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Caractérisation des interactions plasma/parois dans un disjoncteur haute tension / Characterization of plasma/walls interactions in an high voltage circuit breakerCourrege, Maeva 05 October 2017 (has links)
Les disjoncteurs à haute tension, présents dans le réseau électrique, permettent d'assurer en toute sécurité la distribution de l'électricité. Lorsqu'un défaut est détecté, ou lors d'une intervention de maintenance, l'ouverture des contacts électriques au sein du disjoncteur entraine l'apparition d'un arc électrique à ses bornes. La protection et la coupure ne seront effectives que lorsque l'arc électrique aura été coupé. De nombreux paramètres, géométriques et physiques entrent en jeu dans la capacité de coupure d'un disjoncteur. L'objectif de ces travaux de thèse consistait à analyser l'impact du plasma sur les différents matériaux constituant le disjoncteur. Une démarche purement théorique est abordée à travers l'utilisation du logiciel commercial ANSYS Fluent. Ces travaux sont menés en collaboration avec la société Siemens qui fournit les données expérimentales indispensables à la discussion et à la validation du modèle. Dans ce travail nous considérons dans un premier temps l'ablation des tuyères en téflon. Ce phénomène est pris en compte dans notre étude, au travers d'un modèle d'ablation basé sur la théorie de T. Christen. L'ablation des parois joue un rôle fondamental sur la montée en pression dans les volumes de chauffage, et a une incidence directe sur la réalisation de la coupure. Ainsi le rôle et la quantification des vapeurs de C2F4 sont discutés et détaillés. La deuxième interaction plasma/matériau qu'il convenait d'étudier est celle avec l'électrode mobile constituée d'un mélange tungstène cuivre. Cette interaction est rarement étudiée au niveau des travaux de la littérature. La mise en place nécessite le développement de modèles de sous couches, en proche voisinage de l'électrode, basés sur des balances d'énergie et de flux qui permettent de déterminer par des approches hors équilibre la température des électrodes et le taux de production de vapeurs. Sur une configuration réelle de disjoncteur les caractéristiques temporelles des grandeurs physiques (température, vitesses, pression) et électriques (courant, tension) sont présentées et discutées dans la phase fort courant. Nous concluons sur la nécessité de considérer l'ablation du C2F4 pour une bonne description de la montée en pression dans les volumes de chauffage car ils conditionnent le soufflage au moment du passage par le zéro du courant, et sur la nécessité de prendre en compte les vapeurs de cuivre car celles-ci sont présentes au passage par zéro du courant et conditionnent alors le pouvoir de coupure du disjoncteur. / High-voltage circuit breakers, present in the power grid, ensure in safety the electricity distribution. When an error is detected, or for a maintenance operation, the opening of the electrical contacts within the circuit breaker causes the appearance of an electric arc at its terminals. Protection and cut-off will only be effective if the electrical arc cut off. Many parameters, geometric and physical, are involved in the breaking capacity of a circuit breaker. The aim of this work is to analyze the impact of plasma on the various materials making up the circuit breaker. A purely theoretical approach is tackled through the use of the commercial software ANSYS Fluent. This work is carried out in collaboration with Siemens, which provides the experimental data necessary for the discussion and validation of the model. In this work, we first consider the ablation of teflon nozzles. This phenomenon is taken into account in our study, using an ablation model based on the theory of T. Christen. The ablation of the walls plays a fundamental role on the rise in pressure in the heating volumes, and has a direct effect on the cut-off realization. Thus, the role and quantification of C2F4 vapors are discussed and detailed. The second plasma / material interaction that should be studied is that with the mobile electrode made of a tungsten copper mixture. This interaction is rarely studied in the literature. The implementation requires the development of sub-layers models in the vicinity of the electrode, based on energy and flux balances, which make it possible to determine by non-equilibrium approaches the temperature of the electrodes and the rate of vapor production. On a real circuit breaker configuration, the temporal characteristics of the physical (temperature, velocities, pressure) and electrical (current, voltage) quantities are presented and discussed in the high current phase. We conclude on the need to consider the ablation of C2F4 for a good description of the rise in pressure in the heating volumes because they condition the blowing at the moment of current-zero and on the need to take into account the copper vapors because these are present at the zero crossing of the current and then condition the breaking capacity of the circuit breaker.
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Construção de uma tocha indutiva para obtenção de plasma térmico à pressão atmosférica. / Construction of a inductive torch to obtain thermal plasma at atmospheric pressure.Maurício Isoldi 17 December 2012 (has links)
Espectrometria de emissão óptica, utilizando plasmas acoplados indutivamente, torna-se uma ferramenta indispensável para análises de elementos químicos. Neste trabalho é descrita a construção detalhada de um oscilador de rádio frequência para obtenção de uma tocha de plasma indutivo. O projeto é estruturado a partir da elaboração da fonte retificadora, da malha de acoplamento, até a construção da tocha, além de análises com amostras líquidas e sólidas. Pelo fato de a tocha de plasma indutivo ser mais estável do que outros métodos de atomização, como laser ou chama, a torna uma escolha atraente para métodos analíticos, em vasta gama de aplicações. Os resultados do desempenho elétrico do oscilador de rádio frequência foram alcançados, embora as perdas sejam eminentes, foi obtida uma tensão na malha de acoplamento de 620 volts, potência na tocha de 1400 watts, e frequência do oscilador, com valor estável de 13,56 mega-hertz. Os resultados das análises também foi outro ponto de destaque, uma vez que, foi possível detectar através de um espectrômetro óptico, todos os elementos contidos numa solução de aço inox, tais como: silício, fósforo, manganês, molibdênio, cromo, níquel e cobre, embora os resultados quantitativos ainda necessitem de alguns ajustes. Com relação à análise de amostras sólidas, onde foram utilizados eletrodos consumíveis de alumínio e cobre, o resultado foi muito promissor, graças ao projeto da tocha que permite modificações em sua estrutura; os eletrodos consumíveis também foram analisados com as técnicas de difração de raio-X e microanálise por feixe de elétrons para confirmação dos resultados. / Optical emission spectrometry using inductively coupled plasma becomes an indispensable tool for analysis of chemical elements. This work describes the detailed construction of a radio frequency oscillator for obtaining an inductive plasma torch. The project is structured from the elaboration of the source rectifier, matching network, until the construction of the torch, and analyzes with liquid and solid samples. Because the inductive plasma torch to be more stable than other atomization methods such as laser or flame, becomes an attractive choice for analytical methods in wide range of applications. The results of the electrical performance of the radio frequency oscillator been achieved, although losses are distinguished was obtained at a voltage matching network 620 volts, the torch power of 1400 watts, and oscillator frequency, with a steady value of 13.56 mega-hertz. The results of analyzes was also another important point, since it was possible to detect through an optical spectrometer, all elements contained in a solution of stainless steel, such as silicon, phosphorus, manganese, molybdenum, chromium, nickel and copper, although the quantitative results still need some tweaking. Regarding the analysis of solid samples, which were consumable electrodes of aluminum and copper, the result was very promising, due to the torch project that allows modifications in its structure; consumable electrodes were also analyzed through the techniques x-ray diffraction and microanalysis by electron beam, to confirm the results.
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Conversor CC/CA de alta freq??ncia baseado em inversores ressonantes com comuta??o seq?encial para excita??o de uma tocha indutiva a plasma t?rmicoDubut, Jean Paul 15 July 2010 (has links)
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Previous issue date: 2010-07-15 / This work describes the study, the analysis, the project methodology and the constructive details of a high frequency DC/AC resonant series converter using sequential commutation techniques for the excitation of an inductive coupled thermal plasma torch. The aim of this thesis is to show the new modulation technique potentialities and to present a technological option for the high-frequency electronic power converters development. The resonant converter operates at 50 kW output power under a 400 kHz frequency and it is constituted by inverter cells using ultra-fast IGBT devices. In order to minimize the turn-off losses, the inverter cells operates in a ZVS mode referred by a modified PLL loop that maintains this condition stable, despite the load variations. The sequential pulse gating command strategy used it allows to operate the IGBT devices on its maximum power limits using the derating and destressing current scheme, as well as it propitiates a frequency multiplication of the inverters set. The output converter is connected to a series resonant circuit constituted by the applicator ICTP torch, a compensation capacitor and an impedance matching RF transformer. At the final, are presented the experimental results and the many tests achieved in laboratory as form to validate the proposed new technique / Este trabalho descreve o estudo, a an?lise, a metodologia de projeto e os detalhes de constru??o de um conversor ressonante CC/CA de alta freq??ncia usando t?cnicas de comuta??o seq?encial (sequential pulse gating), para a excita??o de uma tocha indutiva a plasma t?rmico. Esta tese objetiva mostrar a potencialidade desta nova t?cnica de modula??o e apresentar uma alternativa tecnol?gica para o projeto de conversores eletr?nicos de pot?ncia em altas freq??ncias. O conversor ressonante opera na freq??ncia nominal de 400 kHz, com pot?ncia de 50 kW, e ? constitu?do por c?lulas inversoras empregando chaves IGBTs de comuta??o r?pida. Para minimizar as perdas de comuta??o no corte, as c?lulas ressonantes operam no modo de chaveamento suave ZVS, referenciado por uma malha PLL modificada que mant?m esta condi??o est?vel apesar das varia??es de carga. A estrat?gia de comando por comuta??o seq?encial permite operar os dispositivos IGBTs no seu limite superior de pot?ncia usando as propriedades de redu??o (derating) e de al?vio (destressing) de corrente, assim como propicia um efeito de multiplica??o na freq??ncia final do conjunto de inversores. A sa?da do conversor ? conectada a um circuito ressonante s?rie formado pelo aplicador da tocha ICTP e um capacitor de compensa??o, por interm?dio de um transformador RF de adapta??o de imped?ncias. No final, s?o apresentados resultados experimentais e ensaios conduzidos em laborat?rio como forma de validar a nova t?cnica proposta
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Integrated CFD Model for Nanoparticle Production in Inductively Coupled Plasma Reactor: Implementation and ApplicationBenros Santos Lopes, Silvania 24 May 2016 (has links)
Nanoparticles represent a very exciting new area of research. Their small size, ranging from several nanometers to tens of nanometers, is responsible for many changes in the structural, thermal, electromagnetic, optical and mechanical properties in comparison with the bulk solid of the same materials. However, promoting the use of such material requires well-controlled synthesis techniques to be developed. Inductively coupled thermal plasma (ICTP) reactors have been shown to offer unique advantages over other synthesis methods. The purpose of this thesis is to develop a numerical model to assist the design of an ICTP reactor for the efficient and controlled production of nanoparticles at industrial scale. The complete model describes the evaporation of the micron-sized precursor particles in the plasma flow and the subsequent formation of the nanoparticles in the quenching reactor. The plasma flow is described by a coupled system of the fluid mechanics equations of continuity, momentum, and energy with the vector potential formulation of Maxwell's equations. The solid particles precursors are treated following a Lagrangian approach, taking into account the vapor production field in the plasma flow. An Eulerian model based on the method of moments with interpolative closure is used to describe the formation of nanoparticles by simultaneous nucleation and growth by condensation and coagulation. The coupled plasma torch, particle evaporation and nanoparticle formation models are implemented in 2D and 3D configurations, using the OpenFoam source code. The results show that the effects of the particle evaporation on the temperature field are substantial, even for low particle mass loading. The associated vapor concentration which enters in the reactor has then a direct influence on the formation of nanoparticles. The effects of the plasma torch parameters and the quenching configuration (quench type, position, injection angle and cooling rate) on the contribution of the different formation mechanisms and on the generated particle's size and distribution are studied in both 2D axi-symmetric and 3D geometries. The quench mechanism strongly affects the temperature and the vapor concentration in the reactor, and consequently has an impact on the final particle size distribution. It is shown that the size of the nanoparticles obtained for different quenching conditions is not only a consequence of the cooling rate but also of the trajectories of the vapor and the generated particles imposed by quenching gas. The results have also demonstrated that the predicted particle are smaller and more sensitive to the modifications of the quenching condition when quenching at high temperature. The sensitivity of the complete model to the physical properties of the vapor (vapor pressure and surface tension) is also investigated, in order to identify their effect on the final particle size. The results obtained provide an insight into the phenomena involved during the production of nanoparticles and enable the improvement of ICTP rectors design and nanoparticles synthesis process. / Doctorat en Sciences de l'ingénieur et technologie / info:eu-repo/semantics/nonPublished
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Caractérisation des interactions entre un plasma non-thermique et des matériaux / Characterization of interactions between a non-thermal plasma and materialsRodrigues, Anthony 08 November 2013 (has links)
L'étude des interactions entre les espèces actives générées par un plasma non thermique et diverses surfaces de matériaux font l'objet de ce travail.Dans un premier temps, des polymères provenant de la biomasse ont été le sujet de nos recherches. Ils représentent une source importante de molécules plateforme telle que le glucose à partir desquelles peuvent être générés des produits de haute valeur ajoutée. Plus précisément, les effets d'un plasma à décharge à barrière diélectrique sur la structure et la dépolymérisation de l'inuline, de la cellulose et de l'amidon ont été étudiés. Une variation des paramètres électriques et chimiques de la décharge plasma a été effectuée et leurs effets sur les biopolymères évalués afin de comprendre les mécanismes de réaction. Nos résultats ont montré qu'un traitement initial par le plasma permettait d'augmenter considérablement le rendement final en sucre monomère (fructose ou glucose) par rapport au même produit de départ non traité par le plasma (84 et 54% de glucose à partir réciproquement de l'amidon et de la cellulose traités par plasma, au lieu de 65 et 1 % pour les mêmes produits non traités). Cet effet pourrait être du en partie à une dépolymérisation par attaque acide induite au sein du plasma sur les zones amorphes des biopolymères.Dans un second temps, l'étude a porté sur l'élimination des COV par couplage plasma non-thermique et catalyseur. Pour cette étude, nous avons conçu et mis en oeuvre un appareillage original formé par un réacteur plasma-catalyseur permettant une analyse sous atmosphère contrôlée de la surface du catalyseur par spectroscopie IR (DRIFT). Cet appareillage a permis d'étudier la décomposition de quatre COV (isopropanol, acétone, éthanol et toluène) adsorbé sur différents oxydes métalliques (g-Al2O3, CeO2 et TiO2) placés dans la zone de décharge en temps réel (in-situ). Les premiers résultats ont permis d'élucider certaines voies de décomposition de ces différents COV. / The interactions between the active species generated by a non thermal plasma and various material surfaces have been studied in this work. In a first part, biopolymers coming from biomass have been the subject of our investigations as they offer a great reservoir for a platform molecule, glucose, from which valuable chemicals can be generated. More specifically, the effects of a dielectric barrier discharge plasma on the structure and depolymerization of inulin, cellulose and starch were evaluated. For that purpose, the electrical and chemical characteristics of the plasma discharge were varied and their effects on the biopolymers evaluated in order to understand the reaction mechanisms. Our results showed that a plasma pre-treatment increased considerably the final monomer yield (in glucose and fructose) compared to the untreated starting material (84 and 54 % yield in glucose from plasma treated starch and cellulose, instead of 65 and 1 % for the same untreated samples). This effect could be partly explained by the depolymerization of the amorphous areas of the polymers by and acid attack within the plasma discharge.In a second part, the study focused on the removal of VOCs by coupling non-thermal plasma and inorganic materials. For this purpose, we designed and implemented an innovative apparatus. It consists of a plasma-catalyst reactor with controlled atmosphere that allows the analysis of the catalyst surface by IR spectroscopy (DRIFT). The decomposition of four VOCs (isopropanol, acetone, ethanol and toluene) adsorbed on different metallic oxides (y-Al2O3, CeO2 and TiO2) placed within the discharge area have been studied in situ using this method. The first results have enlightened the decomposition pathways of the different VOCs.
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Non-thermal atmospheric pressure plasma for remediation of volatile organic compoundsAbd Allah, Zaenab January 2012 (has links)
Non-thermal plasma generated in a dielectric barrier packed-bed reactor has been used for the remediation of chlorinated volatile organic compounds. Chlorinated VOCs are important air pollutant gases which affect both the environment and human health. This thesis uses non-thermal plasma generated in single and multiple packed-bed plasma reactors for the decomposition of dichloromethane (CH2Cl2, DCM) and methyl chloride (CH3Cl). The overall aim of this thesis is to optimize the removal efficiency of DCM and CH3Cl in air plasma by investigating the influence of key process parameters. This thesis starts by investigating the influence of process parameters such as oxygen concentration, initial VOC concentration, energy density, and plasma residence time and background gas on the removal efficiency of both DCM and CH3Cl. Results of these investigations showed maximum removal efficiency with the addition of 2 to 4 % oxygen to nitrogen plasma. Oxygen concentrations in excess of 4 % decreased the decomposition of chlorinated VOCs as a result of ozone and NOx formation. This was improved by adding an alkene, propylene (C3H6), to the gas stream. With propylene additives, the maximum remediation of DCM was achieved in air plasma. It is thought that adding propylene resulted in the generation of more active radicals that play an important role in the decomposition process of DCM as well as a further oxidation of NO to NO2. Results in the single bed also showed that increasing the residence time increased the removal efficiency of chlorinated VOCs in plasma. This was optimized by designing a multiple packed-bed reactor consisting of three packed-bed cells in series, giving a total residence time of 4.2 seconds in the plasma region of the reactor. This reactor was used for both the removal of DCM, and a mixture of DCM and C3H6 in a nitrogen-oxygen gas mixture. A maximum removal efficiency of about 85 % for DCM was achieved in air plasma with the use of three plasma cells and the addition of C3H6 to the gas stream. Nitrogen oxides are air pollutants which are formed as by-products during the decomposition of chlorinated VOCs in plasmas containing nitrogen and oxygen. Results illustrate that the addition of a mixture of DCM and C3H6 resulted in the formation of the lowest concentration of nitric oxide, whilst the total nitrogen oxides concentrations did not increase. A summary of the findings of this work is presented in chapter eight as well as further work. To conclude, the maximum removal efficiency of dichloromethane was achieved in air plasma with the addition of 1000 ppm of propylene and the use of three packed-bed plasma cells in series. The lowest concentration of nitric oxide was formed in this situation.
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Untersuchungen zur Dissoziation von Wasser durch Einwirkung hochfrequenter elektromagnetischer FelderSchneider, Jens 16 October 2012 (has links)
Während die Wasserdissoziation mit der Hilfe von Gleichstrom (Wasser-Elektrolyse) einen gut untersuchten Prozess darstellt, war der Mechanismus der Wasserdissoziation durch Einwirkung hochfrequenter (HF) elektromagnetischer Felder als relativ neues Phänomen noch nicht vollständig aufgeklärt.
Für die Realisierung der Wasserdissoziation in HF-Feldern mit einer Frequenz von 13,56 MHz wurde in dieser Arbeit ein neuartiger experimenteller Aufbau verwendet, dessen Kernstück aus einem sich zwischen zwei parallelen Elektroden befindlichen Glasreaktor, der über eine Durchmesserverjüngung verfügte, bestand. Dieser Aufbau ermöglichte die Untersuchung der wässrigen Elektrolytlösung in den drei Phasen Erwärmung, Blasenbildung und Entladung mit Gasbildung. Die messbare Gasbildungsrate wurde als ein Maß für die Intensität der Wasserdissoziation gewählt. Ihre Abhängigkeit von der HF-Spannung, der HF-Leistung, der Art des Elektrolyten, der Konzentration des Elektrolyten und dem geometrischen Aufbau des Reaktors wurden untersucht.
Bei vielen Elektrolyten bestand das produzierte Gas vollständig aus Wasserstoff und Sauerstoff im molaren Verhältnis von 2 zu 1 sowie aus Wasserdampf. Für einige Elektrolyte wurden davon abweichende Verhalten hinsichtlich der Stöchiometrie beobachtet.
Das im Zusammenhang mit der Wasserdissoziation emittierte Licht wurde spektroskopisch untersucht. Es konnten angeregte OH-, H- und O-Radikale nachgewiesen werden. Dieser Befund legt nahe, dass die Wasserdissoziation durch die Wechselwirkung von hochenergetischen Elektronen mit Wassermolekülen verursacht wird. Der Versuchsaufbau ermöglichte also die Ausbildung eines nicht-thermischen Plasmas in der Gasphase im Bereich der Reaktorverjüngung.
Mit Hilfe von Simulationsrechnungen konnte der Verlauf des elektrischen Feldes in Abhängigkeit von der Elektrolytkonzentration für den gewählten Versuchsaufbau modelliert werden. Das Erreichen der für die Initiierung von selbsterhaltenden Entladungen in Wasserdampf notwendigen Feldstärke von 2,6 MV/m wurde durch die Modellierung verifiziert. Modellrechnungen stehen im Einklang mit dem vorgeschlagenen Mechanismus der HF-Wasserdissoziation.
Des Weiteren wurde das Anwendungspotenzial der Radikalbildung für den Abbau von Modellschadstoffen wie Perfluoroktansäure (PFOA) untersucht. Der Abbau perfluorierter Verbindungen, der bisher durch eine wenig effiziente thermische Totaloxidation erreicht werden kann, konnte mit dem Plasmaprozess erfolgreich demonstriert werden.
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Contribution à l'étude de la dépollution de l'air chargé en composés organiques volatils par un procédé associant un plasma de décharge à barrière diélectrique impulsionnelle et des catalyseurs / Removal of volatile organic compounds using pulsed dielectric barrier discharge plasma combined to catalystsPham, Huu Thien 29 September 2014 (has links)
Cette thèse s’inscrit dans le cadre général de la dépollution d’effluents gazeux faiblement chargés en Composés Organiques Volatils (COV). L’étude concerne l'oxydation de trois COV cibles (méthane, propène, et toluène) dans l'air à la pression atmosphérique dans d'une part un réacteur plasma de décharge à barrière diélectrique (DBD) pulsée et un réacteur catalytique utilisés séparément et d'autre part, dans un réacteur hybride associant le réacteur plasma aux catalyseurs dans deux configurations: le catalyseur au coeur de la décharge et le catalyseur en post-décharge. Les catalyseurs sont à base de Pd, Mn, Cu, et Co supportés sur des billes de Al2O3. Ils ont été caractérisés par ICP-OES, TEM/EDX, XRD, XPS, et DRIFTS. L’efficacité de conversion des COV, la sélectivité en CO/CO2, ainsi que la nature et les concentrations des produits formés pour les trois molécules avec les trois systèmes ont été étudiées en fonction de la température du gaz, de l'énergie injectée, de la concentration des COV, de la taille du support, du type de métal et sa teneur, et de la vitesse volumique horaire. Dans tous les cas, l’activation des catalyseurs à basse température a été démontrée quand ces derniers sont couplés au plasma et les principaux produits de réaction identifiés et quantifiés par spectroscopie infrarouge à transformée de Fourier. Le couplage plasma-catalyseur améliore de façon significative l’efficacité de conversion du méthane, du propène, et du toluène dans l’air ainsi que la sélectivité en sous-produits. L'effet de synergie entre le plasma et les catalyseurs pour la conversion des COV a été démontré dès lors que le plasma est généré directement au sein du réacteur catalytique. / The focus of this thesis is the application of non-thermal plasma and catalysis in chemical processing, in particular for the removal of Volatile Organic Compounds (VOC) diluted in air. In a first part, the oxidation of three pollutants (methane, propene, and toluene) is studied experimentally in a pulsed dielectric barrier discharge (DBD) reactor and in a catalyst reactor working independently. In a second part, a hybrid plasma-catalyst reactor either in a single-stage or in a two-stages configuration, in which the catalyst is located inside or downstream from the plasma reactor, respectively. Catalyst materials based on Pd, Mn, Cu, and Co supported on alumina beads were tested and characterized by ICP-OES, TEM/EDX, XRD, XPS, and DRIFTS. Products were analyzed and quantified by infrared spectroscopy. Achieved VOCs removal efficiencies and CO/CO2 selectivity, as well as nature and concentrations of the formed products, were evaluated as function of many factors, particularly the specific input energy, the gas temperature, the initial VOCs concentration, the nature of catalyst (size support, metal loading), and the hourly space velocity. It has been successfully demonstrated that the combination of plasma and catalyst in the both configurations has many benefits compared to traditional thermal-catalysis and plasma alone treatment including a lowering of the catalyst operating temperature, an improvement of the conversion of VOCs at similar temperatures, and a better end-products selectivity and energy efficiency. The mutual interaction lead to a synergistic effect in plasma-catalysis especially when the discharge is in direct contact with the catalyst whatever the VOCs studied.
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Applications and Modeling of Non-Thermal PlasmasZhu, Yonry R. January 2018 (has links)
No description available.
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Non-thermal Miniature Dielectric Barrier Discharge Plasma for Treatment ofLung Carcinoma CellsKarki, Surya B. 21 December 2018 (has links)
No description available.
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