la capacité calorifique et de la conductivité thermique.Pour optimiser les pertes de masse, les instabilités sur les mesures du courant inducteur et la bonne reproductivité des mesures sur une goutte, nous avons choisi une masse initiale de 3,5 g pour faire les mesures avec modulation du courant inducteur dans un champ magnétique continu de 1 Tesla. Nous avons obtenu les valeurs de la capacité calorifique et de la conductivité thermique de la goutte. Celles-ci sont voisines des valeurs données par la littérature. Ce qui nous a permis de valider en partie le protocole de traitement des mesures.Dans le futur, ce protocole peut être appliqué sur des alliages métalliques. / The metal industry is requesting essential thermophysical properties for modeling and optimizing elaboration processes.Thermophysical properties of metals and metal alloys in liquid state are well known. These properties depend on the temperature and are difficult to measure especially at high temperature. In the liquid state, the metal is reactive and easily contaminated .In the 1980s, Egry developed an electromagnetic levitator TEMPUS developed an electromagnetic levitator TEMPUS to measure thermophysical properties of molten metals and alloys using a contactless technique under microgravity conditions. In space, the effects of electromagnetic stirring and deformation in molten samples are much lower than on Earth.The use of this space tool is expensive. In order to reduce the cost while maintaining or even improving the quality of measurements, we wanted to replace microgravity by a continuous magnetic field.The work in this thesis includes measuring the thermal properties of metals by electromagnetic method using a modulated calorimetry technique.The work has been divided in two parts:-The first consisted in the numerical simulation of space levitator TEMPUS and a terrestrial levitator AEXAM.The numerical simulation of space levitator TEMPUS aims to determine the effect of the superposition currents of different induction frequencies (heating currents and centering) on the hydrodynamic and thermal behavior of the drop. Calculation results showed that in some cases the centering current is likely to act on the measures and therefore it should be taking into account.The numerical simulation of terrestrial levitator AEXAM was destined to determine the vertical oscillation frequency of the drop, the power dissipated, the velocity fields developed inside and temperature. The drop takes the form of a pear and oscillates at a frequency of 7 Hz. The Joule power dissipated in the load is maximum on the lower part of the drop and decreases towards the interior of the drop vanishing at the center. Convection in the drop creates an electromagnetic stirring and homogenizing the temperature field.-The second part present the experiments performed using the levitator AEXAM placed in a horizontal continuous magnetic field for dampening the vertical oscillation and the turbulence produced by the effect of the electromagnetic stirring as it was mentioned in the calculations.This allowed us the implementation of a new protocol for measuring thermal properties in liquid metals.The protocol is a post processing program based on the temperature field variation resulting from unsteady joule power dissipation in the charge. An implemented identification function provides a mathematical model based on performed measurements. The use of a wide range of system frequencies was required to obtain a robust mathematical model. This was achieved by using pseudo-white noise perturbation at the generator inlet. The program has been validated successfully on solid matter by reverse determination of thermal conductivity and heat capacity.The preliminary studies under continuous magnetic field without modulation have mounted for a maximum initial weight of 3.5, we have less mass loss and improved measurement stability of the inductor current, as well as the reproductivity of the measurements.The protocol was validated successfully on the liquid charge using modulated perturbation under a continuous magnetic field of 1 Tesla. The obtained values of the heat capacity and thermal conductivity were comparable to the values given by the literature which partially validates the protocol.As a perspective, this protocol can be applied to a wide range of metal alloys.

Procédé électromagnétique

Thermique industrielle

Calorimétrie

Champ magnétique continu

Capacité calorifique

Conductivité thermique

Induction

Electromagnetic process

Industrial thermal

Calorimetry

Induction

DC magnetic field

Heat Capacity

Thermal conductivity

620

Untersuchungen der Wärmekapazität von Nanopartikeln und Multilagen mit der nanokalorimetrischen Methode / Heat capacity of nanoparticles and multilayers studied by the nanocalorimetric method

Franke, Emanuel

30 May 2018

No description available.

530

Physik (PPN621336750)

Nanokalorimeter

Wärmekapazität

Größeneffekt

Nanopartikel

Finite-Elemente Analyse

Thermische Analyse

MEMS

Thermischer Emissionsgrad

Nanocalorimetry

Heat Capacity

Size Effect

Nanoparticles

Finite-Element Analysis

Thermal Analysis

MEMS

Thermal Emissivity

Contributions à l'étude thermomécanique des alliages à mémoire de forme NiTi et à la réalisation par soudage de matériaux architecturés NiTi / From the thermal and kinematical full-field measurements to the analysis of deformation mechanisms associated with the superelasticity of polycrystalline nickel-titanium shape memory alloys

Delobelle, Vincent

13 December 2012

Les alliages à mémoire de forme Nickel Titane sont des matériaux aux propriétés remarquablesdues à une transformation martensitique réversible et sont largement utiliséspar l’industrie biomédicale et dans des dispositifs de type actionneurs. La première partiede cette étude porte sur une analyse de leur comportement thermomécanique basée surla réalisation de mesures de champs cinématiques (par corrélation d’images visibles) etthermiques (par caméra infrarouge). Une part importante du travail présenté concernel’amélioration des calculs de sources de chaleur à partir des champs de température. Pource faire, les capacités et conductivités thermiques des phases austénitique et martensitiqueont été estimées par différentes méthodes expérimentales. Ensuite, la méthode de calcul desource a été validée sur des données virtuelles obtenues numériquement et sur des donnéesexpérimentales obtenues lors d’une transformation martensitique induite par un refroidissementnaturel. Cette première partie se conclut par l’application des développements àdes mesures réalisées lors d’un essai de cisaillement. La seconde partie est une contributionà la réalisation de matériaux architecturés constitués d’empilement de tubes de NiTi liésentre eux ; notre étude concerne la réalisation et la caractérisation de liaisons de tubes deNiTi par soudage résistif. / NiTi shape memory alloys have amazing properties due to a reversible martensitictransformation and are widely used by biomedical industries and as actuators. The firstpart of this study deals is a thermomechanical analysis of the material, based on kinematical(with digital image correlation) and thermal (with infrared camera) field measurements.An important part of this work deals with the improvement of the heat sources estimationfrom thermal fields. For this, thermal heat capacities and conductivities of austeniteand martensite were estimated with several experimental methods. Then, the heat sourceestimation method was validated from virtual data obtained numerically and from experimentaldata obtained during a martensitic transformation induced by natural cooling.This first part is concluded with the use of this technique to study shear tests. The secondpart of this study is a contribution to the realization of architectured materials composedof linked stacked tubes. Our study deals with the realization and the characterization ofthe NiTi link, realized by resistance welding.

Alliage à mémoire de forme

NiTi

Sources de chaleur

Capacité thermique

Conductivité thermique

Comportement thermomécanique

Essai de cisaillement

Soudage résistif

Matériaux architecturés

Shape memory alloys

NiTi

Heat sources

Thermal heat capacity

Thermal conductivity

Thermomechanical behavior

Shear test

Resistance welding

Architectured materials

620

Solução do problema de mudança de fase através do método dos elementos finitos

Siqueira, Géssica Lacerda

13 July 2017

Submitted by Renata Lopes (renatasil82@gmail.com) on 2017-11-07T12:20:00Z No. of bitstreams: 1 gessicalacerdasiqueira.pdf: 2914379 bytes, checksum: 13b701ceac7f6562db4c0a3167e60c32 (MD5) / Approved for entry into archive by Adriana Oliveira (adriana.oliveira@ufjf.edu.br) on 2017-11-09T14:37:17Z (GMT) No. of bitstreams: 1 gessicalacerdasiqueira.pdf: 2914379 bytes, checksum: 13b701ceac7f6562db4c0a3167e60c32 (MD5) / Made available in DSpace on 2017-11-09T14:37:17Z (GMT). No. of bitstreams: 1 gessicalacerdasiqueira.pdf: 2914379 bytes, checksum: 13b701ceac7f6562db4c0a3167e60c32 (MD5) Previous issue date: 2017-07-13 / Processos de transferência de calor com mudança de fase são de interesse em várias áreas da ciência, engenharia e aplicações industriais. Em processos de solidificação, por exemplo, a ocorrência de trincas e formações de vazios causados por uma redução na capacidade de resistir a esforços mecânicos geralmente são observados, e é de grande importância prever esses comportamentos para que possam ser evitados. Uma das formas de se estudar esses fenômenos e suas aplicações é através do uso de modelos matemáticos que possibilitam, através do uso de métodos de discretização temporal e espacial a realização de simulações computacionais. Dessa forma, este trabalho estudou e comparou diferentes formulações numéricas do método dos elementos finitos para problemas de transferência de calor com mudança de fase levando em consideração a condução como mecanismo de transferência de calor. Na metodologia usada, os processos de solidificação ou fusão foram tratados por meio de métodos baseados em malhas fixas. Diversos experimentos numéricos foram realizados para se analisar a adequabilidade dos métodos estudados e propostos neste trabalho e os resultados obtidos foram satisfatórios. / Heat transfer processes with phase change are of great interest in several areas of science, engineering and industrial applications. In some of these applications, such as in solidification processes, the occurrence of cracks and void formation caused by a reduction in the ability of the material to resist mechanical loadings are generally observed, and it is of great importance to predict these behaviors so that they can be circumvented. One of the ways to study these phenomena and their applications is through the use of mathematical models and executing of computer simulations. Thus, this work studied and compared different numerical formulations of the finite element method for the heat transfer problems with phase change considering only conduction as the main mechanism of heat transfer. In the methodology used, the solidification or melting processes were treated by means of numerical methods based on fixed meshs. Several numerical experiments were performed to analyze the suitability of the methods studied and proposed in this work and the results were satisfactory.

CNPQ::CIENCIAS EXATAS E DA TERRA

Método dos elementos finitos

Método da capacidade efetiva

Método da entalpia

Heat transfer with phase change

Finite element method

Enthalpy method

Effective heat capacity method

"Potencial estéreo-hidrofóbico e propriedades topológicas no enovelamento de proteínas". / Stereo-hydrophobic potential and topological properties in the protein folding

Maria Eulália Pinto Tarragó

26 February 2003

O entendimento dos princípios básicos do enovelamento proteico pode conduzir a muitas aplicações importantes. Embora não se conheçam todos os aspectos significativos envolvidos neste problema, experimentos e aproximações teóricas têm produzido avanços relevantes na sua compreensão, como, por exemplo, o papel dominante das forças hidrofóbicas. Com o propósito de contribuir para a identificação de alguns parâmetros determinantes no processo de folding, o objetivo deste trabalho consiste em estudar o potencial estéreo-hidrofóbico (isto é, o potencial hidrofóbico e um conjunto de especificidades estéricas adequadas) relacionado ao processo de enovelamento de proteínas globulares, evidenciando o papel das restrições estéricas e as características topológicas do estado nativo. Para tanto, empregou-se um modelo simplificado em rede cúbica, estudando-se, através de simulações Monte Carlo, o comportamento de mais de 40 cadeias tipo-proteínas, que apresentam estados nativos caracterizados pelos seguintes parâmetros topológicos: ordem de contato, χ, ordem de longo alcance e número φ de estruturas tipo grande manivela. Claramente, os resultados das simulações para as cadeias com configurações nativas, caracterizadas por baixo valor de χ e elevado valor de φ, são bastante diferenciados daqueles obtidos para as cadeias que apresentam configurações nativas com χ elevado e φ pequeno, evidenciando que o potencial estéreo-hidrofóbico, adotado neste trabalho, permite relacionar os comportamentos termodinâmico e cinético da cadeia tipo-proteína com os atributos topológicos da configuração nativa correspondente. Adicionalmente, mostrou-se que as restrições estéricas consideradas introduzem fortes mudanças na atividade configuracional, aumentando a estabilidade do estado nativo, bem como alterando, drasticamente, a curva da capacidade térmica, em função da temperatura, em comparação com os resultados das simulações obtidos com o potencial hidrofóbico (sem restrições estéricas). / The understanding of the basic principles of the protein folding process may lead to very important applications. Although all significant aspects of this problem are not yet known, experimental and theoretical results have given important contribution on the subject, as, for instance, about the dominant role of the hydrophobic forces. In order to contribute to the identification of significant ingredients for the folding process, the main goal of this work consists in studying the stereo-hydrophobic potential (that is, the hydrophobic potential and a set of steric specificities) related to the folding process of globular proteins, revealing the importance of the steric constraints and the role of the native structure. A minimalist lattice model was employed for this purpose, and more than forty distinct protein-like chains were studied. These chains were designed based on native structures characterized by topological parameters as contact order, χ, long range order and number φ of crankshaft-like structures. The Monte Carlo simulation results show clearly that the folding process depends strongly on the topological attributes of the native structure: thermodynamical and kinetic behavior for chains designed from native structures, presenting smaller χ and higher φ, are very distinguishable from those with higher χ and lower φ. Additionally it was shown that the steric constraints significantly modify the configurational activity, increasing the general conditions for the globule stability, as well changing drastically the shape of the thermal capacity behavior, as a function of the temperature, in comparison with the corresponding results obtained using the hydrophobic potential only, i.e., without the steric specificities.

capacidade térmica

características geométricas

folding de proteínas

modelo em rede

potencial estéreo-hidrofóbico

propriedades termodinâmicas

propriedades topológicas

tempo de enovelamento

folding time

geometrical properties

heat capacity

lattice model

protein folding

stereo-hydrophobic potential

thermodynamic properties

topological properties

Studium tepelných poměrů a vhodných materiálů pro konstrukci energetického zásobníku pro dlouhodobé ukládání energie v podmínkách klimatu ČR / Study of thermal conditions and the appropriate materials for construction of the energy reservoir for long term storage in the conditions of climate CR

Bukvová, Veronika

January 2018

Presented work deals with appropriate ways of storing thermal energy and selection of materials for a high capacity storage unit. The thesis describes technologies currently used for long-term storage of thermal energy, the structural arrangement of the thermal unit, physical properties of the materials usable for construction of high-temperature storage units and the utilization of these materials. The thesis also describes the measuring procedure of the material characteristics and the method of evaluation. Size of the solar collector and the required volume of the storage for heat supplying of the selected building in the climatic conditions of the Czech Republic were designed.