1. Akhil Marayikkottu Vijayan, Deborah A. Levin, “A gas dynamic perspective on particle lifting in electrostatic discharge-like devices using multiphase particle-in-cell approach”, Physics of Fluids, 35:7 (2023)  crossref
  2. Ya.E. Poroshyna, P.S. Utkin, “Numerical simulation of a normally incident shock wave – dense particles layer interaction using the Godunov solver for the Baer–Nunziato equations”, International Journal of Multiphase Flow, 142 (2021), 103718  crossref
  3. Akhil V. Marayikkottu, Saurabh S. Sawant, Deborah A. Levin, Ci Huang, Mirko Schoenitz, Edward L. Dreizin, “Study of particle lifting mechanisms in an electrostatic discharge plasma”, International Journal of Multiphase Flow, 137 (2021), 103564  crossref
  4. Vijaya Kumar Cheeda, “Turbulent flame propagation in corn dust clouds formed in confined and open spaces”, SN Appl. Sci., 2:8 (2020)  crossref
  5. Yifan Song, Qi Zhang, “The quantitative studies on gas explosion suppression by an inert rock dust deposit”, Journal of Hazardous Materials, 353 (2018), 62  crossref
  6. P. Żydak, P. Oleszczak, R. Klemens, “Experimental research on dust lifting by propagating shock wave”, Shock Waves, 27:2 (2017), 179  crossref
  7. O. J. Ugarte, R. W. Houim, E. S. Oran, “Examination of the forces controlling dust dispersion by shock waves”, Phys. Rev. Fluids, 2:7 (2017)  crossref
  8. H. Greg Johnston, Amira Y. Chowdhury, M. Sam Mannan, Eric L. Petersen, “Effect of coal-limestone mixtures on dust dispersion behind a moving shock wave”, Journal of Loss Prevention in the Process Industries, 44 (2016), 551  crossref
  9. A. Y. Chowdhury, B. D. Marks, H. Greg Johnston, M. Sam Mannan, E. L. Petersen, “A new facility for studying shock-wave passage over dust layers”, Shock Waves, 26:2 (2016), 129  crossref
  10. Amira Y. Chowdhury, H. Greg Johnston, Brandon Marks, M. Sam Mannan, Eric L. Petersen, “Effect of shock strength on dust entrainment behind a moving shock wave”, Journal of Loss Prevention in the Process Industries, 36 (2015), 203  crossref
  11. B. Marks, A. Chowdhury, E. L. Petersen, M. S. Mannan, 29th International Symposium on Shock Waves 2, 2015, 1523  crossref
  12. Hanna Utkilen, Boris V. Balakin, Pawel Kosinski, “Numerical study of dust lifting using the Eulerian–Eulerian approach”, Journal of Loss Prevention in the Process Industries, 27 (2014), 89  crossref
  13. Patrick J. Wayne, Peter Vorobieff, Hugh Smyth, Tennille Bernard, Clint Corbin, Andy Maloney, Joseph Conroy, Ross White, Michael Anderson, Sanjay Kumar, C. Randall Truman, Deepti Srivastava, “Shock-Driven Particle Transport Off Smooth and Rough Surfaces”, Journal of Fluids Engineering, 135:6 (2013)  crossref
  14. R. Klemens, P. Oleszczak, P. Zydak, “Experimental and numerical investigation into the dynamics of dust lifting up from the layer behind the propagating shock wave”, Shock Waves, 23:3 (2013), 263  crossref
  15. А. В. Фёдоров, И. А. Федорченко, “Численное моделирование распространения ударной волны в смеси газа и твердых частиц”, Физика горения и взрыва, 46:5 (2010), 97–107  mathnet; A. V. Fedorov, I. A. Fedorchenko, “Numerical simulation of shock wave propagation n a mixture of a gas and solid particles”, Combustion, Explosion and Shock Waves, 46:5 (2010), 578–588  mathnet  crossref
  16. A. V. Fedorov, I. A. Fedorchenko, “Numerical modeling of the coal-and-gas outburst gasdynamics”, J Min Sci, 46:5 (2010), 473  crossref
  17. А. В. Фёдоров, И. А. Федорченко, “Взаимодействие нормально падающей ударной волны со слоем пористого материала, расположенным на твердой стенке”, Физика горения и взрыва, 46:1 (2010), 102–108  mathnet; A. V. Fedorov, I. A. Fedorchenko, “Interaction of a normally incident shock wave with a porous material layer on a solid wall”, Combustion, Explosion and Shock Waves, 46:1 (2010), 89–95  mathnet  crossref
  18. П. А. Фомин, Дж.-Р. Чен, “Влияние химически инертных частиц на параметры и подавление детонации в газах”, Физика горения и взрыва, 45:3 (2009), 77–88  mathnet; P. A. Fomin, J.-R. Chen, “Effect of chemically inert particles on parameters and suppression of detonation in gases”, Combustion, Explosion and Shock Waves, 45:3 (2009), 303–313  mathnet  crossref
  19. Catalin G. Ilea, Pawel Kosinski, Alex C. Hoffmann, “The effect of polydispersity on dust lifting behind shock waves”, Powder Technology, 196:2 (2009), 194  crossref
  20. Pavel A. Fomin, Jenq-Renn Chen, “Effect of Chemically Inert Particles on Thermodynamic Characteristics and Detonation of a Combustible Gas”, Combustion Science and Technology, 181:8 (2009), 1038  crossref
1
2
Следующая