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11. 14th International Symposium on Hazards, Prevention and Mitigation of Industrial Explosions, Proceedings

Author

Adamus, Wojciech, Addo, Albert, Alvarez-Rodriguez, Alberto, Amez, Isabel, Amyotte, Paul, Arnhold, Thorsten, Arntzen, Bjørn, Askar, Enis, Barbu, Bogdan, Barozzi, Marco, Bauwens, Regis, Bendada, Samah, Benke, Alexander, Berger, Frank, Berghmans, Jan, Bernard, Stephane, Beyer, Michael, Boeck, Lorenz, Brunzendorf, Jens, Bu, Yajie, Buchner, Christoph, Castells, Blanca, Chang, Pojul, Chen, Tengfei, Chunmiao, Yuan, Cloney, Chris, Conzen, Jens, Copelli, Sabrina, Danzi, Enrico, Dastidar, Ashok, Daubech, Jérôme, Degrève, Jan, Derudi, Marco, D'Hyon, Sebastian, Di Benedetto, Almerinda, Dobashi, Ritsu, Dorofeev, Sergey, Dueñas Santana, Julio Ariel, Dufaud, Olivier, Dufour, Anthony, Dworschak, Rene, Dyduch, Zdzisław, Dymke, Jessica, Dyrba, Patrick, Eckart, Sven, Egan, Simon, El Gadha, Chayma, El-Zahlanieh, Stephanie, Endo, Takuma, Engelmann, Frank, Essmann, Stefan, Franchini, Fausto, Franke, Steffen, Gabel, Dieter, Gambaruto, Alberto, Garcia-Torrent, Javier, Geoerg, Paul, Gerlach, Johanna, Glaude, Pierre-Alexandre, Glor, Martin, González Gómez, Orelvis, Grosshans, Holger, Guo, Yongzheng, Habib, Abdel Karim, Hébrard, Jérôme, Hecht, Kristin, Heer, Christian, Heilmann, Vanessa, Herbst, Sabrina, Hesener, Ute, Hilbert, Michael, Hisken, Helene, Huang, Chen, Huang, Weixing, Jankůj, Vojtěch, Jantac, Simon, Jean, Amelie, Johzaki, Tomoyuki, Kanbur, Harun, Kapahi, Anil Kapahi, Khan, Faisal, Kim, Wookyung, Kim, Yangkyun, Kleinert, Jan, Kluge, Martin, Koch, Florian, Kraft, Stefan, Krause, Harmut, Krause, Tim, Krause, Ulrich, Krietsch, Arne, Lakshmipathy, Sunil, Lecocq, Guillaume, León, David, Leprette, Emmanuel, Lindner-Silwester, Tino, Lucas, Melodía, Maas, Ulrich, Manchikatla, Manideep, Mao, Gongping, Mao, Huan, Markus, Detlev, Marmo, Luca, Martin, Conor, McCarthy-Singh, Bisham, Medic, Ljiljana, Meistes, Jörg, Mejía-Botero, Cristian, Melguizo-Gavilanes, Josué, Meyer, Georg, Mitu, Maria, Mogi, Toshio, Mynarz, Miroslav, Norman, Frederik, Orozco, Jesus Luis, Padron Herrera, Victor Hugo, Pan, Yangyue, Pietraccini, Matteo, Pirker, Stefan, Portarapillo, Maria, Proust, Christophe, Puttinger, Stefan, Raupenstrauch, Harald, Ren, Kaiyue, Salzano, Ernesto, Sanchirico, Roberto, Schießl, Robert, Schneiderbauer, Simon, Schüler, Niklas, Scotton, Martina Silvia, Shepherd, Joseph, Shu, Bo, Siegle, Leo, Skjold, Trygve, Skrinsky, Jan, Spijker, Christoph, Spitzer, Stefan, Springer, Niels, Stolpe, Frank, Stolz, Thomas, Tanaka, Keita, Taveau, Jerome, Thurnherr, Peter, Toman, Adrian, Trofa, Marco, Uber, Carsten, Ueda, Akihiro, Uhrland, Dirk, Valera-Medina, Agustin, Van Caneghem, Jo, van Wingerden, Kees, Vanierschot, Maarten, Veiga-López, Fernando, Verplaetsen, Filip, Vignes, Alexis, Walch, Otto, Wandt, Joachim, Wang, Jian, Wei, Aizhu, William Louis, Mame, Wu, Dejian, Xu, Wenchao, Xu, Zhijian, Yu, Chunkan, Zakel, Sabine, Zhao, Peng, and Zhong, Shengjun

Subjects
Explosion Protection, Explosions, Process Safety, Industrial Loss Prevention, Gas Dynamics
Abstract

It is our pleasure to present the proceedings of the 14th International Symposium on Hazards, Prevention, and Mitigation of Industrial Explosions (ISHPMIE). Despite the ongoing global challenges, we are happy to compile proceedings consisting of 60 high-quality papers that reflect the scientific state-of-the-art in the following topical categories: Advances in explosion protection: Strategies, measures, and protective equipment; Explosion modelling and simulation; Explosion testing; Hydrogen safety; Explosion prevention; Dust explosions; Explosion-protected devices; Hybrid mixture explosions; Flame propagation and acceleration; Ignition phenomena. All articles in this volume have been subject to a peer-review process administered by the Proceeding Editors. We are thankful to the 70 expert referees who guaranteed the professional and scientific standards expected of ISHPMIE.

Published
2023
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13. A flame propagation model for nanopowders

Author

Santandrea, Audrey, Torrado, David, Pietraccini, Matteo, Vignes, Alexis, Perrin, Laurent, Dufaud, Olivier, Civs, Gestionnaire, Institut National de l'Environnement Industriel et des Risques (INERIS), Laboratoire Réactions et Génie des Procédés (LRGP), and Centre National de la Recherche Scientifique (CNRS)-Université de Lorraine (UL)

Subjects
MODELING, [SDE.IE]Environmental Sciences/Environmental Engineering, FLAME PROPAGATION, NANOPARTICLES, DUST EXPLOSION, [SDE.IE] Environmental Sciences/Environmental Engineering
Abstract

International audience; The determination of explosion severity should be made from intrinsic properties of the fuel-air mixture in order to avoid the influence of external parameters, such as the vessel volume or the initial turbulence. To overcome such limitations, the flame propagation of gaseous mixtures is often studied in order to estimate their laminar burning velocity, which is independent of external factors and is a useful input for CFD simulation and for the sizing of protective devices. Experimentally, this parameter is difficult to evaluate when it comes to dust explosion due to the inherent turbulence during the dispersion of the cloud. However, the low inertia of nanoparticles allows performing tests at very low turbulence without sedimentation. Knowledge on flame propagation concerning nanoparticles may then be modelled and, under certain conditions, extrapolated to microparticles, for which an experimental measurement is a delicate task. This work then focused a nanocellulose with primary fiber dimensions of 3 nm width and 70 nm length. A one-dimensional model was developed to estimate the flame velocity of a nanocellulose explosion, based on an existing model already validated for hybrid mixtures of gas and carbonaceous nanopowders similar to soot. Due to the fast devolatilization of organic powders, the chemical reactions considered are limited to the combustion of the pyrolysis gases. The finite volume method was used to solve the mass and energy balances equations and mass reactions rates constituting the numerical system. Finally, the radiative heat transfer was also considered, highlighting the influence of the total surface area of the particles on the thermal radiation. Flame velocities of nanocellulose from 17.5 to 20.8 cm.s-1 were obtained numerically depending on the radiative heat transfer, which proves a good agreement with the values around 21 cm.s-1 measured experimentally by flame visualization and allows the validation of the model for nanoparticles.

Published
2020

14. 13th International Symposium on Hazards, Prevention and Mitigation of Industrial Explosions, Proceedings

Author

Baumann, Florian, Beyer, Michael, Brandes, Elisabeth, Brunzendorf, Jens, Chowhan, Sai charan singh, Esmaeelzade, Ghazaleh, Essmann, Stefan, Grosshans, Holger, Hau, Michael, Heilmann, Vanessa, Hilbert, Michael, Himstedt, Matthias, Hirsch, Werner, Krause, Tim, Kummer, Johann-Robert, Lienesch, Frank, Markus, Detlev, Möckel, Dieter, Stolz, Thomas, Susanti, Nuki, Taiwo, Adeyemi, Thedens, Martin, Uber, Carsten, Zakel, Sabine, Abbas, Zaheer, Adamus, Wojciech, Addis, James, Addo, Albert, Allason, Dan, Amez, Isabel, Amyotte, Paul, Askar, Enis, Atanga, Gordon, Ballossier, Yves, Bambauer, Maximilian, Barbu, Bogdan, Barfuss, Christoph, Barowy, Adam, Bauwens, Regis, Bedarev, Igor, Ben Moussa, Rym, Berger, Frank, Berghmans, Jan, Bernard, Laurence, Betteridge, Steven, Bi, Mingshu, Boeck, Lorenz, Brown, Connor, Calero, Mathieu, Carcassi, Marco, Castells, Blanca, Chakraborty, Nilanjan, Chang, Pojul, Charvet, Augustin, Chasko, Linda, Chen, Jenq-Renn, Chen, Tengfei, Cloney, Chris, Clouthier, Martin, Danzi, Enrico, Degrève, Jan, Delon, Eloise, Demoulin, François-Xavier, Dobashi, Ritsu, Dorofeev, Sergey, Drost, Simon, Dufaud, Olivier, Dufour, Anthony, Dutertre, Antoine, Dyduch, Zdzisław, Eckhoff, Rolf, Elio Medina, Javier, El-Zahlanieh, Stéphanie, Endo, Takuma, Erdt, René, Eugene, Y. Ngai, Fernandez Anez, Nieves, Fišerová, Eliška, Franke, Steffen, Franken, Fabian, Franquet, Erwin, Frette, Vidar, Frost, Kirstin, Gabel, Dieter, Gandhi, Pravin, Gao, Wei, Garcia-Torrent, Javier, Geoerg, Paul, Glaude, Pierre-Alexandre, Glechner, Julian, Gödde, Markus, Gorny, Michal, Grønsund Hanssen, Arve, Groß, Hans-Jürgen, Guhathakurta, Swagnik, Hacke, Susanne, Hagen, Bjarne Christian, Harris, Marcia, Hasslberger, Josef, Hébrard, Jérôme, Heilbronn, Daniel, Hisken, Helene, Houim, Ryan, Hu, Qianran, Hu, Yang, Huang, Lei, Hüttenbrenner, Katja, Jallais, Simon, Jambut, Romain, Jamois, Didier, Jenney, Lorraine, Jiang, Haipeng, Johnson, Mike, Johzaki, Tomoyuki, Jones, Silken, Joubert, Lauris, Kadoke, Daniel, Kao, Ting-Jia, Karl, Jan, Kern, Hannes, Khmel, Tatyana, Kim, Wookyung, Klein, Markus, Kleppe, Gisle, Klieger, Alexandra, Klima, Scott, Kong, Depeng, Kornev, Nikolai, Koubkova, Milada, Krause, Ulrich, Krietsch, Arne, Kristen, Andor, Lach, Agnieszka, Lakshmipathy, Sunil, Langrée, Cléante, Lavruk, Sergey, Lecocq, Guillaume, Lee, Chun-Yi, Lefebvre, Xavier, Lepík, Petr, Leprette, Emmanuel, Leroy, Guillaume, Li, Jianguo, Li, Mingzhi, Li, Pengliang, Li, Xuan, Liebner, Christian, Lin, Yu-Jhen, Lin, Zhi-Xuan, Liu, Zhenyi, Lucas, Melodia, Lüth, Peter, Lv, Pengfei, Maas, Ulrich, Malow, Marcus, Marmo, Luca, Marteau, Thibault, Martin, Conor, Mauri, Lorenzo, Medic, Ljiljana, Meier, Mirko, Mele, Maria Luisa, Melguizo-Gavilanes, Josué, Meyer, Anita, Michael-Schulz, Heike, Miller, Derek, Mitu, Maria, Mogi, Toshio, Mynarz, Miroslav, Namba, Takumi, Nguyen, Trung, Norman, Frederik, Ogungbemide, Damilare, Pacault, Stéphanie, Pan, Yangyue, Pang, Lei, Papalexandris, Miltiadis V., Pekalski, Andrzej, Perera, Inoka, Perrin, Laurent, Pietraccini, Matteo, Pini, Tommaso, Pio, Gianmaria, Plischka, Henry, Proust, Christophe, Quillatre, Pierre, Rao, Vendra Chandra Madhav, Ratschow, Aaron, Raupenstrauch, Harald, Raval, Priyank, Reveillon, Julien, Reyes Rodriguez, Monica, Ripley, Robert, Russo, Paola, Salg, Steffen, Salzano, Ernesto, Santandrea, Audrey, Sattelmayer, Thomas, Schiavetti, Martino, Schießl, Robert, Schmidt, Martin, Schröder, Volkmar, Seitz, Franziska, Ševčik, Libor, Shenton, Martyn, Shepherd, Joseph, Sinha, Anubhav, Skjold, Trygve, Snoeys, Jef, Spijker, Christoph, Spitzer, Stefan, Stein, Sigrun, Suchý, Ondřej, Sun, Xiaomeng, Tai, Hui-Chu, Toman, Adrian, Torrado, David, Toth, Florian, Tribouilloy, Benoit, Tropin, Dmitry, Tsai, Hsiao-Yun, Tulach, Ales, Turnow, Johann, Uhlig, Steffen, Uhrland, Dirk, Vagner Gaathaug, Andre, Van Caneghem, Jo, van Wingerden, Kees, van Wingerden, Matthijs, Vanierschot, Maarten, Velagala, Subrahmanyeswara, Verplaetsen, Filip, Vignes, Alexis, Virot, Florent, Vyazmina, Elena, Wang, Changjian, Wen, Jennifer, Werler, Marc, Wu, Chunwei, Wu, Dejian, Yang, Kai, Zalosh, Robert, Zhang, Shulin, Zhao, Yao, and Physikalisch-Technische Bundesanstalt (PTB)

Subjects
Explosion Protection, Explosions, Process Safety, Industrial Loss Prevention, Gas Dynamics
Abstract

It is our pleasure to present the proceedings of the 13th International Symposium on Hazards, Prevention, and Mitigation of Industrial Explosions (ISHPMIE). The publication of these proceedings was heavily affected by the global situation. In light of these challenges, we are happy to compile proceedings consisting of 84 high-quality papers that reflect the scientific state-of-the-art in the following topical categories: Advances in explosion protection: Strategies, measures, and protective equipment; Detonations and DDT; Electro-chemical energy carriers; Explosion modelling and simulation; Explosion prevention; Explosion properties of substances and mixtures; Explosion testing; Explosions of sprays and vapors; Flame propagation and acceleration; Gas, dust, and hybrid mixture explosions; Hydrogen safety and Ignition phenomena. All articles in this volume have been subject to a peer review process administered by the proceeding editors.

Published
2020

15. Organic Dust Explosions: Is It All Just About Pyrolysis?

Author

Pietraccini, Matteo, Badu, Peter, Glaude, Pierre-Alexandre, Dufour, Anthony, and Dufaud, Olivier

Subjects
DUST explosions, PYROLYSIS, PARTICLE size distribution, CELLULOSE, BIOCHAR, HEAT radiation & absorption
Abstract

Several phenomena occur during a dust explosion and they can impact the overall kinetics: external convection, internal particle heating, pyrolysis reaction and gaseous-phase combustion. According to the particle size distribution, the powder nature, the external temperature and heating rate, any of these steps can be rate-limiting and must therefore be detailed in order to serve as a basis for the explosion modelling. But under which conditions the pyrolysis reaction can be considered as the rate-limiting step of the global phenomenon? For this study, a Godbert-Greenwald furnace was modified to ensure its airtightness and cellulose samples were dispersed through the heated chamber by argon pulses. At the outlet, pyrolysis products were collected and analysed. These tests led to the formulation of a representative gas composition produced by the pyrolysis of cellulose. This representative model gas was then used for explosions tests. The hybrid mixtures of cellulose and pyrolysis gas showed a peculiar behaviour: as the dust-to-gas ratio increased, maximum rate of pressure rise initially increased, then it decreased, while the maximum explosion pressure did not vary significantly. The powder boosting effect on the rate of pressure rise was thus observed. Therefore, the study of the radiative heat transfer mode by adding biochar enlightened a major dependency of the flame propagation on the radiation. In fact, small amounts of char (higher emissivity than cellulose) were enough to significantly increase the rate of pressure rise, with a small influence on the maximum pressure. The pyrolysis step must be considered as a major rate-limiting step in a dust explosion phenomenon, but other ones may play an important role, such as the radiative heat transfer to the particle and the particle heating step. In such a way, these phenomena seemed to control and to determine the flammability and explosibility characteristic of a powder. [ABSTRACT FROM AUTHOR]

Published
2022
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16. Investigation of the Fluid Dynamic of the Modified Hartmann Tube Equipment by High-Speed Video Processing.

Author

Danzi, Enrico, Franchini, Fausto, Dufaud, Olivier, Pietraccini, Matteo, and Marmo, Luca

Subjects
VIDEO processing, FLUID dynamics, FLAMMABILITY, TURBULENCE, ELECTRONIC data processing
Abstract

Hartmann tube equipment is used in the dust explosion experimental test to screen the flammability of powdered materials (according to ISO 80079-20) and to determine the Minimum ignition energy of dust (UNI EN 13824:2004). For the test, the nominal concentration, as the ratio between the dust sample mass and the chamber test volume (1.2 liters), is considered, assuming a uniform concentration distribution. Even though adopted as standard procedure, this approach does not consider the dust cloud's non-stationary conditions inside the tube: the effect of turbulence decrease and dust sedimentation during the test duration will affect the dust concentration locally and globally within the test enclosure. Moreover, it is well known that the turbulence intensity influences Minimum Ignition Energy. This work derives from previous investigation on describing the dust cloud behavior within dust explosibility laboratory apparatuses. High-speed video recordings have recently been adopted to support the dust cloud dynamic analysis and visualize the cloud dispersion within a standard test setup, as the 20 L sphere and the modified Hartmann tube. This work intends to use different high-speed videos of dust dispersions in the modified Hartmann tube, with different injection pressure and sample mass, to focus on the behavior of the cloud at the typical delay time of the MIE measurement, i.e., 60-180 ms. Each video is processed frame by frame to reveal information on the cloud dynamics, otherwise hidden. The dust dynamic is accounted for calculating the variation in time of the brightness of pixels. This way, it is possible to obtain a set of data that incorporate the effects of the dust cloud distribution and the velocity of the particles' clusters. The experimental data processing will help to focus on the time-scale and the length scale of the turbulence. The next study will focus on evaluating the time and space scale of the dust cloud and identifying the effect of ignition time delay on the MIE measurement to provide indications to operate at the most conservative conditions (higher concentration) and to avoid issues and under/overestimates due to agglomeration, sedimentation or segregation of dust particles. [ABSTRACT FROM AUTHOR]

Published
2021
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17. Comparison of 3 olive oil residues for fuelling a gasifier

Author

Ducom, Gaëlle, Gautier, Mathieu, Pietraccini, Matteo, Gourdon, Rémy, Déchets Eaux Environnement Pollutions (DEEP), Institut National des Sciences Appliquées de Lyon (INSA Lyon), Université de Lyon-Institut National des Sciences Appliquées (INSA)-Université de Lyon-Institut National des Sciences Appliquées (INSA), Politecnico di Torino = Polytechnic of Turin (Polito), and Gautier, Mathieu

Subjects
[CHIM.INOR] Chemical Sciences/Inorganic chemistry, [CHIM.ANAL] Chemical Sciences/Analytical chemistry, [SDE.IE]Environmental Sciences/Environmental Engineering, [CHIM.INOR]Chemical Sciences/Inorganic chemistry, [SDU.ENVI] Sciences of the Universe [physics]/Continental interfaces, environment, [SDU.STU.AG] Sciences of the Universe [physics]/Earth Sciences/Applied geology, [CHIM.ANAL]Chemical Sciences/Analytical chemistry, [SDU.STU.GC]Sciences of the Universe [physics]/Earth Sciences/Geochemistry, [SDU.STU.GC] Sciences of the Universe [physics]/Earth Sciences/Geochemistry, [SDE.IE] Environmental Sciences/Environmental Engineering, [SDU.ENVI]Sciences of the Universe [physics]/Continental interfaces, environment, [SDU.STU.AG]Sciences of the Universe [physics]/Earth Sciences/Applied geology, ComputingMilieux_MISCELLANEOUS, [SDU.STU.MI] Sciences of the Universe [physics]/Earth Sciences/Mineralogy, [SDU.STU.MI]Sciences of the Universe [physics]/Earth Sciences/Mineralogy
Abstract

International audience

Published
2018

18. Analytical characterization of olive oil solid residues for their potential use as a gasification fuel

Author

Ducom, Gaëlle, Gautier, Mathieu, Pietraccini, Matteo, Gourdon, Rémy, Gautier, Mathieu, Development and demonstration of a hybrid CSP-biomass gasification boiler system - - BIOSOL2015 - ANR-15-NMED-0011 - ERA-Net MED - VALID, Déchets Eaux Environnement Pollutions (DEEP), Institut National des Sciences Appliquées de Lyon (INSA Lyon), Université de Lyon-Institut National des Sciences Appliquées (INSA)-Université de Lyon-Institut National des Sciences Appliquées (INSA), Politecnico di Torino = Polytechnic of Turin (Polito), and ANR-15-NMED-0011,BIOSOL,Development and demonstration of a hybrid CSP-biomass gasification boiler system(2015)

Subjects
[SDE.IE]Environmental Sciences/Environmental Engineering, [SDE.IE] Environmental Sciences/Environmental Engineering, ComputingMilieux_MISCELLANEOUS
Abstract

International audience

Published
2018

20. 13th International Symposium on Hazards, Prevention and Mitigation of Industrial Explosions, Proceedings

Author

Baumann, Florian, Beyer, Michael, Brandes, Elisabeth, Brunzendorf, Jens, Chowhan, Sai charan singh, Esmaeelzade, Ghazaleh, Essmann, Stefan, Grosshans, Holger, Hau, Michael, Heilmann, Vanessa, Hilbert, Michael, Himstedt, Matthias, Hirsch, Werner, Krause, Tim, Kummer, Johann-Robert, Lienesch, Frank, Markus, Detlev, Möckel, Dieter, Stolz, Thomas, Susanti, Nuki, Taiwo, Adeyemi, Thedens, Martin, Uber, Carsten, Zakel, Sabine, Abbas, Zaheer, Adamus, Wojciech, Addis, James, Addo, Albert, Allason, Dan, Amez, Isabel, Amyotte, Paul, Askar, Enis, Atanga, Gordon, Ballossier, Yves, Bambauer, Maximilian, Barbu, Bogdan, Barfuss, Christoph, Barowy, Adam, Bauwens, Regis, Bedarev, Igor, Ben Moussa, Rym, Berger, Frank, Berghmans, Jan, Bernard, Laurence, Betteridge, Steven, Bi, Mingshu, Boeck, Lorenz, Brown, Connor, Calero, Mathieu, Carcassi, Marco, Castells, Blanca, Chakraborty, Nilanjan, Chang, Pojul, Charvet, Augustin, Chasko, Linda, Chen, Jenq-Renn, Chen, Tengfei, Cloney, Chris, Clouthier, Martin, Danzi, Enrico, Degrève, Jan, Delon, Eloise, Demoulin, François-Xavier, Dobashi, Ritsu, Dorofeev, Sergey, Drost, Simon, Dufaud, Olivier, Dufour, Anthony, Dutertre, Antoine, Dyduch, Zdzisław, Eckhoff, Rolf, Elio Medina, Javier, El-Zahlanieh, Stéphanie, Endo, Takuma, Erdt, René, Eugene, Y. Ngai, Fernandez Anez, Nieves, Fišerová, Eliška, Franke, Steffen, Franken, Fabian, Franquet, Erwin, Frette, Vidar, Frost, Kirstin, Gabel, Dieter, Gandhi, Pravin, Gao, Wei, Garcia-Torrent, Javier, Geoerg, Paul, Glaude, Pierre-Alexandre, Glechner, Julian, Gödde, Markus, Gorny, Michal, Grønsund Hanssen, Arve, Groß, Hans-Jürgen, Guhathakurta, Swagnik, Hacke, Susanne, Hagen, Bjarne Christian, Harris, Marcia, Hasslberger, Josef, Hébrard, Jérôme, Heilbronn, Daniel, Hisken, Helene, Houim, Ryan, Hu, Qianran, Hu, Yang, Huang, Lei, Hüttenbrenner, Katja, Jallais, Simon, Jambut, Romain, Jamois, Didier, Jenney, Lorraine, Jiang, Haipeng, Johnson, Mike, Johzaki, Tomoyuki, Jones, Silken, Joubert, Lauris, Kadoke, Daniel, Kao, Ting-Jia, Karl, Jan, Kern, Hannes, Khmel, Tatyana, Kim, Wookyung, Klein, Markus, Kleppe, Gisle, Klieger, Alexandra, Klima, Scott, Kong, Depeng, Kornev, Nikolai, Koubkova, Milada, Krause, Ulrich, Krietsch, Arne, Kristen, Andor, Lach, Agnieszka, Lakshmipathy, Sunil, Langrée, Cléante, Lavruk, Sergey, Lecocq, Guillaume, Lee, Chun-Yi, Lefebvre, Xavier, Lepík, Petr, Leprette, Emmanuel, Leroy, Guillaume, Li, Jianguo, Li, Mingzhi, Li, Pengliang, Li, Xuan, Liebner, Christian, Lin, Yu-Jhen, Lin, Zhi-Xuan, Liu, Zhenyi, Lucas, Melodia, Lüth, Peter, Lv, Pengfei, Maas, Ulrich, Malow, Marcus, Marmo, Luca, Marteau, Thibault, Martin, Conor, Mauri, Lorenzo, Medic, Ljiljana, Meier, Mirko, Mele, Maria Luisa, Melguizo-Gavilanes, Josué, Meyer, Anita, Michael-Schulz, Heike, Miller, Derek, Mitu, Maria, Mogi, Toshio, Mynarz, Miroslav, Namba, Takumi, Nguyen, Trung, Norman, Frederik, Ogungbemide, Damilare, Pacault, Stéphanie, Pan, Yangyue, Pang, Lei, Papalexandris, Miltiadis V., Pekalski, Andrzej, Perera, Inoka, Perrin, Laurent, Pietraccini, Matteo, Pini, Tommaso, Pio, Gianmaria, Plischka, Henry, Proust, Christophe, Quillatre, Pierre, Rao, Vendra Chandra Madhav, Ratschow, Aaron, Raupenstrauch, Harald, Raval, Priyank, Reveillon, Julien, Reyes Rodriguez, Monica, Ripley, Robert, Russo, Paola, Salg, Steffen, Salzano, Ernesto, Santandrea, Audrey, Sattelmayer, Thomas, Schiavetti, Martino, Schießl, Robert, Schmidt, Martin, Schröder, Volkmar, Seitz, Franziska, Ševčik, Libor, Shenton, Martyn, Shepherd, Joseph, Sinha, Anubhav, Skjold, Trygve, Snoeys, Jef, Spijker, Christoph, Spitzer, Stefan, Stein, Sigrun, Suchý, Ondřej, Sun, Xiaomeng, Tai, Hui-Chu, Toman, Adrian, Torrado, David, Toth, Florian, Tribouilloy, Benoit, Tropin, Dmitry, Tsai, Hsiao-Yun, Tulach, Ales, Turnow, Johann, Uhlig, Steffen, Uhrland, Dirk, Vagner Gaathaug, Andre, Van Caneghem, Jo, van Wingerden, Kees, van Wingerden, Matthijs, Vanierschot, Maarten, Velagala, Subrahmanyeswara, Verplaetsen, Filip, Vignes, Alexis, Virot, Florent, Vyazmina, Elena, Wang, Changjian, Wen, Jennifer, Werler, Marc, Wu, Chunwei, Wu, Dejian, Yang, Kai, Zalosh, Robert, Zhang, Shulin, and Zhao, Yao

Subjects
Explosion Protection, 020401 chemical engineering, 0103 physical sciences, Explosions, 02 engineering and technology, 0204 chemical engineering, Process Safety, Industrial Loss Prevention, 01 natural sciences, 010305 fluids & plasmas, Gas Dynamics
Abstract

It is our pleasure to present the proceedings of the 13th International Symposium on Hazards, Prevention, and Mitigation of Industrial Explosions (ISHPMIE). The publication of these proceedings was heavily affected by the global situation. In light of these challenges, we are happy to compile proceedings consisting of 84 high-quality papers that reflect the scientific state-of-the-art in the following topical categories: Advances in explosion protection: Strategies, measures, and protective equipment; Detonations and DDT; Electro-chemical energy carriers; Explosion modelling and simulation; Explosion prevention; Explosion properties of substances and mixtures; Explosion testing; Explosions of sprays and vapors; Flame propagation and acceleration; Gas, dust, and hybrid mixture explosions; Hydrogen safety and Ignition phenomena. All articles in this volume have been subject to a peer review process administered by the proceeding editors.

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