, Module DBD composé de 9 canaux parallèles, tenus par un support en PTFE, p.147

, Module DBD partiellement monté avec les plaques de diélectrique et les électrodes

D. .. Module, , p.148

, Plaque de séparation en PTFE et entrée des canaux d'un module DBD, p.149

. .. Le-module-de-commande-intégré-À-l'armoire-Électrique, , p.152

. .. Kv, 152 6.10 Granules du catalyseur utilisé, commercialisé sous le nom de Moleculite par Molecular Products Limited, Chargeur de condensateurs modèle CCPJ-2000-XX 15

. .. , Schéma de la chromatographie en phase gazeuse couplée à la spectroscopie de masse avec thermo-desorption et cryo-focalisation, p.160

, Détecteur de composés organiques volatils à photo-ionisation MiniRAE 3000 utilisé pour des mesures in situ et en temps réel, p.161

, Réponses rélatives à 20 ? C en fonction de la température de l'échantillon obtenues avec un MiniRAE, 2000.

, Réponses rélatives à 1013,25 hPa (760 mmHg) en fonction de la pression de l'échantillon obtenues avec un MiniRAE, 2000.

, Réponse à 100 ppm d'isobutylène du MiniRAE 3000 avec et sans correction de l'humidité en fonction de l'humidité relative

. .. Le, , p.165

, Schéma de l'unité pilote d'atomisation au sein de laquelle le réacteur RE-COVER a été intégré

, Impulsions de tension produites par le générateur d'impulsions en circuit ouvert et avec ligne de transmission et réacteur

. .. Courant, 168 7.10 Exemples de signaux de courant et tension obtenus avec le réacteur RECO-VER, avec et sans décharge, Schéma des configurations en circuit ouvert et condition normale d'opération utilisées pour les mesures de tension et

E. De-signaux-de-puissance and .. .. Re-cover,

, Évolution des signaux de tension, courant et énergie avec l'augmentation de l'amplitude de tension ou de la fréquence de répétition des impulsions, p.171

. .. Hz, Figure de Lissajous obtenue pour une amplitude de l'impulsion de tension de 10 kV et une fréquence de répétition de 1880, p.172

, Figures de Lissajous pour différentes amplitudes de l'impulsion de tension et une fréquence de répétition de 1880 Hz

, Énergie par impulsion et puissance moyenne dissipées dans la décharge en fonction de la tension maximale des impulsions ou du réglage HT, p.174

, Connecteurs utilisés pour les prélèvements en aval du premier module DBD, p.177

, Concentration de n-butanol en entrée du réacteur RECOVER lors des essais du 12/02/18 avec le catalyseur seul et avec le couplage plasma-catalyse, p.179

, Schéma de la configuration de prélèvement en parallèle utilisé pour les essais des 23/05

, Tableau 4.1 -Références utilisées lors de la révision statistique

R. Auteurs-année,

. Abdelaziz, , 2012.

. Assadi, , 2014.

. Assadi, , 2016.

A. and C. , , vol.17, 2009.

. Blin-simiand, , 2007.

. Blin-simiand, , 2009.

. Blin-simiand,

, Nous n'avons pas prélevé les concentrations en entrée dans ce cas, mais nous supposons qu'elles sont similaires aux concentrations prélevées avec le plasma seul, les concentrations mesurées avec le MiniRAE étant restées assez stables. Les concentrations d'éthanol mesurées après le passage par le catalyseur restent toujours inférieures à 1 ppm, Nous avons aussi réalisé des prélèvements après le passage par un réacteur catalytique, comme montré dans la figure 7.20c

, Cette fois, nous avons utilisé des gaines isolantes autour des tubes en PTFE utilisés pour les prélèvements, Le 20/04/2018 nous avons refait des essais

, Avec l'ajout de 5,85 kg/h à 190 m 3 /h, nous ajoutons une pression partielle de l'ordre de 4400 Pa. 13. Ces simulations ont été réalisés avant que nous n'ayons une estimation de la valeur de ? A à partir de données expérimentales obtenues lors des essais avec le réacteur RECOVER. La comparaison entre les données expérimentales et les simulations numériques sera réalisée dans la section 8, À 22 ? C et 36 % HR, la pression partielle de l'eau dans l'air est égale à 950 Pa

. Enfin, nous avons comparé les simulations numériques et les résultats expérimentaux obtenus avec le réacteur RECOVER à l'échelle pilote. Nous avons montré que les paramètres utilisés comme données d'entrée pour les simulations et ceux obtenus expérimentalement sont du même ordre de grandeur

. Aerox, , 2018.

. Airphaser, , 2018.

A. A. Abdelaziz, T. Seto, M. Abdel-salam, and Y. Otani, Performance of a surface dielectric barrier discharge based reactor for destruction of naphthalene in an air stream, Journal of Physics D: Applied Physics, vol.45, p.115201, 2012.

A. A. Abdelaziz, T. Seto, M. Abdel-salam, and Y. Otani, Influence of N 2 /O 2 mixtures on decomposition of naphthalene in surface dielectric barrier discharge based reactor, Plasma Chemistry and Plasma Processing, vol.34, pp.1371-1385, 2014.

. Ademe and . Les, Composés Organiques Volatils: Réduction des émissions de COV dans l'industrie. Dunod, 2013.

G. A. Adnew, C. Meusinger, N. Bork, M. Gallus, M. Kyte et al., Gas-phase advanced oxidation as an integrated air pollution control technique, AIMS Environmental Science, vol.3, issue.1, pp.141-158, 2016.

P. Nóbrega, A. Gaunand, and V. Rohani, Applying chemical engineering concepts to non-thermal plasma reactors, Plasma Science and Technology, vol.20, issue.065512, pp.1-11, 2018.

P. Nóbrega, V. Rohani, F. Cauneau, and L. Fulcheri, Chemical engineering approach applied to non-thermal plasma reactors, International Symposium on Plasma Chemistry 23, pp.1-4, 2017.

D. Almarcha, M. Almarcha, E. Jimenez-coloma, L. Vidal, and I. Barrutiabengoa, Treatment Efficiency by means of a Nonthermal Plasma Combined with Heterogeneous Catalysis of Odoriferous Volatile Organic Compounds Emissions from the Thermal Drying of Landfill Leachates, Journal of Engineering, pp.1-9, 2014.

K. B. Andersen, Chemical assessment of non-thermal plasma for reduction of odour emissions from pig houses, 2013.

K. B. Andersen, J. A. Beukes, and A. Feilberg, Non-thermal plasma for odour reduction from pig houses -A pilot scale investigation, Chemical Engineering Journal, vol.223, pp.638-646, 2013.

A. , Procedure for Estimation and Reporting of Uncertainty Due to Discretization in CFD Applications, Journal of Fluids Engineering, vol.130, issue.078001, pp.1-4, 2008.

A. A. Assadi, A. Bouzaza, C. Vallet, and D. Wolbert, Use of DBD plasma, photocatalysis, and combined DBD plasma/photocatalysis in a continuous annular reactor for isovaleraldehyde elimination -Synergetic effect and byproducts identification, Chemical Engineering Journal, vol.254, pp.124-132, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01063542

A. A. Assadi, A. Bouzaza, and D. Wolbert, Comparative study between laboratory and large pilot scales for VOC's removal from gas streams in continuous flow surface discharge plasma, Chemical Engineering Research and Design, vol.106, pp.308-314, 2016.

R. Atkinson, Atmospheric chemistry of VOCs and NO x, Atmospheric Environment, vol.34, pp.2063-2101, 2000.

R. Atkinson and J. Arey, Atmospheric Chemistry of Biogenic Organic Compounds, Accounts of Chemical Research, vol.31, issue.9, pp.574-583, 1998.

O. Aubry and J. M. Cormier, Improvement of the Diluted Propane Efficiency Treatment Using a Non-thermal Plasma. Plasma Chemistry and Plasma Processing, vol.29, pp.13-25, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00444587

M. Bahri, F. Haghighat, S. Rohani, and H. Kazemian, Metal organic frameworks for gas-phase VOCs removal in a NTP-catalytic reactor, Chemical Engineering Journal, vol.320, pp.308-318, 2017.

S. Baldus, D. Schröder, N. Bibinov, V. Schulz-von-der-gathen, and P. Awakowicz, Atomic oxygen dynamics in an air dielectric barrier discharge: a combined diagnostic and modeling approach, Journal of Physics D: Applied Physics, vol.48, issue.27, p.275203, 2015.

C. Barakat, P. Gravejat, O. Guaitella, F. Thevenet, and A. Rousseau, Oxidation of isopropanol and acetone adsorbed on TiO 2 under plasma generated ozone flow: Gas phase and adsorbed species monitoring, Applied Catalysis B: Environmental, vol.147, pp.302-313, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01549396

N. Benard and E. Moreau, Electrical and mechanical characteristics of surface AC dielectric barrier discharge plasma actuators applied to airflow control, Experiments in Fluids, vol.55, pp.1-43, 1846.

N. Benard, N. Zouzou, A. Claverie, J. Sotton, and E. Moreau, Optical visualization and electrical characterization of fast-rising pulsed dielectric barrier discharge for airflow control applications, Journal of Applied Physics, vol.111, issue.3, p.33303, 2012.

N. Blin-simiand, F. Jorand, L. Magne, S. Pasquiers, C. Postel et al., Plasma reactivity and plasma-surface interactions during treatment of toluene by a dielectric barrier discharge. Plasma Chemistry and Plasma Processing, vol.28, pp.429-466, 2008.

N. Blin-simiand, F. Jorand, S. Pasquiers, and C. Postel, Influence of Temperature on the Removal of Toluene by Dielectric Barrier Discharge, International Journal of Plasma Environmental Science & Technology, vol.1, issue.1, pp.64-70, 2007.

N. Blin-simiand, S. Pasquiers, F. Jorand, C. Postel, and J. Vacher, Removal of formaldehyde in nitrogen and in dry air by a DBD: importance of temperature and role of nitrogen metastable states, Journal of Physics D: Applied Physics, vol.42, pp.1-5, 2009.

N. Blin-simiand, S. Pasquiers, and L. Magne, Removal of formaldehyde by a pulsed dielectric barrier discharge in dry air in the 20 ? C to 300 ? C temperature range, Journal of Physics D: Applied Physics, vol.49, pp.1-12, 2016.

A. Bogaerts, C. De-bie, R. Snoeckx, and T. Kozák, Plasma based CO 2 and CH 4 conversion: A modeling perspective, Plasma Processes and Polymers, vol.14, pp.1-21, 2017.

Y. Boyjoo, H. Sun, J. Liu, V. K. Pareek, and S. Wang, A review on photocatalysis for air treatment: From catalyst development to reactor design, Chemical Engineering Journal, vol.310, pp.537-559, 2017.

A. Calogirou, B. R. Larsen, C. Brussol, M. Duane, and D. Kotzias, Decomposition of Terpenes by Ozone during Sampling on Tenax, Analytical Chemistry, vol.68, issue.9, pp.1499-1506, 1996.

M. Castela, B. Fiorina, A. Coussement, O. Gicquel, N. Darabiha et al., Modelling the impact of non-equilibrium discharges on reactive mixtures for simulations of plasma-assisted ignition in turbulent flows, Combustion and Flame, vol.166, pp.133-147, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01513660

C. L. Chang and T. S. Lin, Decomposition of toluene and acetone in packed dielectric barrier discharge reactors. Plasma Chemistry and Plasma Processing, vol.25, pp.227-243, 2005.

S. Chapman, A theory of upper-atmospheric ozone, Memoirs of the Royal Meteorological Society, vol.3, issue.26, pp.103-125, 1930.

A. S. Chiper, N. Blin-simiand, M. Heninger, H. Mestdagh, P. Boissel et al., Detailed Characterization of 2-Heptanone Conversion by Dielectric Barrier Discharge in N 2 and N 2 /O 2 Mixtures, Journal of Physical Chemistry A, vol.114, issue.1, pp.397-407, 2010.

G. Correale, Nanosecond dielectric barrier discharge plasma actuator, 2016.

G. Costa, A. A. Assadi, S. G. Ghaida, A. Bouzaza, and D. Wolbert, Study of butyraldehyde degradation and by-products formation by using a surface plasma discharge in pilot scale : Process modeling and simulation of relative humidity effect, Chemical Engineering Journal, vol.307, pp.785-792, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01438102

V. Desauziers, Analyse des COV en traces dans l'air, 2009.

B. Dhandapani and S. T. Oyama, Gas phase ozone decomposition catalysts, Applied Catalysis B: Environmental, vol.11, pp.129-166, 1997.

D. Dobslaw, A. Schulz, C. Dobslaw, and K. Engesser, VOC removal and odor abatement by a low-cost plasma enhanced biotrickling filter process, Journal of Environmental Chemical Engineering, vol.5, pp.5501-5511, 2017.

B. Dou, J. Li, W. Liang, T. Zhu, Y. Li et al., Volatile Organic Compounds (VOCs) Removal by Using Dielectric Barrier Discharge, 2nd International Conference on Bioinformatics and Biomedical Engineering, pp.3945-3948, 2008.

B. Drazenovic, Céramique semi-conductrice, 2014.

B. Eliasson, M. Hirth, and U. Kogelschatz, Ozone synthesis from oxygen in dielectric barrier discharges, Journal of Physics D: Applied Physics, vol.20, issue.11, pp.1421-1437, 1987.

B. Eliasson and U. Kogelschatz, Modeling and applications of silent discharge plasmas, IEEE Transaction on Plasma Science, vol.19, issue.2, pp.309-323, 1991.

B. Eliasson and U. Kogelschatz, Nonequilibrium volume plasma chemical processing, IEEE Transactions on Plasma Science, vol.19, issue.6, pp.1063-1077, 1991.

, Qualité de l'air -Détermination de la concentration d'une odeur par olfactométrie dynamique, 2003.

W. Faider, S. Pasquiers, N. Blin-simiand, and L. Magne, Role of quenching of metastable states in acetaldehyde decomposition by a non-equilibrium nitrogen plasma at sub-atmospheric pressure, Journal of Physics D: Applied Physics, vol.46, issue.10, pp.1-16, 2013.

Z. Falkenstein and J. J. Coogan, Microdischarge behaviour in the silent discharge of nitrogen -oxygen and water -air mixtures, Journal of Physics D: Applied Physics, vol.30, issue.5, pp.817-825, 1999.

A. Fridman, Plasma Chemistry, 2008.

A. Fridman, A. Chirokov, and A. Gutsol, Non-thermal atmospheric pressure discharges, Journal of Physics D: Applied Physics, vol.38, issue.2, pp.1-24, 2005.

M. S. Gandhi, A. Ananth, Y. Sun, J. Song, and K. Park, Time dependence of ethylene decomposition and byproducts formation in a continuous flow dielectricpacked plasma reactor, Chemosphere, vol.91, issue.5, pp.685-691, 2013.

M. S. Gandhi, Y. S. Mok, S. B. Lee, and H. Park, Effect of various parameters for butane decomposition under ambient temperature in a dielectric barrier discharge non-thermal plasma reactor, Journal of the Taiwan Institute of Chemical Engineers, vol.44, issue.5, pp.786-794, 2013.

S. G. Ghaida, A. A. Assadi, G. Costa, A. Bouzaza, and D. Wolbert, Association of surface dielectric barrier discharge and photocatalysis in continuous reactor at pilot scale: butyraldehyde oxidation, by-products identification and ozone valorization, Chemical Engineering Journal, vol.292, pp.276-283, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01274114

V. I. Gibalov and G. J. Pietsch, The development of dielectric barrier discharges in gas gaps and on surfaces, Journal of Physics D: Applied Physics, vol.33, issue.20, pp.2618-2636, 2000.

S. Gligorovski, Nitrous acid (HONO): An emerging indoor pollutant, Journal of Photochemistry & Photobiology, A: Chemistry, vol.314, pp.1-5, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01436746

C. J. Greenshields, OpenFOAM User Guide, 2018.

O. Guaïtella, Nature de la synergie plasma-photocatalyseur pour la destruction d'un composé organique volatil type : l'acétylène, 2010.

C. Gualtieri, A. Angeloudis, F. Bombardelli, S. Jha, and T. Stoesser, On the Values for the Turbulent Schmidt Number in Environmental Flows, Fluids, vol.2, issue.17, pp.1-27, 2017.

T. Guo, X. Li, J. Li, Z. Peng, L. Xu et al., On-line quantification and human health risk assessment of organic by-products from the removal of toluene in air using non-thermal plasma, Chemosphere, vol.194, pp.139-146, 2018.

G. J. Hagelaar and L. C. Pitchford, Solving the Boltzmann equation to obtain electron transport coefficients and rate coefficients for fluid models, Plasma Sources Science and Technology, vol.14, issue.4, pp.722-733, 2005.

A. M. Harling, D. J. Glover, J. C. Whitehead, and K. Zhang, Novel method for enhancing the destruction of environmental pollutants by the combination of multiple plasma discharges, Environmental Science and Technology, vol.42, issue.12, pp.4546-4550, 2008.

A. M. Harling, D. J. Glover, J. C. Whitehead, and K. Zhang, The role of ozone in the plasma-catalytic destruction of environmental pollutants, Applied Catalysis B : Environmental, vol.90, pp.157-161, 2009.

K. Hassouni, F. Massines, and J. Pouvesle, Plasmas hors-équilibre à des pressions atmosphériques, Plasmas Froids: Génération, caractérisation et technologies, pp.49-108, 2004.

T. Hastie, R. Tibshirani, and J. Friedman, The Elements of Statistical Learning, 2001.

C. Hirsch, Numerical computation of internal and external flows, Elsevier, vol.1, 2007.

M. Holub, R. Brandenburg, H. Grosch, S. Weinmann, and B. Hansel, Plasma Supported Odour Removal from Waste Air in Water Treatment Plants : An Industrial Case Study, Aerosol and Air Quality Research, vol.14, pp.697-707, 2014.

J. Hu, N. Jiang, J. Li, K. Shang, N. Lu et al., Degradation of benzene by bipolar pulsed series surface/packed-bed discharge reactor over MnO 2 -TiO 2 /zeolite catalyst, Chemical Engineering Journal, vol.293, pp.216-224, 2016.

F. P. Incropera, D. P. Dewitt, T. L. Bergman, and A. S. Lavine, Fundamentals of Heat and Mass Transfer, 2007.

, Clean air solutions for industries, 2018.

J. Jarrige, Etude expérimentale des décharges électriques Impulsionnelles nanoseconde à pression atmosphérique. Application au traitement des effluents gazeux et à la décontamination de surface, 2008.

J. Jarrige and P. Vervisch, Decomposition of gaseous sulfide compounds in air by pulsed corona discharge. Plasma Chemistry and Plasma Processing, vol.27, pp.241-255, 2007.

H. Jasak, Error Analysis and Estimation for the Finite Volume Method with Applications to Fluid Flows, 1996.

H. Jiang, T. Shao, C. Zhang, W. Li, P. Yan et al., Experimental Study of Q-V Lissajous Figures in Nanosecond-Pulse Surface Discharges, IEEE Transactions on Dielectrics and Electrical Insulation, vol.20, issue.4, pp.1101-1111, 2013.

H. Jiang, T. Shao, C. Zhang, P. Yan, Z. Niu et al., Effect of Grounded Electrode's Width on Electrical Characteristics of Nanosecond-pulse Surface DBD, Annual Report Conference on Electrical Insulation and Dielectric Phenomena, pp.1030-1033, 2013.

N. Jiang, L. Guo, K. Shang, N. Lu, J. Li et al., Discharge and optical characterizations of nanosecond pulse sliding dielectric barrier discharge plasma for volatile organic compound degradation, Journal of Physics D: Applied Physics, vol.50, pp.1-10, 2017.

N. Jiang, J. Hu, J. Li, K. Shang, N. Lu et al., Plasma-catalytic degradation of benzene over Ag-Ce bimetallic oxide catalysts using hybrid surface/packed-bed discharge plasmas, Applied Catalysis B : Environmental, vol.184, pp.355-363, 2016.

N. Jiang, J. Li, K. Shang, N. Lu, and Y. Wu, Enhanced Degradation of Benzene in Surface/Packed-Bed Hybrid Discharge System: Optimization of the Reactor Structure and Electrical Parameters, IEEE Transactions on Plasma Science, vol.44, issue.4, pp.657-664, 2016.

N. Jidenko, E. Bourgeois, and J. Borra, Temperature profiles in filamentary dielectric barrier discharges at atmospheric pressure, Journal of Physics D: Applied Physics, vol.43, pp.1-9, 2010.
URL : https://hal.archives-ouvertes.fr/hal-00569657

Q. Jin, B. Jiang, J. Han, and S. Yao, Hexane decomposition without particle emission using a novel dielectric barrier discharge reactor filled with porous dielectric balls, Chemical Engineering Journal, vol.286, pp.300-310, 2016.

J. Jo, S. B. Lee, D. L. Jang, and Y. S. Mok, Plasma-Catalytic Ceramic Membrane Reactor for Volatile Organic Compound Control, IEEE Transaction on Plasma Science, vol.41, issue.10, pp.3021-3029, 2013.

I. Jõgi, E. Levoll, and J. Raud, Plasma oxidation of NO in O 2 :N 2 mixtures: The importance of back-reaction, Chemical Engineering Journal, vol.301, issue.2, pp.149-157, 2016.

M. S. Johnson, E. J. Nilsson, E. A. Svensson, and S. Langer, Gas-Phase Advanced Oxidation for Effective, Efficient in Situ Control of Pollution, Environmental Science and Technology, vol.48, issue.15, pp.8768-8776, 2014.

E. Jones, T. Oliphant, and P. Peterson, Open source scientific tools for Python, 2001.

M. S. Kamal, S. A. Razzak, and M. M. Hossain, Catalytic oxidation of volatile organic compounds (VOCs) -A review, Atmospheric Environment, vol.140, pp.117-134, 2016.

O. Karatum and M. A. Deshusses, A comparative study of dilute VOCs treatment in a non-thermal plasma reactor, Chemical Engineering Journal, vol.294, pp.308-315, 2016.

J. Karuppiah, L. Sivachandiran, R. Karvembu, and C. Subrahmanyam, Catalytic nonthermal plasma reactor for the abatement of low concentrations of isopropanol, Chemical Engineering Journal, vol.165, issue.1, pp.194-199, 2010.

H. Kim, Y. Lee, A. Ogata, and S. Futamura, Plasma-driven catalyst processing packed with photocatalyst for gas-phase benzene decomposition, Catalysis Communications, vol.4, pp.347-351, 2003.

H. Kim, A. Ogata, S. Futamura, and A. Tio, Effect of Different Catalysts on the Decomposition of VOCs Using Flow-Type Plasma-Driven Catalysis, IEEE Transaction on Plasma Science, vol.34, issue.3, pp.984-995, 2006.

H. Kim, Y. Teramoto, N. Negishi, and A. Ogata, A multidisciplinary approach to understand the interactions of nonthermal plasma and catalyst: A review, Catalysis Today, vol.256, pp.13-22, 2015.

O. Koeta, Élimination de polluants par plasmas froids et association à la catalyse : Acétaldéhyde et Phénol, 2015.

O. Koeta, N. Blin-simiand, W. Faider, S. Pasquiers, A. Bary et al., Decomposition of acetaldehyde in atmospheric pressure filamentary nitrogen plasma. Plasma Chemistry and Plasma Processing, vol.32, pp.991-1023, 2012.

U. Kogelschatz, Dielectric-Barrier Discharges: Their History, Discharge Physics, and Industrial Applications. Plasma Chemistry and Plasma Processing, vol.23, pp.1-46, 2003.

U. Kogelschatz, Ozone and beyond: the marvelous development of dielectric barrier discharges, Journal of Physics D: Applied Physics, vol.50, 2017.

U. Kogelschatz, B. Eliasson, and W. Egli, Dielectric-Barrier Discharges. Principle and Applications, Journal de Physique IV, vol.7, issue.C4, pp.4-47, 1997.
URL : https://hal.archives-ouvertes.fr/jpa-00255561

E. Koller, Traitement des Pollutions Industrielles. Dunod, 2009.

R. Koppmann, Volatile Organic Compounds in the Atmosphere, 2007.

M. Kotsonis, Diagnostics for characterisation of plasma actuators, Measurement Science and Technology, vol.26, pp.1-30, 2015.

J. Kriegseis, Performance Characterization and Quantification of Dielectric Barrier Discharge Plasma Actuators, 2011.

J. Kriegseis, B. Möller, S. Grundmann, and C. Tropea, Capacitance and power consumption quantification of dielectric barrier discharge (DBD) plasma actuators, Journal of Electrostatics, vol.69, issue.4, pp.302-312, 2011.

J. H. Kroll and J. H. Seinfeld, Chemistry of secondary organic aerosol : Formation and evolution of low-volatility organics in the atmosphere, Atmospheric Environment, vol.42, pp.3593-3624, 2008.

M. Lazaridis, First Principles of Meteorology and Air Pollution. Environmental Pollution, 2011.

S. Liu and M. Neiger, Excitation of dielectric barrier discharges by unipolar submicrosecond square pulses, Journal of Physics D: Applied Physics, vol.34, issue.11, pp.1632-1638, 2001.

Y. N. Liu, L. Braci, S. Cavadias, and S. Ognier, Post-discharge treatment of air effluents polluted by butyl-mercaptan: the role of nitrate radical, Journal of Physics D: Applied Physics, vol.44, issue.095202, pp.1-8, 2011.
URL : https://hal.archives-ouvertes.fr/hal-00599243

E. H. Lock, A. V. Saveliev, and L. A. Kennedy, Methanol and Dimethyl Sulfide Removal by Pulsed Corona Part I: Experiment. Plasma Chemistry and Plasma Processing, vol.26, pp.527-542, 2006.

B. Loeb, The Problem of the Mechanism of Static Spark Discharge, Reviews of Modern Physics, vol.8, 1936.

S. Lovascio, N. Blin-simiand, L. Magne, F. Jorand, and S. Pasquiers, Experimental Study and Kinetic Modeling for Ethanol Treatment by Air Dielectric Barrier Discharges. Plasma Chemistry and Plasma Processing, vol.35, pp.279-301, 2015.

L. Magne, S. Pasquiers, K. Gadonna, P. Jeanney, N. Blin-simiand et al., OH kinetic in high-pressure plasmas of atmospheric gases containing C 2 H 6 studied by absolute measurement of the radical density in a pulsed homogeneous discharge, Journal of Physics D: Applied Physics, vol.42, pp.1-17, 2009.

M. Magureanu, N. B. Mandache, and V. I. Parvulescu, Chlorinated organic compounds decomposition in a dielectric barrier discharge. Plasma Chemistry and Plasma Processing, vol.27, pp.679-690, 2007.

P. Malte and D. Pratt, The role of energy-releasing kinetics in NO x formation: Fuel-lean, jet-stirred co-air combustion, Combustion Science and Technology, vol.9, issue.5-6, pp.221-231, 1974.

T. C. Manley, The Electric Characteristics of the Ozonator Discharge, Journal of The Electrochemical Society, vol.84, issue.1, pp.83-96, 1943.

L. Mao, Z. Chen, X. Wu, X. Tang, S. Yao et al., Plasma-catalyst hybrid reactor with CeO 2 /?-Al 2 O 3 for benzene decomposition with synergetic effect and nano particle by-product reduction, Journal of Hazardous Materials, vol.347, pp.150-159, 2018.

J. M. Meek, A Theory of Spark Discharge, Physical Review, vol.57, p.1940, 1940.

J. Meichsner, M. Schmidt, R. Schneider, and H. Wagner, Nonthermal Plasma Chemistry and Physics, 2012.

N. Mericam-bourdet, Recherche d'optimisation énergétique d'un réacteur plasma froid de traitement d'effluents gazeux chargés en composés organiques volatils à pression atmosphérique, 2012.

N. Mericam-bourdet, M. Kirkpatrick, D. Frochot, E. Odic, and F. Tuvache, Ecoefficient electrical and innovative technology development for indoor air and gas exhaust treatment in industry, ECEE 2011 Summer Study, pp.715-723, 2011.
URL : https://hal.archives-ouvertes.fr/hal-00651471

C. Meusinger, A. B. Bluhme, J. L. Ingemar, A. Feilberg, S. Christiansen et al., Treatment of reduced sulphur compounds and SO 2 by Gas Phase Advanced Oxidation, Chemical Engineering Journal, vol.307, pp.427-434, 2017.

M. Meziane, O. Eichwald, J. P. Sarrette, O. Ducasse, M. Yousfi et al., Electro-hydrodynamics and kinetic modelling of polluted air flow activated by multitip-to-plane corona discharge, Journal of Applied Physics, vol.113, pp.1-9, 2013.

A. Mizuno, Industrial applications of atmospheric non-thermal plasma in environmental remediation, Plasma Physics and Controlled Fusion, vol.49, pp.1-15, 2007.

Y. S. Mok and I. Nam, Modeling of pulsed corona discharge process for the removal of nitric oxide and sulfur dioxide, Chemical Engineering Journal, vol.85, issue.1, pp.87-97, 2002.

, Molecular Products Limited. Technical Data Sheet -Moleculite -Version 7, 2017.

E. Moreau, Airflow control by non-thermal plasma actuators, Journal of Physics D: Applied Physics, vol.40, issue.3, pp.605-636, 2007.
URL : https://hal.archives-ouvertes.fr/hal-00180434

E. Moreau, A. Debien, N. Bénard, T. Jukes, R. Whalley et al., Surface Dielectric Barrier Discharge Plasma Actuators, ERCOFTAC Bulletin, vol.94, pp.5-10, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00382934

R. Munoz, E. C. Sivret, G. Parcsi, R. Lebrero, X. Wang et al., Monitoring techniques for odour abatement assessment, Water Research, vol.44, pp.5129-5149, 2010.

. Nasa, . Nasa-ozone, and . Watch, Ozone Facts, 2016.

S. Nemschokmichal, R. Tschiersch, H. Höft, R. Wild, M. Bogaczyk et al., Impact of volume and surface processes on the pre-ionization of dielectric barrier discharges: advanced diagnostics and fluid modeling, The European Physical Journal D, vol.72, issue.5, p.89, 2018.

E. C. Neyts, Plasma-Surface Interactions in Plasma Catalysis. Plasma Chemistry and Plasma Processing, vol.36, pp.185-212, 2016.

D. B. Nguyen and W. G. Lee, Effects of self-heating in a dielectric barrier discharge reactor on CHF 3 decomposition, Chemical Engineering Journal, vol.294, pp.58-64, 2016.

H. Nizard, P. Jeanney, S. Bentaleb, B. Drazenovic, P. Tardiveau et al., Point-to-Plane Discharge on an Anisotropic Ceramic-Matrix Composite Layer at Atmospheric Pressure, IEEE Transactions on Plasma Science, vol.39, issue.11, pp.2188-2189, 2011.

C. Norsic, J. Tatibouët, C. Batiot-dupeyrat, and E. Fourré, Non thermal plasma assisted catalysis of methanol oxidation on Mn, Ce and Cu oxides supported on ?-Al 2 O 3, Chemical Engineering Journal, vol.304, pp.563-572, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01957795

A. Ogasawara, J. Han, K. Fukunaga, J. Wang, D. Wang et al., Decomposition of Toluene Using Nanosecond-Pulsed-Discharge Plasma Assisted with Catalysts, IEEE Transactions on Plasma Science, vol.43, issue.10, pp.3461-3469, 2015.

A. Ogata, K. Saito, H. H. Kim, M. Sugasawa, H. Aritani et al., Performance of an ozone decomposition catalyst in hybrid plasma reactors for volatile organic compound removal. Plasma Chemistry and Plasma Processing, vol.30, pp.33-42, 2010.

K. Okazaki and T. Nozaki, Ultrashort pulsed barrier discharges and applications, Pure and Applied Chemistry, vol.74, issue.3, pp.447-452, 2002.

R. Ono and T. Oda, Ozone production process in pulsed positive dielectric barrier discharge, Journal of Physics D: Applied Physics, vol.40, issue.1, pp.176-182, 2007.

K. L. Pan, D. L. Chen, G. T. Pan, S. Chong, and M. B. Chang, Removal of phenol from gas streams via combined plasma catalysis, Journal of Industrial and Engineering Chemistry, vol.52, pp.108-120, 2017.

S. Pancheshnyi, S. Biagi, M. C. Bordage, G. J. Hagelaar, W. L. Morgan et al., The LXCat project: Electron scattering cross sections and swarm parameters for low temperature plasma modeling, Chemical Physics, vol.398, issue.1, pp.148-153, 2012.

S. Pasquiers, W. Faider, N. Blin-simiand, L. Magne, P. Jeanney et al., Role of Nitrogen Metastable States in Non-Thermal Plasma Conversion of Volatile Organic Compounds, International Journal of Plasma Environmental Science & Technology, vol.6, issue.2, pp.149-155, 2012.

J. Perktold, S. Seabold, and J. Taylor, About Statsmodels, 2018.

G. Petitpas, J. Rollier, A. Darmon, J. Gonzalez-aguilar, R. Metkemeijer et al., A comparative study of non-thermal plasma assisted reforming technologies, International Journal of Hydrogen Energy, vol.32, pp.2848-2867, 2007.

R. Peyrous, P. Pignolet, and B. Held, Kinetic simulation of gaseous species created by an electrical discharge in dry or humid oxygen, Journal of Physics D: Applied Physics, vol.22, pp.1658-1667, 1989.

U. Platt and J. Stutz, Atmospheric Chemistry, Differential Optical Absorption Spectroscopy: Principles and Applications, Physics of Earth and Space Environments, pp.5-77, 2008.

T. Poinsot and D. Veynante, Theoretical and Numerical Combustion, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00270731

N. A. Popov, Fast gas heating in a nitrogen-oxygen discharge plasma : I. Kinetic mechanism, Journal of Physics D: Applied Physics, vol.44, p.16, 2011.

M. Prantsidou and J. C. Whitehead, The Chemistry of Gaseous Dodecane Degradation in a BaTiO 3 Packed-Bed Plasma Reactor. Plasma Chemistry and Plasma Processing, vol.35, pp.159-172, 2015.

H. Qi, Y. Liu, Z. Fan, and C. Ren, Effects of Airflows on Nanosecond Pulsed Dielectric Barrier Discharge at Atmospheric Pressure, IEEE Transactions on Plasma Science, vol.43, issue.10, pp.3662-3667, 2015.

R. Systems, The PID Handbook, 2013.

M. Ragazzi, P. Tosi, E. Cristina, V. Torretta, and M. Schiavon, Effluents from MBT plants : Plasma techniques for the treatment of VOCs, Waste Management, vol.34, issue.11, pp.2400-2406, 2014.

A. Rohatgi and . Webplotdigitizer, , pp.29-35, 2018.

L. A. Rosocha and R. A. Korzekwa, Removal of Volatile Organic Compounds (VOCs) by Atmospheric-Pressure Dielectric-Barrier and Pulsed-Corona Electrical Discharges, Electrical discharges for environmental purposes, pp.245-278, 1999.

J. J. Ruan, W. Li, Y. Shi, Y. Nie, X. Wang et al., Decomposition of simulated odors in municipal wastewater treatment plants by a wire-plate pulse corona reactor, Chemosphere, vol.59, issue.3, pp.327-333, 2005.

H. Sadat, N. Dubus, V. L. Dez, J. Tatibouët, and J. Barrault, A simple model for transient temperature rise and fall in a dielectric barrier discharge reactor after ignition and shut down, Journal of Electrostatics, vol.68, issue.1, pp.27-30, 2010.

H. Sadat, N. Dubus, L. Pinard, J. M. Tatibouet, and J. Barrault, Conduction heat transfer in a cylindrical dielectric barrier discharge reactor, Applied Thermal Engineering, vol.29, issue.5-6, pp.1259-1263, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00423699

H. Sadat, N. Dubus, and J. M. Tatibouët, Temperature runaway in a pulsed dielectric barrier discharge reactor, Applied Thermal Engineering, vol.37, pp.324-328, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00835449

W. A. Saoud, A. A. Assadi, M. Guiza, A. Bouzaza, W. Aboussaoud et al., Study of synergetic effect, catalytic poisoning and regeneration using dielectric barrier discharge and photocatalysis in a continuous reactor: Abatement of pollutants in air mixture system, Applied Catalysis B : Environmental, vol.213, pp.53-61, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01542763

J. Sawerysyn, Chimie multiphasique du formaldéhyde dans la troposphère, Air Pur, vol.74, pp.22-28, 2008.

M. Schiavon, M. Scapinello, P. Tosi, M. Ragazzi, V. Torretta et al., Potential of non-thermal plasmas for helping the biodegradation of volatile organic compounds (VOCs) released by waste management plants, Journal of Cleaner Production, vol.104, pp.211-219, 2015.

M. Schiavon, M. Schiorlin, V. Torretta, R. Brandenburg, and M. Ragazzi, Nonthermal plasma assisting the bio-filtration of volatile organic compounds, Journal of Cleaner Production, vol.148, pp.498-508, 2017.

M. Schiorlin, E. Marotta, M. Rea, and C. Paradisi, Comparison of toluene removal in air at atmospheric conditions by different corona discharges, Environmental Science and Technology, vol.43, issue.24, pp.9386-9392, 2009.

M. Schmidt, M. Schiorlin, and R. Brandenburg, Studies on the electrical behaviour and removal of toluene with a dielectric barrier discharge, Open Chemistry, vol.13, issue.1, pp.477-483, 2015.

T. Shao, H. Jiang, C. Zhang, P. Yan, and M. I. Lomaev, Time behaviour of discharge current in case of nanosecond-pulse surface dielectric barrier discharge, Europhysics Letters), vol.101, issue.45002, 2013.

T. Shao, C. Zhang, Y. Yu, Z. Fang, and P. Yan, Temporal evolution of nanosecond-pulse dielectric barrier discharges in open air, Europhysics Letters), vol.97, issue.5, p.55005, 2012.

M. Shrivastava, C. D. Cappa, J. Fan, A. H. Goldstein, A. B. Guenther et al., Recent advances in understanding secondary organic aerosol: Implications for global climate forcing, Reviews of Geophysics, vol.55, pp.509-559, 2017.

L. Sivachandiran, J. Karuppiah, and C. Subrahmanyam, DBD plasma reactor for oxidative decomposition of chlorobenzene, International Journal of Chemical Reactor Engineering, vol.10, pp.1-13, 2012.

R. Snoeckx and A. Bogaerts, Plasma technology -a novel solution for CO 2 conversion ?, Chemical Society Reviews, vol.46, pp.5805-5863, 2017.

M. Sobacchi, .. V. Saveliev, A. Fridman, A. Gutsol, and L. Kennedy, Experimental assessment of pulsed corona discharge for treatment of VOC emissions. Plasma chemistry and plasma processing, vol.23, pp.347-370, 2003.

B. Sportisse, Fundamentals in Air Pollution: From Process to Modelling, 2010.

A. Y. Starikovskii, A. A. Nikipelov, M. M. Nudnova, and D. V. Roupassov, SDBD plasma actuator with nanosecond pulse-periodic discharge, Plasma Sources Science and Technology, vol.18, p.34015, 2009.

R. Storn and K. Price, Differential Evolution -A Simple and Efficient Heuristic for Global Optimization over Continuous Spaces, Journal of Global Optimization, vol.11, pp.341-359, 1997.

C. Subrahmanyam, M. Magureanu, A. Renken, and L. Kiwi-minsker, Catalytic abatement of volatile organic compounds assisted by non-thermal plasma -Part 1. A novel dielectric barrier discharge reactor containing catalytic electrode, Applied Catalysis B: Environmental, vol.65, pp.150-156, 2006.

C. Subrahmanyam and A. Renken, Catalytic abatement of volatile organic compounds assisted by non-thermal plasma -Part II. Optimized catalytic electrode and operating conditions, Applied Catalysis B: Environmental, vol.65, pp.157-162, 2006.

S. Sultana, A. M. Vandenbroucke, C. Leys, N. D. Geyter, and R. Morent, Abatement of VOCs with Alternate Adsorption and Plasma-Assisted Regeneration: A, Review. Catalysts, vol.5, pp.718-746, 2015.

K. Takaki, J. Nishimura, and S. Koide, Decomposition of Ethylene Using Dual-Polarities Pulsed Dielectric Barrier Discharge, IEEE Transactions on Plasma Science, vol.43, issue.10, pp.3476-3482, 2015.

K. Takashima, Y. Zuzeek, W. R. Lempert, and I. V. Adamovich, Characterization of a surface dielectric barrier discharge plasma sustained by repetitive nanosecond pulses, Plasma Sources Science and Technology, vol.20, issue.5, p.55009, 2011.

F. Thevenet, Plasma-catalyst coupling for volatile organic compound removal and indoor air treatment : a review, Journal of Physics D: Applied Physics, vol.47, pp.1-14, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01549395

J. Townsend, The Conductivity Produced in Gases by the Motion of Negativelycharged Ions, Nature, vol.62, pp.340-341, 1900.

G. S. Tyndall, J. J. Orlando, T. J. Wallington, M. D. Hurley, M. Goto et al., Mechanism of the reaction of OH radicals with acetone and acetaldehyde at 251 and 296 K, Physical Chemistry Chemical Physics, vol.4, issue.2, pp.2189-2193, 2002.

T. Unfer and J. Boeuf, Modelling of a nanosecond surface discharge actuator, Journal of Physics and Chemistry of Solids, vol.42, p.194017, 2009.

, Directive 2010/75/UE du 24/11/10 relative aux émissions industrielles, 2010.

. Uniqair and . Home, , 2018.

. Uniqair and . Plasma-injector?-sustainable, , 2018.

J. Van-durme, J. Dewulf, W. Sysmans, C. Leys, and H. Van-langenhove, Abatement and degradation pathways of toluene in indoor air by positive corona discharge, Chemosphere, vol.68, pp.1821-1829, 2007.

A. M. Vandenbroucke, M. Mora, C. Jiménez-sanchidrián, F. J. Romero-salguero, N. De et al., TCE abatement with a plasma-catalytic combined system using MnO 2 as catalyst, Applied Catalysis B, Environmental, pp.94-100, 2014.

A. M. Vandenbroucke, R. Morent, N. D. Geyter, and C. Leys, Non-thermal plasmas for non-catalytic and catalytic VOC abatement, Journal of Hazardous Materials, vol.195, pp.30-54, 2011.

J. Villermaux, Deformation of Chromatographic Peaks Under the Influence of Mass Transfer Phenomena m, Journal of Chromatographic Science, vol.12, pp.822-831, 1974.

J. Villermaux, Chemical engineering approach to dynamic modelling of linear chromatography, Journal of Chromatography, vol.406, pp.11-26, 1987.

J. Villermaux, Génie de la Réaction Chimique. TEC & DOC, 1993.

B. Wang, C. Chi, M. Xu, C. Wang, and D. Meng, Plasma-catalytic removal of toluene over CeO 2 -MnO x catalysts in an atmosphere dielectric barrier discharge, Chemical Engineering Journal, vol.322, pp.679-692, 2017.

Z. S. Wei, H. Q. Li, J. C. He, Q. H. Ye, Q. R. Huang et al., Removal of dimethyl sulfide by the combination of non-thermal plasma and biological process, Bioresource Technology, vol.146, pp.451-456, 2013.

H. G. Weller, G. Tabor, H. Jasak, and C. Fureby, A tensorial approach to computational continuum mechanics using object-oriented techniques, Computer in Physics, vol.12, pp.620-631, 1998.

J. C. Whitehead, Plasma-catalysis : the known knowns , the known unknowns and the unknown unknowns, Journal of Physics D: Applied Physics, vol.49, pp.1-24, 2016.

J. M. Williamson, D. D. Trump, P. Bletzinger, and B. N. Ganguly, Comparison of high-voltage ac and pulsed operation of a surface dielectric barrier discharge, Journal of Physics D: Applied Physics, vol.39, pp.4400-4406, 2006.

J. Wu, Y. Huang, Q. Xia, and Z. Li, Decomposition of Toluene in a Plasma Catalysis System with NiO, Fe 2 O 3 , and CuO Catalysts. Plasma Chemistry and Plasma Processing, vol.2, pp.1073-1082, 2013.

Z. Wu, J. Wang, J. Han, S. Yao, S. Xu et al., Naphthalene Decomposition by Dielectric Barrier Discharges at Atmospheric Pressure, IEEE Transactions on Plasma Science, vol.45, issue.1, pp.154-161, 2017.

Z. Wu, Z. Zhu, X. Hao, W. Zhou, J. Han et al., Enhanced oxidation of naphthalene using plasma activation of TiO 2 /diatomite catalyst, Journal of Hazardous Materials, vol.347, pp.48-57, 2018.

N. Xu, W. Fu, C. He, and L. Cao, Benzene Removal Using Non-thermal Plasma with CuO/AC Catalyst: Reaction Condition Optimization and Decomposition Mechanism. Plasma Chemistry and Plasma Processing, pp.1387-1402, 2014.

X. Xu, J. Wu, W. Xu, M. He, M. Fu et al., High-efficiency non-thermal plasma-catalysis of cobalt incorporated mesoporous MCM-41 for toluene removal, Catalysis Today, vol.281, pp.527-533, 2017.

K. Yan, E. J. Van-heesch, A. J. Pemen, and P. A. Huijbrechts, From chemical kinetics to streamer corona reactor and voltage pulse generator. Plasma Chemistry and Plasma Processing, vol.21, pp.107-137, 2001.

S. Yao, S. Weng, Q. Jin, H. Lu, Z. Wu et al., Mechanism of Decane Decomposition in a Pulsed Dielectric Barrier Discharge Reactor, IEEE Transaction on Plasma Science, vol.44, issue.11, pp.2660-2666, 2016.

Z. Ye, J. Giraudon, N. De, R. Geyter, J. Morent et al., The Design of MnO x Based Catalyst in Post-Plasma Catalysis Configuration for Toluene Abatement, Catalysts, vol.8, issue.91, pp.1-32, 2018.

M. Zadeh, Étude d'une pompe active EHD basée sur la mise en oeuvre de décharges de surface pour le traitement des effluents gazeux d'origine industrielle, 2014.

X. Zhang, B. Gao, A. E. Creamer, C. Cao, and Y. Li, Adsorption of VOCs onto engineered carbon materials : A review, Journal of Hazardous Materials, vol.338, pp.102-123, 2017.

Z. Zhang, Z. Jiang, and W. Shangguan, Low-temperature catalysis for VOCs removal in technology and application : A state-of-the-art review, Catalysis Today, vol.264, pp.270-278, 2016.

Z. Zhao, Y. D. Cui, J. Li, J. Zheng, and B. C. Khoo, On the boundary flow using pulsed nanosecond DBD plasma actuators, Modern Physics letter, vol.32, pp.1-5, 2018.

C. Zheng, X. Zhu, X. Gao, L. Liu, Q. Chang et al., Experimental study of acetone removal by packed-bed dielectric barrier discharge reactor, Journal of Industrial and Engineering Chemistry, vol.20, issue.5, pp.2761-2768, 2014.

C. Zhu, Y. Liu, J. Lu, Z. Yang, Y. Li et al., Decomposition of Ethanethiol Using Dielectric Barrier Discharge Combined with 185 nm UV-Light Technique. Plasma Chemistry and Plasma Processing, vol.35, pp.355-364, 2015.

X. Zhu, X. Gao, X. Yu, C. Zheng, and X. Tu, Catalyst screening for acetone removal in a single-stage plasma-catalysis system, Catalysis Today, vol.256, pp.108-114, 2015.

X. Zhu, X. Gao, C. Zheng, Z. Wang, M. Ni et al., Plasma-catalytic removal of a low concentration of acetone in humid conditions, RSC Advances, vol.4, pp.37796-37805, 2014.

X. Zhu, S. Zhang, Y. Yang, C. Zheng, J. Zhou et al., Enhanced performance for plasma-catalytic oxidation of ethyl acetate over La 1?x Ce x CoO 3+? catalysts, Ap, vol.213, pp.97-105, 2017.

Y. Zhu, Y. Wu, W. Cui, Y. Li, and M. Jia, Modelling of plasma aerodynamic actuation driven by nanosecond SDBD, Journal of Physics D: Applied Physics, vol.46, issue.355205, p.16, 2013.

. V1-?20, , vol.35, p.58

. S1b-?20, 05 ?12,93 ?6,05 ?2,30 ?8,77 ?1, vol.87, p.68