Alimentation sans transformateur pour dispositif de décharge à barrière diélectrique (DBD) / Transformerless power supply for dielectric barrier discharge (DBD) device

Diop, Mame Andallah

30 January 2017

Cette thèse porte sur le développement d'une structure d'alimentation sans transformateur pour des décharges à barrière diélectrique (DBD). Une DBD est une charge permettant d'obtenir des plasmas froids à la pression atmosphérique. Ce dispositif est fortement capacitif et son alimentation doit délivrer plusieurs kilovolts pour allumer et entretenir la décharge. Cette haute tension est classiquement obtenue à l'aide d'un transformateur élévateur. Dans une première partie, nous montrons que les éléments parasites du transformateur impactent fortement le transfert d'énergie vers la décharge. C'est pourquoi dans une seconde partie, nous proposons une nouvelle topologie d'alimentation sans transformateur élévateur. Les caractéristiques fondamentales et le dimensionnement de notre alimentation sont obtenus par une analyse théorique. Dans cette topologie, les interrupteurs sont directement connectés à la DBD ; ils doivent donc supporter des tensions de plusieurs kilovolts. Il y a encore quelques années, il n'existait pas de semi-conducteur capable de supporter ce niveau de tension, à moins d'utiliser des interrupteurs fonctionnant à très basse fréquence. De récents progrès sur les matériaux semi-conducteurs ont permis d'élaborer des transistors et des diodes à base de carbure de silicium (SiC) capables de supporter des tensions allant jusqu'à 10 kV. Ce niveau de tension est tout à fait compatible avec la topologie d'alimentation proposée ici.Nous consacrerons la troisième partie du manuscrit à la mise en œuvre de notre convertisseur. Ce dernier, conçu à base de semi-conducteurs SiC, est fonctionnel et permet d'allumer une décharge. Cependant le fonctionnement initialement prévu est fortement affecté par la présence des capacités parasites notamment celles des interrupteurs. Nous détaillerons le rôle de chacune d'entre elles. Nous proposerons enfin des solutions permettant d'améliorer le transfert de puissance : mise en série de semi-conducteurs basses tensions, utilisation sur DBD de forte puissance... / This thesis focuses on the development of a dielectric barrier discharge (DBD) transformerless power supply. A DBD can produce cold plasma at atmospheric pressure. This device is a capacitive load, which must be supplied by a high voltage alternative source. This high voltage is classically obtained by amplifying a low level voltage with a step up transformer. In the first part, we show that the parasitic elements of the transformer limit the power transfer to the DBD load. This is why, in a second part, we propose a new topology without step-up transformer. A theoretical study of the converter allows to size our power supply and to deduce the fundamental characteristics of the latter. In our topology, the power switches are directly connected to the high voltage. A few years ago, it was inconceivable to connect directly a transistor to a high level of voltage (5kV), unless using very low frequency switches. Recent progress on semiconductor devices led to the development of transistors and diodes based on silicon carbide (SiC), which are able to hold up to 10kV. This voltage level is compatible with our topology.In the third part, we focus on the realization of our transformerless power supply and its operation. Our power supply based on 10 kV SiC semiconductors can ignite the discharge; however the parasitic capacitance and particularly those of the switches affect the power transfer. The role of each one of them is analyzed in detail.In the last part we propose solutions to improve the power delivered by this supply: series connection of lower voltage switches, supplying a high power DBD...

Plasma froid

Convertisseur statique

MOSFET SiCs

Semi-conducteurs hautes tensions

Décharge à barrier diélectrique

Transformateur

Résonance

Cold plasma

Static converter

SiCs MOSFET

High voltage semiconductor

Dielectric barrier discharge

Transformer

Resonance

Desenho e Constru??o de um prot?tipo gerador de jato de plasma frio a press?o atmosf?rica para aplica??es biom?dicas

Nascimento Neto, Arlindo Balbino do

07 February 2014

Made available in DSpace on 2014-12-17T14:58:24Z (GMT). No. of bitstreams: 1 ArlindoBNN_DISSERT.pdf: 2586996 bytes, checksum: 478bf85288aae614a5921757e3272558 (MD5) Previous issue date: 2014-02-07 / Conselho Nacional de Desenvolvimento Cient?fico e Tecnol?gico / Research for better performance materials in biomedical applications are constants. Thus recent studies aimed at the development of new techniques for modification of surfaces. The low pressure plasma has been highlighted for its versatility and for being environmentally friendly, achieving good results in the modification of physic chemical properties of materials. However, it is requires an expensive vacuum system and cannot able to generate superficial changes in specific regions. Furthermore, it is limits their use in polymeric materials and sensitive terms due to high process temperatures. Therefore, new techniques capable of generating cold plasma at atmospheric pressure (APPJ) were created. In order to perform surface treatments on biomaterials in specific regions was built a prototype capable of generating a cold plasma jet. The prototype plasma generator consists of a high voltage source, a support arm, sample port and a nozzle through which the ionized argon. The device was formed to a dielectric tube and two electrodes. This work was varied some parameters such as position between electrodes, voltage and electrical frequency to verify the behavior of glow discharges. The disc of titanium was polished and there was a surface modification. The power consumed, length, intensity and surface modifications of titanium were analyzed. The energy consumed during the discharges was observed by the Lissajous figure method. To check the length of the jets was realized with Image Pro Plus software. The modifications of the titanium surfaces were observed by optical microscopy (OM ) and atomic force microscopy (AFM ). The study showed that variations of the parameters such as voltage, frequency and geometric position between the electrodes influence the formation of the plasma jet. It was concluded that the plasma jet near room temperature and atmospheric pressure was able to cause modifications in titanium surface / Pesquisas na busca por materiais com melhor desempenho para aplica??es biom?dicas s?o constantes. Assim, estudos recentes buscam o desenvolvimento de novas t?cnicas para modifica??es de superf?cies. O plasma a baixa press?o vem se destacando pela sua versatilidade e por ser ambientalmente correto, obtendo-se bons resultados na modifica??o das propriedades f?sico-qu?micas dos materiais. Por?m, esta t?cnica necessita de um sistema de v?cuo de alto custo e n?o ? capaz de gerar modifica??es superficiais em regi?es pontuais. Al?m disso, limita seu uso em materiais polim?ricos e termosens?veis, devido ?s altas temperaturas do processo. Diante disso, foram criadas novas t?cnicas capazes de gerar um plasma frio a press?o atmosf?rica (APPJ). Com o objetivo de realizar tratamentos superficiais em biomateriais em regi?es pontuais, foi constru?do um prot?tipo capaz de gerar um jato de plasma frio. O prot?tipo gerador de plasma consiste em uma fonte de alta tens?o, um bra?o suporte, um porta amostra e uma ponteira por onde passa o arg?nio ionizado. Dentro desta ponteira existe um tubo diel?trico e dois eletrodos. Neste estudo foram variados alguns par?metros como: posi??o entre eletrodos, tens?o e frequ?ncia el?trica para verificar o comportamento das descargas luminescentes. Tratou-se disco de tit?nio grau II polido e verificou-se a energia el?trica consumida, comprimento, intensidade e modifica??es superficiais do tit?nio. A energia consumida durante as descargas foram verificadas pelo m?todo da figura de Lissajous. Para verificar o comprimento dos jatos foi utilizado o software Image Pro Plus. As modifica??es na superf?cie do tit?nio foram verificadas por microscopia ?tica (MO) e de for?a at?mica (MFA). O trabalho mostrou que varia??es dos par?metros de tens?o, frequ?ncia e posi??o geom?trica entre os eletrodos influenciam na forma??o do jato de plasma. Foi poss?vel concluirque o jato de plasma pr?ximo ? temperatura ambiente e a press?o atmosf?rica foi capaz de provocar modifica??es superficiais no tit?nio

CNPQ::ENGENHARIAS::ENGENHARIA MECANICA

Décharges à barrière diélectrique pulsées de volume et de surface appliquées à la précipitation électrostatique et à la régénération de surface / Volume and surface pulsed dielectric barrier discharges applied to electrostatic precipitation and surface regeneration

Aba'a Ndong, Arthur

12 December 2014

Dans le cadre de cette thèse, des Décharges à Barrières Diélectrique (DBD) pulsées de volume et de surface ont été étudiées expérimentalement, dans le but de les appliquer respectivement à la précipitation électrostatique de particules submicroniques et à la régénération de surface.La caractérisation des DBD pulsées a consisté à effectuer des mesures électriques (courant, énergie) et optiques (imagerie ICCD), afin d'observer l'influence des paramètres électriques et géométriques, ainsi que des matériaux utilisés, sur les propriétés de la décharge. Il en ressort que pour les deux types de DBD (surface et volume), le courant présente deux pics durant les fronts montant et descendant du pulse de tension, et que les deux décharges ont des aspects différents (filamentaire ou diffus).Concernant la précipitation électrostatique, l'efficacité de collecte des électrofiltres a été déterminée par des mesures granulométriques. Les résultats montrent que celle-ci est influencée par les paramètres électriques et géométriques des électrofiltres. Une caractérisation des phénomènes EHD au sein des électrofiltres par métrologie optique (LDV et PIV) a été effectuée afin de comprendre les mécanismes de charge et de dérive des particules.Ensuite, la régénération de surface a été étudiée en analysant les images de la surface polluée, avant et après le traitement. Les résultats révèlent que les performances de la régénération sont influencées par les paramètres électriques, géométriques et les matériaux des réacteurs DBD. Les mécanismes de la régénération ont été analysés en relevant l'évolution de la taille et la concentration des particules générées lors du processus de régénération. / As part of this thesis, volume and surface pulsed Dielectric Barrier Discharges (DBD) were investigated experimentally for applications in the electrostatic precipitation of submicron particles and surface regeneration, respectively. First, the characterization of pulsed DBDs consisted of performing electrical measurements (current, power) and optical measurements (ICCD imaging) in order to observe the influence of electrical and geometrical parameters as well as materials on the properties of the discharge. It is demonstrated that for both types of DBD (surface and volume), the current has two peaks during the rising and falling times of the voltage pulse, corresponding to distinct streamer and glow discharge regimes, respectively.Next, the collection efficiency of electrostatic precipitation (ESP) was determined by granulometric measurements. The results show that the efficiency is influenced by the electrical and geometrical parameters of the precipitator. A characterization of EFD phenomena was performed inside the precipitator by optical metrology (LDV and PIV) to understand the mechanisms of charge and particle drift. Finally, surface regeneration was investigated by analyzing images of the contaminated surface, before and after treatment. The results reveal that the regeneration process is influenced by electrical and geometrical parameters and DBD reactor materials. The mechanisms of regeneration were analyzed in-situ by measuring changes in the size and concentration of the generated particles during the process of regeneration.

Plasma froid

Précipitation électrostatique

Électrofiltre

Efficacité de collecte

Régénération de surface

Pulsed dielectric barrier discharge

Cold plasma

Electrostatic precipitation

Esp

Collection efficiency

EFD flow

Surface regeneration

621.312

MICROWAVE SCATTERING FOR DIAGNOSTICS OF LASER-INDUCED PLASMAS AND DENSITIES OF SPECIES IN COMBUSTION MIXTURES

Animesh Sharma (8911772)

16 June 2020

<p>Laser-induced plasmas since their discovery in the 1960’s have found numerous applications in laboratories and industries. Their uses range from soft ionization source in mass spectroscopy, development of compact particle accelerator, and X-ray and deep UV radiation sources to diagnostic techniques such as laser-induced breakdown spectroscopy and laser electronic excitation tagging. In addition, the laser-induced plasma is important for studying of various nonlinear effects at beam propagation, such as laser pulse filamentation.</p> <p>This work deals with two challenging aspects associated with laser-induced plasmas. First is the study of Multi-Photon Ionization (MPI) as a fundamental first step in high-energy laser-matter interaction critical for understanding of the mechanism of plasma formation. The second is application of laser induced plasma for diagnostics of combustion systems.</p> <p>Numerous attempts to determine the basic physical constants of MPI process in direct experiments, namely photoionization rates and cross-sections of the MPI, were made; however, no reliable data was available until now, and the spread in the literature values often reached 2–3 orders of magnitude. This work presents the use of microwave scattering in quasi-Rayleigh regime off the electrons in the laser-induced plasma as method to measure the total number of electrons created due to the photoionization process and subsequently determine the cross-sections and rates of MPI. Experiments were done in air,<i> O₂, Xe, Ar, N₂, Kr</i>, and <i>CO</i> at room temperature and atmospheric pressure and femtosecond-laser pulse at 800 nm wavelength was utilized. Rayleigh microwave scattering (RMS) technique was used to obtain temporally resolved measurements of the electron numbers created by the laser. Numbers of electrons in the range 3 × 10⁸–3 × 10¹² were produced by the laser pulse energies 100–700 <i>μ</i>J and corresponding electron number densities down to about 10¹⁴ cm^-3 in the center of laser-induced spark were observed. After the laser pulse, plasma decayed on the time scale from 1 to 40 ns depending on the gas type and governed by two competing processes, namely, the creation of new electrons from ionization of the metastable atoms and loss of the electrons due to dissociative recombination and attachment to oxygen. </p> <p>Diagnostics of combustion at high pressures are challenging due to increased collisional quenching and associated loss of acquired signal. In this work, resonance enhanced multiphoton photon ionization (REMPI) in conjunction with measurement of generated electrons by RMS technique were used to develop diagnostics method for measuring concentration of a component in gaseous mixture at elected pressure. Specifically, the REMPI-RMS diagnostics was developed and tested in the measurements of number density of carbon monoxide (<i>CO</i>) in mixtures with nitrogen (<i>N₂</i>) at pressures up to 5 bars. Number of REMPI-induced electrons scaled linearly with <i>CO</i> number density up to about 5×10¹⁸ cm^-3 independently of buffer gas pressure up to 5 bar, and this linear scaling region can be readily used for diagnostics purposes. Higher <i>CO</i> number densities were associated laser beam energy loss while travelling through the gaseous mixture. Four (4) energy level model of <i>CO</i> molecule was developed and direct measurements of the laser pulse energy absorbed in the two-photon process during the passage through the <i>CO</i>/<i>N₂</i> mixture were conducted in order to analyze the observed trends of number of REMPI-generated electrons with <i>CO</i> number density and laser energy.</p>

Aerospace Engineering

Mechanical Engineering

Plasma Physics

Lasers and Quantum Electronics

Laser induced plasmas

microwave scattering

plasma diagnostics

high pressure combustion

laser filamentation

cold plasma

Multiphoton ionization

Ultrafast Optics

Non linear optics

Εγκατάσταση και μελέτη αντιδραστήρα τεχνολογικού πλάσματος ραδιοσυχνοτήτων για εφαρμογές στη νανοτεχνολογία

Κονισπολιάτης, Χρήστος

13 October 2013

Μια από τις σημαντικότερες τεχνικές εγχάραξης σε μίκρο και νάνο-κλίμακα είναι αυτή της ξηρής εγχάραξης με πλάσμα. Η παρούσα εργασία είχε σαν σκοπό την κατασκευή διάταξης επεξεργασίας ψυχρού πλάσματος χαμηλής πίεσης που να λειτουργεί στο πεδίο των ραδιοσυχνοτήτων, με την προοπτική να χρησιμοποιηθεί για την επεξεργασία πολυμερών και άλλων υλικών που χρησιμοποιούνται στις μονώσεις υψηλών τάσεων ώστε να βελτιωθούν διάφορες ιδιότητές τους όπως η επιφανειακή υδροφοβία και η αντοχή στη ρύπανση. Ειδικότερα: Στο πρώτο κεφάλαιο γίνεται εισαγωγή του αναγνώστη στην επεξεργασία πλάσματος και συγκεκριμένα στην εγχάραξη και τους φυσικούς και χημικούς μηχανισμούς της. Αναλύεται η διάταξη RIE, η οποία εφαρμόζεται κατά την κατασκευή του συστήματος. Στο δεύτερο κεφάλαιο περιγράφεται ο σχεδιασμός και η κατασκευή της διάταξης επεξεργασίας, η οποία αποτελείτε από διακριτά μέρη όπως οι θάλαμοι, το πνευματικό σύστημα, το αντλητικό σύστημα και το σύστημα τροφοδοσίας της ισχύος. Δόθηκε ιδιαίτερη προσοχή στη λεπτομερή περιγραφή του κάθε εξαρτήματος που ενσωματώθηκε και ο εξειδικευμένος ρόλος του, ενώ τα αναλυτικά κατασκευαστικά σχέδια παρατίθενται στο παράρτημα. Στο τρίτο κεφάλαιο γίνεται βασικός χαρακτηρισμός του αντιδραστήρα. Δηλαδή, παρουσιάζονται οι ηλεκτρικές μετρήσεις οι οποίες ταυτίζονται με τη βιβλιογραφία, παρουσιάζονται οπτικές μετρήσεις από τις οποίες γίνεται ταυτοποίηση ενεργών σωματίων, τα οποία επίσης είναι σύμφωνα με τη βιβλιογραφία παρόμοιων συστημάτων και τέλος, γίνεται ενδεικτική επεξεργασία πολυμερούς και έλεγχος του αποτελέσματος, το οποίο είναι η πιστή απόδοση μοτίβου και ρυθμός εγχάραξης 30nm/min. Στο τέταρτο και τελευταίο κεφάλαιο προτείνονται μελλοντικές εργασίες και βελτιώσεις. / One of the most prominent etching techniques at micro and nano-scale is dry plasma etching. This work’s purpose was the fabrication of a cold plasma low pressure radio-frequency processing rig, with the prospect of being used for polymer and other materials processing, that are used in high voltage insulators, in order to improve their surface properties such as hydrophobicity and pollution resistance. In particular; In the first chapter the reader is being introduced in plasma processing and in particular in etching and physical and chemical mechanisms. RIE set-up, which is to be applied in our rig, is being analyzed. In the second chapter the design and fabrication of the processing rig are being described, which includes parts like the chambers, the pneumatic system, the pumping system and the power delivery system. Special care has been given for a detailed description of every added component and its specialized role, while their analytical mechanical designs are collocated in the appendix. In the third chapter a basic characterization of the reactor is being delivered. Namely, we present electrical measurements which correspond precisely to bibliography and we also present optical measurements from which identification of reactive species is derived, also in accordance to bibliography. Finally, a polymeric substrate is indicatively processed and the result is the faithful pattern transfer by an etching rate of 30nm/min. In the fourth and last chapter, suggestions for future work and improvements are made.

Ξηρή εγχάραξη

Ραδιοσυχνότητα

Υψηλό κενό

Προφιλομετρία

621.381 52

Cold plasma

Dry etching

Reactive ion etching

Capacitively coupled plasma

Radiofrequency

Reactor design & fabrication

High vacuum

Optical emission spectroscopy

Profilometry

Etude des mécanismes anti-cancéreux induits par milieux activés par jet de plasma froid : vers une nouvelle approche thérapeutique / Study of anti-tumoral mechanisms induced by cold plasma jet activated medium : towards a new therapeutic strategy

Chauvin, Julie

03 December 2018

Les thérapies anticancéreuses basées sur des principes physiques (radiofréquences, ultrasons, laser, électroporation...) ont considérablement augmenté lors de la dernière décennie. Leurs objectifs sont de détruire directement les cellules cancéreuses, de favoriser l'entrée ciblée de molécules thérapeutiques ou encore de stimuler le système immunitaire du patient afin d'éliminer la tumeur. Le plasma froid suscite l'intérêt dans le domaine de l'oncologie grâce à sa capacité à générer des espèces réactives oxygénées (ROS) et azotées (RNS) qui peuvent être génotoxiques et cytotoxiques pour les cellules cancéreuses. Deux approches d'utilisation du plasma sont étudiées : soit l'exposition directe de cellules au jet plasma, soit l'exposition indirecte via l'utilisation d'un Milieu Activé par Plasma (PAM). Le PAM étant plus facile à délivrer par injection dans la tumeur, c'est cette approche qui est choisie lors de ces travaux. Le travail de thèse présenté consiste à étudier l'effet génotoxique et cytotoxique du PAM, obtenu après exposition du milieu au jet de plasma d'hélium, sur des tumeurs in vitro et in vivo. Pour les études in vitro, nous avons choisi d'utiliser un modèle 3D : le sphéroïde (MCTS - MultiCellular Tumor Spheroid). Ce modèle présente des caractéristiques proches du modèle in vivo grâce à son organisation en sphéroïde. Les MCTS présentent en effet des gradients de pénétration d'oxygène, de nutriments et de prolifération cellulaire. La première partie de la thèse concerne l'identification et la quantification des espèces générées dans le PAM. Les méthodes d'analyses utilisées sont la résonance paramagnétique électronique, la fluorimétrie, la colorimétrie, la chromatographie en phase liquide et la spectrométrie de masse. Ces analyses ont mis en évidence que la toxicité du PAM était due à plusieurs facteurs : d'un côté la génération de ROS et RNS mais aussi à la dégradation des nutriments pour les cellules contenues dans le milieu via par exemple l'oxydation et la nitrosylation des acides aminés. La deuxième partie est dédiée à l'étude des effets du PAM sur les MCTS HCT-116 (cancer du côlon).[...] / Cancer therapies based on physical principles (radiofrequency, ultrasound, laser, electroporation...) have considerably increased in the last decade. Their objectives are to directly destroy cancer cells, to favor the targeted entry of therapeutic molecules or to stimulate the patient's immune system in order to eliminate the tumor. Cold plasma still arouses interest in the field of oncology through its ability to generate reactive oxygen species (ROS) and nitrogen species (RNS) which can be genotoxic and cytotoxic for cancer cells. Two approaches to the use of plasma are studied: either direct exposure of cells to the plasma jet, or indirect exposure via the use of a Plasma Activated Medium (PAM). The PAM being easier to deliver by injection into the tumor, this approach was chosen in this work. The work presented consists in studying the genotoxic and cytotoxic effects of PAM resulting from exposure of the medium to the helium plasma jet on in vitro and in vivo tumors. For in vitro studies, we chose to use a 3D model: the spheroid (MCTS - MultiCellular Tumor Spheroid). This model has similar characteristics to the in vivo model thanks to its spheroidal organization. The spheroids have indeed gradients of oxygen penetration, nutrients and cell proliferation. The first part of the thesis concerns the identification and quantification of the species generated in PAM. The analytical methods used are paramagnetic electronic resonance, fluorimetry, colorimetry, liquid chromatography and mass spectrometry. These analyses revealed that the toxicity of PAM was due to several factors: on the one hand to the generation of ROS and RNS and on the other hand to the degradation of cell nutrients contained in the medium via, for example, the oxidation and nitrosylation of the amino acids. The second part is dedicated to the study of the effects of PAM on HCT-116 (colon cancer) spheroids[...]

Applications biomédicales

Cancer colorectal

Cancer tête/cou

Sphéroïdes tumoraux multicellulaires

Milieu activé par plasma

Effet antiprolifératif

Effet génotoxique et cytotoxique

Espèces réactives de l'oxygène

Espèces réactives de l'azote

Peroxyde d'hydrogène

Cold plasma jet at atmospheric pressure

Biomedical applications

Colorectal cancer

Head/neck cancer

Multicellular tumor spheroid

Plasma activated medium

Antiproliferative effect

Genotoxic and cytotoxic effect

Reactive oxygen species

Reactive nitrogen species

Hydrogen peroxide