Transport analysis in tokamak plasmas / Analyse de transport dans des plasmas de tokamak

Moradi, Sara

23 July 2010

In this thesis we mainly focus on the study of the turbulent transport of impurity particles in the plasma due to the electrostatic drift wave microinstabilities. In a fusion reactor, the helium produced as a result of the fusion process is an internal source of impurity. Moreover, impurities are released from the material surfaces surrounding the plasma by a variety of processes: by radiation from plasma, or as a result of sputtering, arcing and evaporation. Impurities in tokamak plasmas introduce a variety of problems. The most immediate effect is the radiated power loss (radiative cooling). Another effect is that the impurity ions produce many electrons and in view of the operating limits on density and pressure, this has the effect of replacing fuel ions. For example, at a given electron density, $n_{e}$, each fully ionized carbon ion (used in the wall materials in the form of graphite) replaces six fuel ions, so that a 7\\% concentration of fully ionized carbon in the plasma core, would reduce the fusion power to one half of the value in a pure plasma. Therefore, for all tokamaks it become an immediate and continuing task to reduce impurities to acceptably low concentrations. However, the presence of impurities, with control, can be beneficial for the plasma performance and reduction of strong plasma heat loads on the plasma facing walls. The radiative cooling effect which was mentioned above can be used at the edge of the plasma in order to distribute the plasma heat more evenly on the whole surface of the vessel walls and therefore, reduce significantly plasma heat bursts on the small regions on the divertor or limiter tiles. The experiments at TEXTOR show that the presence of the impurities at the plasma edge can also improve the performance and reduce the turbulent transport across the magnetic field lines. The observed behavior was explained trough the proposed mechanism of suppression of the most important plasma drift wave microinstability in this region, namely, the Ion Temperature Gradient mode (ITG mode) by the impurities. The impurity's positive impact on the plasma performance offered a possibility to better harness the fusion power, however, it is vital for a fusion reactor to have feedback controls in order to keep impurities at the plasma edge and limit their accumulation in the plasma core where the fusion reactions are happening. In order to have control over the impurity transport we first need to understand different mechanisms responsible for its transport. <p><p>One of the least understood areas of the impurity transport and indeed any plasma particle or heat transport in general, is the turbulent transport. Extensive efforts of the fusion plasma community are focused on the subject of turbulent transport. Motivated by the fact that impurity transport is an important issue for the whole community and it is an area which needs fundamental research, we focused our attention on the development of turbulent transport models for impurities and their examination against experiments. In a collaboration effort together with colleagues (theoreticians as well as experimentalist) from different research institutes, we tried to find, through our models, physical mechanisms responsible for experimental observations. Although our main focus in this thesis has been on the impurity transport, we also tried a fresh challenge, and started looking at the problem of drift wave turbulent transport in a different framework all together. Experimental observation of the edge turbulence in the fusion devices show that in the Scrape of Layer (SOL: the layer between last closed magnetic surface and machine walls) plasma is characterized with non-Gaussian statistics and non-Maxwellian Probability Distribution Function (PDF). It has been recognized that the nature of cross-field transport trough the SOL is dominated by turbulence with a significant ballistic or non-local component and it is not simply a diffusive process. There are studies of the SOL turbulent transport using the 2-D fluid descriptions or based on probabilistic models using the Levy statistics (fractional derivatives in space). However, these models are base on the fluid assumptions which is in contradiction with the non-Maxwellian plasmas observed. Therefore, we tried to make a more fundamental study by looking at the effect of the non-Maxwellian plasma on the turbulent transport using a gyro-kinetic formalism. We considered the application of fractional kinetics to plasma physics. This approach, classical indeed, is new in its application. Our aim was to study the effects of a non-Gaussian statistics on the characteristic of the drift waves in fusion plasmas.<p><p>Ce travail de thèse porte sur le transport turbulent d'impuretés dans les plasmas de fusion<p>par confinement magnétique. C'est une question de la plus haute importance pour le développement<p>de la fusion comme source d'énergie. En effet, une accumulation d'impuretés au coeur<p>du plasma impliquerait des pertes d'énergie par radiation, conduisant par refroidissement à<p>l'extinction des réactions de fusion. Il est par contre prévu d'injecter des impuretés dans le<p>bord du plasma, afin d'extraire la chaleur par rayonnement sans endommager les éléments de<p>la première paroi. Ces contraintes contradictoires nécessitent un contrôle précis du transport<p>d'impuretés, afin de minimiser la concentration d'impuretés au coeur du plasma tout en la<p>maximisant au bord. Une très bonne connaissance de la physique sous-jacente au transport<p>est donc indispensable. L'effet de la turbulence, principal mécanisme de transport, sur les impuretés<p>est alors une question centrale. Dans cette thèse, un code numérique, AFC-FL, a été développé sur la base d'une approche ``fluide' linéaire pour la turbulence d'ondes de dérive. Il calcule les taux de croissance qui caractérisent la rapidité de l'amorçage des instabilités. L'analyse de stabilité est complétée par l'évaluation des taux de croissance en présence d'un gradient de densité, un cisaillement magnétique ou un nombre arbitraire de différentes espèces d'impureté. Les formules complètes du flux turbulent d'impuretés pour ces taux de croissance calculés des instabilités des ondes de dérive ont été dérivées. Un modèle de transport anormal qui nous permet d'étudier la dépendence du transport en fonction de la charge d'impureté a été développé. Ce modèle prend en compte les effets collisionnels entre les ions, l'impureté et les particules principales de plasma. Une telle dépendence du transport anormal en fonction de la charge de l'impureté est observée dans les expériences et il a été montré que les résultats obtenus sont en bon accord avec les observations expérimentales. Nous avons également étudié l'effet des impuretés sur le confinement de l'énergie dans les plasmas du tokamak JET. La modélisation de transport a été exécutée pour des plasmas avec injection de néon dans la périphérie du tokamak. Cette technique est utilisée afin d'extraire la chaleur par rayonnement sans endommager la paroi et pour réduire certaines instabilités (ELM). Des simulations du code RITM ont été comparées à des mesures effectuées lors d'expériences au JET. Il a été montré que l'injection de néon mène toujours à une dégradation du confinement par rapport aux décharges sans néon. Cependant, l'augmentation de la charge effective, en raison du presence du néon peut diminuer le taux de croissance d'autres instabilité (ITG) et amèliorer le confinement du coeur du plasma. Ce confinement amélioré du coeur peut alors compenser la dégradation au bord et le confinement global du plasma peut s'améliorer. <p> / Doctorat en sciences, Spécialisation physique / info:eu-repo/semantics/nonPublished

Physique

Sciences exactes et naturelles

Plasma (Ionized gases)

Plasma arc melting

Plasma (Gaz ionisés)

Fusion plasma

Impurity

impureté

Tokamak

Transport

Fusion

Plasma

Losses of heat and particles in the presence of strong magnetic field perturbations

Gupta, Abhinav

20 January 2009

Thermonuclear fusion has potential to offer an economically, environmentally and socially acceptable supply of energy. A promising reactor design to execute thermonuclear fusion is the toroidal magnetic confinement device, tokamak. The tokamak still faces challenges in the major areas which can be categorised into confinement, heating and fusion technology. This thesis addresses the problem of confinement, in particular the role of transport along magnetic field lines perturbed by diverse MHD instabilities.<p><p>Unstable modes such as ideal ballooning-peeling, tearing etc. break closed magnetic surfaces and destroy the axisymmetry of the magnetic configuration in a tokamak, providing deviation of magnetic field lines from unperturbed magnetic surfaces. Radial gradients of plasma parameters have nonzero projections along such lines and drive parallel particle and heat flows which contribute to the radial transport. Such transport can significantly affect confinement as this takes place by the development of neoclassical tearing modes (NTMs) in the core and edge localised modes (ELMs) at the plasma periphery.<p><p>In this thesis, transport of heat through non-overlapped magnetic island chains is first investigated using the 'Optimal path' approach, which is based on the principal of minimum entropy production. This model shows how the effective heat conduction through islands increases with parallel heat conduction and with the perturbation level. A more standard analytical approach for the limit cases of "small" and "large" islands is also presented. Transport of heat through internally heated magnetic islands is next investigated by further development of the 'Optimal path' method. In addition the approach by R. Fitzpatrick, has been extended for this investigation. By application of these approaches to experimental observations made at TEXTOR tokamak, heat flux limit, limiting parallel heat conduction in low collisional plasmas, is elucidated.<p><p>Models to study transport of heat and particles due to ELMs have also been developed. Energy losses during ELMs have been estimated considering contribution from parallel conduction due to electrons and parallel convection of ions, with constant level of the magnetic field perturbation, steady profiles for density and temperature, and by accounting for the heat flux limit. The estimate shows good agreement with experimental observations. The model is developed further by accounting for the time evolution of the perturbation level due to ballooning mode, and of density and temperature profiles. / Doctorat en Sciences / info:eu-repo/semantics/nonPublished

Physique

Sciences exactes et naturelles

Nuclear fusion

Tokamaks

Magnetohydrodynamic instabilities

Plasma (Ionized gases)

Fusion nucléaire

Tokamaks

Instabilités magnétohydrodynamiques

Plasma (Gaz ionisés)

plasma physics

tokamaks

Optical-Based Microsecond Latency MHD Mode Tracking Through Deep Learning

Wei, Yumou

January 2024

Active feedback control in magnetic confinement fusion devices is desirable to mitigate plasma instabilities and enable robust operation. Among various diagnostics, optical high-speed cameras provide a powerful, non-invasive diagnostic and can be suitable for these applications. This thesis reports the first application of high-speed imaging videography and deep learning as real-time diagnostics of rotating MHD modes in a tokamak device. The developed system uses a convolutional neural network (CNN) to predict the amplitudes of the ?=1 sine and cosine mode components using solely optical measurements acquired from one or more cameras. Using the newly assembled high-speed camera diagnostics on the High Beta Tokamak – Extended Pulse (HBT-EP) device, an experimental dataset consisting of camera frame images and magnetic-based mode measurements was assembled and used to develop the mode-tracking CNN model. The optimized models outperformed other tested conventional algorithms given identical image inputs. A prototype controller based on a field-programmable gate array (FPGA) hardware was developed to perform real-time mode tracking using the high-speed camera diagnostic with the mode-tracking CNN model. In this system, a trained model was directly implemented in the firmware of an FPGA device onboard the frame grabber hardware of the camera’s data readout system. Adjusting the model size and its implementation-related parameters allowed achieving an optimal trade-off between a model’s prediction accuracy, its FPGA resource utilization and inference speed. Through fine-tuning these parameters, the final implementation satisfied all of the design constraints, achieving a total trigger-to-output latency of 17.6 ?s and a throughput of up to 120 kfps. These results are on-par with the existing GPU-based control system using magnetic sensor diagnostic, indicating that the camera-based controller will be capable to perform active feedback control of MHD modes on HBT-EP.

Plasma (Ionized gases)

Physics

Artificial intelligence

Computer engineering

Deep learning (Machine learning)

Tokamaks

Field programmable gate arrays

High-speed video recording

Efeito das temperaturas de têmpera e de revenido na resistência à corrosão da camada martensítica de alto nitrogênio produzida por SHTPN sobre o aço AISI 409

Berton, Elisiane Maria

25 April 2014

CNPq, CAPES, FINEP / Devido à alta resistência a corrosão, os aços inoxidáveis possuem uma larga aplicabilidade em diversos setores industriais, seja indústria química, petroquímica ou alimentícia. Buscando atender solicitações ainda mais severas, métodos que melhorem a relação resistência à corrosão e propriedades mecânicas destes aços tem sido objeto de estudo de diversos pesquisadores. Com o objetivo de aumentar a resistência mecânica, dureza superficial e resistência à corrosão dos aços inoxidáveis propôs-se a introdução de nitrogênio em solução sólida pelo processo de SHTPN (Solution Heat Treatment after Plasma Nitriding), em desenvolvimento no GrMaTS/UTFPR. O nitrogênio apresenta algumas vantagens como a redução da tendência à precipitação, e a estabilização da camada passiva. Além disso, o nitrogênio reage na área anódica, o que neutraliza o efeito da acidez melhorando assim a resistência a corrosão. Neste trabalho avaliou-se a resistência à corrosão do aço inoxidável ferrítico AISI 409, após a obtenção de uma camada martensítica enriquecida com nitrogênio em solução solida por meio do processo SHTPN. Em seguida foram avaliados os efeitos da temperatura de revenimento (200, 400 e 600 °C) e da temperatura de austenitização (950 e 1050 °C) na microestrutura, dureza e resistência à corrosão da camada martensítica obtida. A resistência à corrosão foi avaliada pela técnica de polarização cíclica em solução de NaCl 0,5 mol/L e os perfis de dureza obtidos por medição de dureza Vickers com carga de 0,05 Kgf (0,49 N). A microestrutura foi avaliada por Microscopia Óptica, Eletrônica de Varredura e por Difração de Raios-X. Os resultados indicam que o tratamento de SHTPN promoveu a formação de uma camada martensítica de nitrogênio, com consequente acréscimo de dureza de 160 HV para 580 HV. O tratamento têmpera após SHTPN não afetou significativamente a dureza do aço, contudo, refinou e melhorou a distribuição da martensita de nitrogênio. Os resultados de corrosão para as condições tratadas e revenidas a 200 °C indicam resistência à corrosão superior ou equivalente à da ferrita do material não tratado (AISI 409). Já as amostras revenidas nas temperaturas de 400 e 600 °C apresentaram um decréscimo na resistência à corrosão, bem como foi observada uma diminuição da dureza da amostra revenida a 600 °C. / Due to high corrosion resistance, stainless steels have a wide applicability in many industrial sectors, such as, chemical, petrochemical and food industries. With the demand for corrosion resistance materials becoming more stringent, methods that improve the relation corrosion resistance and mechanical properties of these steels has been studied by many researchers. In order to increase the mechanical strength, surface hardness and corrosion resistance of stainless steels we proposed the introduction of nitrogen in solid solution by the process of SHTPN (Solution Heat Treatment after Plasma Nitriding), under development in GrMaTS/UTFPR . Nitrogen in solid solution has some advantages over materials that have only carbon in the structure such lower tendency for precipitation and stabilization of the passive layer. In addition, the nitrogen reacts in the anodic area, which neutralizes the effect in the acidity thus improving the corrosion resistance. This research evaluate the corrosion resistance of ferritic stainless steel AISI 409, after obtaining a martensitic layer enriched with nitrogen, in solid solution, by SHTPN process. Effects of tempering temperature (200, 400 and 600 °C) and austenitization temperature (950 to 1050 °C) in the microstructure, hardness and corrosion resistance of martensitic layer obtained. Corrosion resistance was evaluated by cyclic polarization technique, with a NaCl solution 0.5 mol/L, and hardness profiles obtained by measuring the Vickers hardness with a load of 0.05 kgf (0.49 N). Samples microstructure was investigated by optical microscopy, scanning electron microscopy and X- ray diffraction. Results indicate that the treatment of SHTPN promoted the formation of a martensitic nitrogen layer, with consequent increase of hardness of 160 HV to 580 HV on sample surface. Tempering treatments, realized after SHTPN did not significantly affect the hardness of steel, however, has refined and improved the distribution of nitrogen martensite. Corrosion results of sample treated and annealed at 200 °C indicate higher or equal resistance to that of the untreated ferrite materials (AISI 409) corrosion. Samples that were annealed at temperatures of 400 and 600 °C showed a decrease in the corrosion resistance as well as a decrease in hardness was observed in the sample tempered at 600 °C.

Aço

Aço inoxidável

Nitruração

Plasma (Gases ionizados)

Aço - Tratamento térmico

Corrosão e anticorrosivos

Engenharia mecânica

Steel

Steel, Stainless

Nitriding

Plasma (Ionized gases)

Steel - Heat treatment

Corrosion and anti-corrosives

Mechanical engineering

Efeito das temperaturas de têmpera e de revenido na resistência à corrosão da camada martensítica de alto nitrogênio produzida por SHTPN sobre o aço AISI 409

Berton, Elisiane Maria

25 April 2014

CNPq, CAPES, FINEP / Devido à alta resistência a corrosão, os aços inoxidáveis possuem uma larga aplicabilidade em diversos setores industriais, seja indústria química, petroquímica ou alimentícia. Buscando atender solicitações ainda mais severas, métodos que melhorem a relação resistência à corrosão e propriedades mecânicas destes aços tem sido objeto de estudo de diversos pesquisadores. Com o objetivo de aumentar a resistência mecânica, dureza superficial e resistência à corrosão dos aços inoxidáveis propôs-se a introdução de nitrogênio em solução sólida pelo processo de SHTPN (Solution Heat Treatment after Plasma Nitriding), em desenvolvimento no GrMaTS/UTFPR. O nitrogênio apresenta algumas vantagens como a redução da tendência à precipitação, e a estabilização da camada passiva. Além disso, o nitrogênio reage na área anódica, o que neutraliza o efeito da acidez melhorando assim a resistência a corrosão. Neste trabalho avaliou-se a resistência à corrosão do aço inoxidável ferrítico AISI 409, após a obtenção de uma camada martensítica enriquecida com nitrogênio em solução solida por meio do processo SHTPN. Em seguida foram avaliados os efeitos da temperatura de revenimento (200, 400 e 600 °C) e da temperatura de austenitização (950 e 1050 °C) na microestrutura, dureza e resistência à corrosão da camada martensítica obtida. A resistência à corrosão foi avaliada pela técnica de polarização cíclica em solução de NaCl 0,5 mol/L e os perfis de dureza obtidos por medição de dureza Vickers com carga de 0,05 Kgf (0,49 N). A microestrutura foi avaliada por Microscopia Óptica, Eletrônica de Varredura e por Difração de Raios-X. Os resultados indicam que o tratamento de SHTPN promoveu a formação de uma camada martensítica de nitrogênio, com consequente acréscimo de dureza de 160 HV para 580 HV. O tratamento têmpera após SHTPN não afetou significativamente a dureza do aço, contudo, refinou e melhorou a distribuição da martensita de nitrogênio. Os resultados de corrosão para as condições tratadas e revenidas a 200 °C indicam resistência à corrosão superior ou equivalente à da ferrita do material não tratado (AISI 409). Já as amostras revenidas nas temperaturas de 400 e 600 °C apresentaram um decréscimo na resistência à corrosão, bem como foi observada uma diminuição da dureza da amostra revenida a 600 °C. / Due to high corrosion resistance, stainless steels have a wide applicability in many industrial sectors, such as, chemical, petrochemical and food industries. With the demand for corrosion resistance materials becoming more stringent, methods that improve the relation corrosion resistance and mechanical properties of these steels has been studied by many researchers. In order to increase the mechanical strength, surface hardness and corrosion resistance of stainless steels we proposed the introduction of nitrogen in solid solution by the process of SHTPN (Solution Heat Treatment after Plasma Nitriding), under development in GrMaTS/UTFPR . Nitrogen in solid solution has some advantages over materials that have only carbon in the structure such lower tendency for precipitation and stabilization of the passive layer. In addition, the nitrogen reacts in the anodic area, which neutralizes the effect in the acidity thus improving the corrosion resistance. This research evaluate the corrosion resistance of ferritic stainless steel AISI 409, after obtaining a martensitic layer enriched with nitrogen, in solid solution, by SHTPN process. Effects of tempering temperature (200, 400 and 600 °C) and austenitization temperature (950 to 1050 °C) in the microstructure, hardness and corrosion resistance of martensitic layer obtained. Corrosion resistance was evaluated by cyclic polarization technique, with a NaCl solution 0.5 mol/L, and hardness profiles obtained by measuring the Vickers hardness with a load of 0.05 kgf (0.49 N). Samples microstructure was investigated by optical microscopy, scanning electron microscopy and X- ray diffraction. Results indicate that the treatment of SHTPN promoted the formation of a martensitic nitrogen layer, with consequent increase of hardness of 160 HV to 580 HV on sample surface. Tempering treatments, realized after SHTPN did not significantly affect the hardness of steel, however, has refined and improved the distribution of nitrogen martensite. Corrosion results of sample treated and annealed at 200 °C indicate higher or equal resistance to that of the untreated ferrite materials (AISI 409) corrosion. Samples that were annealed at temperatures of 400 and 600 °C showed a decrease in the corrosion resistance as well as a decrease in hardness was observed in the sample tempered at 600 °C.

Aço

Aço inoxidável

Nitruração

Plasma (Gases ionizados)

Aço - Tratamento térmico

Corrosão e anticorrosivos

Engenharia mecânica

Steel

Steel, Stainless

Nitriding

Plasma (Ionized gases)

Steel - Heat treatment

Corrosion and anti-corrosives

Mechanical engineering

Modificação da superficie de filmes de PMMA via polimerização por plasma de CHF3 / Surface modification of PMMA films by CHF3 plasma polymerization

Giacon, Virginia Mansanares

07 June 2004

Orientador: Julio Roberto Bartoli / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Quimica / Made available in DSpace on 2018-08-04T22:28:46Z (GMT). No. of bitstreams: 1 Giacon_VirginiaMansanares_M.pdf: 2837652 bytes, checksum: cc8b7a2c68b1b5f694c6e06c1feb5bfb (MD5) Previous issue date: 2004 / Resumo: Materiais poliméricos são alternativas aos materiais inorgânicos na fabricação de dispositivos ópticos como guias de ondas e fibras ópticas (POF) para transmissão de luz ou sinal. Isso porque, a estrutura molecular dos polímeros pode ser modelada com versatilidade, contribuindo para obter materiais com índices de refração (?) distintos, baixo custo e fácil processamento. Esses dispositivos são constituídos basicamente de um núcleo e uma camada externa, casca ou cladding. Os materiais para casca são usualmente à base de polímeros fluorados. Neste trabalho estudou-se a modificação de superfície de filmes de poli (metacrilato de metila), PMMA, utilizando-se a técnica de Polimerização por Plasma de gás fluorado. Filmes de PMMA com espessuras de 60 µm foram obtidos por spin coating a partir de uma solução de MIBK e Xileno (30% em massa de PMMA). Seguindo dois planejamentos fatoriais, em diferentes condições de pressão (0,5 a 2 torr) e potência (60 a 150 W), os filmes foram expostos ao plasma de CHF3. As superfícies desses filmes foram caracterizadas através de espectroscopia no infravermelho (FTIR/ATR), ângulo de contato de molhamento, microscopia de força atômica (AFM), espectroscopia XPS e análise gravimétrica. A fluoração da superfície dos filmes de PMMA expostos ao plasma foi confirmada por análises de XPS (razão atômica F/C=1,12) e pelo aumento do ângulo de contato de 700(PMMA original) para 100°. O planejamento fatorial mostrou que a pressão é um fator significante (95% confiança) no seu nível mínimo (0,5 torr) para aumentar o ângulo de contato. Análises via FTIR-ATR mostraram alterações nas intensidades de absorção dos grupos C=O e C-O do PMMA, diminuindo significativamente a razão C=O/C-O após o plasma. Análises de AFM mostraram um tolerável aumento da rugosidade da superfície dos filmes após o tratamento. A espessura da camada fluorada, estimada por gravimetria, foi de aproximadamente 0,11 µm. Essa camada deve apresentar um índice de refração menor que o PMMA, inferido pelo alto teor de flúor na superfície dos filmes, determinado pelas análises XPS / Abstract: Polymeric materials are alternative to inorganic materials for production of optical devices as waveguides and optical fibers (POF) for light transmission. This because the molecular structure of polymers can be versatile modeled, giving materials with different refractive indices, low cost and easy processing. These devices are basically consisted by core with an external layer, cladding, of low refractive index (?) allowing light propagation into the core. The cladding materials are usually made of fluorinated polymers. In this work the surface modification of Poly (methylmethacrylate), PMMA, was studied using the plasma polymerization technique. Polymeric films of 60µm thickness were obtained by spin coating using a solution of MIBK and Xylene (30 wt% PMMA). The films were exposed to CHF3 plasma. The processing conditions followed two factorial experimental designs for gas pressure (0.5 - 2 torr) and plasma power (60 - 120 W). The surfaces of the films were characterized using infrared spectroscopy (FTIR/ A TR), contact angle of wetting, atomic force microscopy, XPS spectroscopy and gravimetry. The surface fluorination of PMMA films was confirmed by XPS analysis and also inferred due to the increase on contact angle from 70° (PMMA original) to 100°. The factorial analysis indicated that pressure is a significant factor to increase the contact angle at the lower level 0.5 torr (95% of confidence). FTIR/ATR analysis showed significant alteration on the absorbance intensity of the C=O/C-O groups after plasma. AFM topography analysis showed a tolerable increase on roughness of the surface of plasma exposed films. The thickness of the fluorinated layer was approximately 0.11 µm (estimated by gravimetry). This fluorinated layer should have lower refractive index than the PMMA, due to the high fluorine content on the film surface (F/C ratio), measured by XPS analysis / Mestrado / Ciencia e Tecnologia de Materiais / Mestre em Engenharia Química

Filmes finos - Propriedades óticas

Polimerização em plasma

Polímeros - Propriedades óticas

Plasma de baixa temperatura

Plasma (Gases ionizados)

Thin films - Optical properties

Plasma (Ionized gases)

Plasma polymerization

Polymers - Optical properties

Plasmas, Low temperature

Estudo das variaveis de fluoração via plasma na deposição e crescimento de polimero parcialmente fluorado sobre filmes de PMMA / Study of plasma fluorination variables for deposition and growth of partially fluorinated polymer on PMMA films

Padilha, Giovana da Silva, 1976-

02 February 2006

Orientador: Julio Roberto Bartoli / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Quimica / Made available in DSpace on 2018-08-06T09:00:39Z (GMT). No. of bitstreams: 1 Padilha_GiovanadaSilva_M.pdf: 1555922 bytes, checksum: 035b74427e55cfdd28217830ff384c88 (MD5) Previous issue date: 2005 / Resumo: Dispositivos ópticos poliméricos têm sido promissores para aplicação em comunicações, principalmente na utilização em redes de curta distância devido ao fácil processamento e baixo custo quando comparado aos materiais ópticos fabricados com sílica. Na fabricação de um dispositivo óptico é imprescindível que o índice de refração do núcleo seja maior do que o da casca para que o sinal seja transmitido pelo dispositivo. Algumas técnicas de tratamento superficiais são muito comuns para obter diferentes índices de refração entre os materiais, entre elas a fluoração por plasma, seja por reações de deposição ou substituição, formando-se uma camada de polímero fluorado sobre um substrato polimérico com índice de refração modificado. Neste trabalho, estudou-se a modificação da superfície de filmes de poli (metacrilato de metila) (PMMA), usando a técnica de polimerização por plasma de gás fluorado. Filmes de PMMA com espessura de 1 O _m foram obtidos por Spin-Coating a partir de uma solução de clorofórmio (15,36% em massa de PMMA). Os filmes foram expostos ao plasma de CHF3 seguindo dois planejamentos fatoriais em diferentes níveis de pressão e tempo. A superfície dos filmes ópticos fluorados produzidos foi caracterizada através das técnicas: gravimetria, espectroscopia no infravermelho (FTIR-A TR), ângulo de contato de molhamento, microscopia óptica, microscopia eletrônica de varredura (MEV), microscopia de força atômica (AFM) e perfilometria. A fluoração da superfície dos filmes de PMMA pode ser inferida pelo aumento do ângulo de contato em todas as condições experimentais e confirmadas através das análises de FTIR-A TR. As análises gravimétricas apresentaram aumento da camada fluorada sobre o filme de PMMA em toàas as condições de processo, estimando a maior espessura próxima a 1,55 _m em 0,7 torr e 40 minutos de plasma. A análise estatística mostrou que a pressão e o tempo foram variáveis significativas (95% de confiança) para o crescimento de camada polimérica fluorada. Análises de MEV apresentaram uma camada fluorada bem definida e presença do elemento flúor com a análise de EDS. A rugosidade dos filmes ópticos fluorados foi de 200 Á, bastante satisfatório para cladding com 1,55 _m de espessura / Abstract: Polymeric optical devices have been promising for application in communications, mainly for local networks due to easy processing and low cost compared to the optical materials made silica. In the production of an optical device it is indispensable the difference between the refraction index of the core and the cladding. The refractive index of the core should be larger than the one of the cladding so that the signal is transmitted by the device. Some techniques of surface treatment are very common to obtain different refractive index among the materials, among them plasma fluorination that either allow deposition reaction of a layer of fluorinated polymers the substrate with refractive index modified. In this work, it was studied the modification of the surface of poly (methyl methacrylate) (PMMA) films, with the technique of plasma polymerization. Films of PMMA with thickness of 1 O _m were obtained by Spin-Coating starting from a chloroform solution (15.36% wt% PMMA). The films were exposed to the plasma of CHF3 following two factorial experimental designs at different levels of pressure and time. The surface of the films was characterized through the techniques: gravimetry, infrared spectroscopy (FTIR-ATR), contact angle of wetting, optical microscopy, scanning electron microscopy (SEM), atomic force microscopy (AFM) and scan profile. The surface fluorination of PMMA films can be inferred by the increase of the contact angle in all of the experimental conditions and confirmed with the analyses of FTIR-ATR. Gravimetry showed an increase of the layer of fluorinated polymer onto PMMA films, being 1.55 _m the largest thickness at 0.7 torr and 40 minutes of plasma. The factorial analysis showed that pressure and time were significant (95% of confidence) for the growth of the fluorinated polymeric layer. Analyses of SEM showed a layer of fluorinated polymer well defined and presence of the fluorine element by EDS analysis. The roughness of the films fluorinated polymers was around of 200 A, quite satisfactory for cladding of 1.55 micro m of thickness / Mestrado / Ciencia e Tecnologia de Materiais / Mestre em Engenharia Química

Filmes finos - Propriedades óticas

Plasma (Gases ionizados)

Polimerização em plasma

Polímeros - Propriedades óticas

Plasma de baixa temperatura

Thin films - Optical properties

Plasma (Ionized gases)

Plasma polymerization

Polymers - Optical properties

Plasmas, Low temperature

Modelling of atmospheric pressure argon plasmas: application to capacitive RF and surface microwave discharges

Pencheva, Mariana

01 July 2013

This work is focused on modelling of atmospheric pressure high frequency (HF) discharges operated at relatively low power densities. Two types of devices are considered – the radio frequency capacitively coupled atmospheric pressure plasma jet and the microwave discharge sustained by surface electromagnetic waves. They are addresses as the plasma shower and the surface-wave discharge (SWD). Both of the considered devices operate in argon at atmospheric pressure (p = 1 bar). However, the difference in the frequency of the power coupling mechanism induces a big difference in plasma properties. This implies also that different modelling approaches have to be employed. / Doctorat en Sciences de l'ingénieur / info:eu-repo/semantics/nonPublished

Mécanique appliquée spéciale

Plasma electrodynamics

Plasma (Ionized gases)

Plasma chemistry

Electrodynamique des plasmas

Plasma (Gaz ionisés)

Plasmachimie

modelling

plasma physics

fluid dynamics

atmospheric pressure plasmas

high frequency discharges

electrodynamics

plasma chemical kinetics

Gyrokinetic large Eddy simulations / Simulation gyrocinétique des grandes échelles

Banon Navarro, Alejandro

25 October 2012

Le transport anormal de l’energie observé en régime turbulent joue un rôle majeur dans les propriétés de stabilite des plasmas de fusion par confinement magnétique, dans des machines comme ITER. En effet, la turbulence plasma est intimement corrélée au temps de confinement de l’energie, un point clé des recherches en fusion thermonucléaire.<p>Du point de vue théorique, la turbulence plasma est décrite par les équations gyrocinétiques, un ensemble d équations aux dérivées partielles non linéaires couplées. Par suite des très différentes échelles spatiales mises en jeu dans des conditions expérimentales réelles, une simulation numérique directe et complète (DNS) de la turbulence gyrocinétique est totalement hors de portée des plus puissants calculateurs actuels, de sorte que démontrer la faisabilité d’une alternative permettant de réduire l’effort numérique est primordiale. En particulier, les simulations de grandes échelles (”Large-Eddy Simulations” - LES) constituent un candidat pertinent pour permettre une telle r éduction. Les techniques LES ont initialement été développées pour les simulations de fluides turbulents à haut nombre de Reynolds. Dans ces simulations, les plus grandes échelles sont explicitement simulées numériquement, alors que l’influence des plus petites est prise en compte via un modèle implémenté dans le code.<p>Cette thèse présente les premiers développements de techniques LES dans le cadre des équations gyrocinétiques (GyroLES). La modélisation des plus petites échelles est basée sur des bilans d’énergie libre. En effet, l’energie libre joue un rôle important dans la théorie gyrocinétique car elle en est un invariant non lin éaire bien connu. Il est démontré que sa dynamique partage de nombreuses propriétés avec le transfert d’energie dans la turbulence fluide. En particulier, il est montré l’existence d’une cascade d énergie libre, fortement locale et dirigée des grandes échelles vers les petites, dans le plan perpendiculaire â celui du champ magnétique ambiant.<p>La technique GyroLES est aujourd’hui implantée dans le code GENE et a été testée avec succès pour les instabilités de gradient de température ionique (ITG), connues pour jouer un rôle crucial dans la micro-turbulence gyrocinétique. A l’aide des GyroLES, le spectre du flux de chaleur obtenu dans des simulations à très hautes résolutions est correctement reproduit, et ce avec un gain d’un facteur 20 en termes de coût numérique. Pour ces raisons, les simulations gyrocinétiques GyroLES sont potentiellement un excellent candidat pour réduire l’effort numérique des codes gyrocinétiques actuels. <p>/ Anomalous transport due to plasma micro-turbulence is known to play an important role in confinement properties of magnetically confined fusion plasma devices such as ITER. Indeed, plasma turbulence is strongly connected to the energy confinement time, a key issue in thermonuclear fusion research. Plasma turbulence is described by the gyrokinetic equations, a set of nonlinear partial differential equations. Due to the various scales characterizing the turbulent fluctuations in realistic experimental conditions, Direct Numerical Simulations (DNS) of gyrokinetic turbulence remain close to the computational limit of current supercomputers, so that any alternative is welcome to decrease the numerical effort. In particular, Large-Eddy Simulations (LES) are a good candidate for such a decrease. LES techniques have been devised for simulating turbulent fluids at high Reynolds number. In these simulations, the large scales are computed explicitly while the influence of the smallest scales is modeled.<p>In this thesis, we present for the first time the development of the LES for gyrokinetics (GyroLES). The modeling of the smallest scales is based on free energy diagnostics. Indeed, free energy plays an important role in gyrokinetic theory, since it is known to be a nonlinear invariant. It is shown that its dynamics share many properties with the energy transfer in fluid turbulence. In particular, one finds a (strongly) local, forward (from large to small scales) cascade of free energy in the plane perpendicular to the background magnetic field.<p>The GyroLES technique is implemented in the gyrokinetic code Gene and successfully tested for the ion temperature gradient instability (ITG), since ITG is suspected to play a crucial role in gyrokinetic micro-turbulence. Employing GyroLES, the heat flux spectra obtained from highly resolved direct numerical simulations are recovered. It is shown that the gain of GyroLES runs is 20 in terms of computational time. For this reason, Gyrokinetic Large Eddy Simulations can be considered a serious candidate to reduce the numerical cost of gyrokinetic simulations. / Doctorat en Sciences / info:eu-repo/semantics/nonPublished

Physique

Sciences exactes et naturelles

Nuclear fusion

Plasma (Ionized gases)

Plasma turbulence

Fusion nucléaire

Plasma (Gaz ionisés)

Plasma (Gaz ionisés) -- Turbulence

turbulence

simulations

gyrocinétique

plasma

simulations de grandes échelles

thermonuclear fusion

gyrokinetics

LES

Modélisation des détonations thermonucléaires en plasmas stellaires dégénérés: applications aux supernovae de types Ia / Modelling thermonuclear detonation waves in electron degenerate stellar plasmas: type Ia supernovae

El Messoudi, Abdelmalek

04 September 2008

Plusieurs évènements astrophysiques comme les novae, les supernovae de type Ia (SNeIa) et les sursauts X sont le résultat d'une combustion thermonucléaire explosive dans un plasma stellaire. Les supernovae comptent parmi les objets astrophysiques les plus fascinants tant sur le plan théorique que sur celui des observations. Au moment de l'explosion, la luminosité d'une supernova peut égaler celle de l'intégralité des autres étoiles de la galaxie. On admet aujourd’hui que les SNeIa résultent de l'explosion thermonucléaire d'une étoile naine blanche, un objet dense et compact composé de carbone et d'oxygène. Divers chemins évolutifs peuvent conduire à l’explosion de la naine blanche si celle-ci est membre d’un système stellaire binaire. Néanmoins, la nature du système binaire, les mécanismes d'amorçage et de propagation de la combustion thermonucléaire ainsi que le rapport carbone/oxygène au sein de l'étoile compacte ne sont pas encore clairement identifiés à ce jour. En ce qui concerne l’écoulement réactif, on invoque ainsi une détonation (Modèle sub-Chandrasekhar), une déflagration ou la transition d'une déflagration vers une détonation (Modèle Chandrasekhar). La détonation semble donc jouer un rôle prépondérant dans l'explication des SNeIa. <p>Les difficultés de modélisation des détonations proviennent essentiellement (i) de la libération d'énergie en plusieurs étapes, de l’apparition d’échelles de temps et de longueurs caractéristiques très différentes (ii) des inhomogénéités de densité, de température et de composition du milieu dans lequel se propage le front réactif et qui donnent naissance aux structures cellulaires et autres instabilités de propagation du front (extinctions et réamorçages locaux). <p>En plus de celles citées ci-dessus, deux autres difficultés majeures inhérentes à l'étude de ce mode de propagation dans les plasmas stellaires sont rencontrées :la complexité de l’équation d’état astrophysique et la cinétique nucléaire pouvant impliquer plusieurs milliers de nucléides couplés par plusieurs milliers de réactions. Ainsi, les premiers travaux impliquant une combustion thermonucléaire explosive ont été réalisés sur bases d'hypothèses simplificatrices comme l'équilibre nucléaire statistique instantané des produits de réactions ou l'utilisation d'un réseau réduit à une dizaine d'espèces nucléaires. Dans tous ces travaux, la détonation est assimilée à une discontinuité totalement réactive (détonation de Chapman-Jouguet ou CJ). La résolution de l'onde de détonation nécessite l'étude détaillée du processus nucléaire se déroulant dans la zone de réaction. Malheureusement, les supports de calculs actuels ne permettent pas encore ce type de simulations pour les détonations astrophysiques. Le modèle ZND qui constitue une description unidimensionnelle stationnaire de l’écoulement (plan ou courbé) constitue une excellente approximation de la réalité. <p>Notre travail réexamine les résultats des calculs des structures des ondes de détonations stellaires dans les conditions de température, de densité et de composition envisagées dans les travaux de ce type (détonation CJ et ZND) réalisés jusqu’à présent mais avec une équation d’état appropriée aux plasmas stellaires et une cinétique nucléaire nettement plus riche ;le plus grand réseau jamais utilisé pour ce genre d’études (333 noyaux couplés par 3262 réactions), prenant en compte les données les plus récentes de la physique nucléaire (vitesses de réaction et fonctions de partition)./Several astrophysics events like novae, supernovae and X burts, result from an explosive thermonuclear burning in stellar plasma. Type Ia Supernovae (SNeIa) count amoung the most fascinating stellar objects, they can be more brighter than an entire galaxy. Astrophysic works show that SNeIa may result from a thermonuclear explosion of a compact and dense star called carbon-oxygen white dwarf. The ignition stage and the propagation mode of the thermonuclear combustion wave are not identified yet. The Deflagration-to-Detonation Transition process (or "delayed detonation") sims to give the best overall agrements with the observations :detonations can play appart in SNeIa events. <p><p>Simulating thermonuclear detonations count same difficults. The most important are the burning length scales that spent over more than ten oders of magnitud, the nuclear kinetics that involve thousands of nuclids linked by thousands of nuclear reactions and the stellar plasma equation of state (EOS). Hydrodynamical simulations of detonation use very simplified ingedients like reduced reactions network and asymptotic EOS of completely electron degenerate stellar plasma.<p><p>Our work is the modelling of these detonations using more representative EOS of the stallar plasma that includs ions, electrons, radiation and electron-pistron pairs. We also use a more <p>detailed kinetic network, comprising 331 nuclids linked by 3262 capture and photodisintegration reactions, than those usualy employed.<p> <p> / Doctorat en Sciences / info:eu-repo/semantics/nonPublished

Sciences exactes et naturelles

Physique

Supernovae

Space plasmas

Detonation waves

Thermodynamics

Plasma (Ionized gases)

Supernovae

Plasmas cosmiques

Ondes de détonation

Thermodynamique

Plasma (Gaz ionisés)

stellar

explosion

thermonuclear

combustion

supernovae/detonation

dégénéré

stellaire

thermonucléaire

détonation

degenerate

supernovae