Helmholtz-Zentrum Dresden-Rossendorf
Partikeldynamik
Herr Dr. Gregory Lecrivain
Leiter Partikeldynamik
Telefon
+49 351 260 3768
g.lecrivainhzdr.de
Links
Deposition and resuspension of aerosol particles in turbulent flows
Capture of mineral particles by rising bubbles
Pollutant propagation in urban systems
Binary granular mixing with ultrafast X-ray computed tomography
Particle separation at gas-liquid interfaces
ORCID: 0000-0003-0540-3426
Adresse
Gebäude/Raum
Bautzner Landstraße 400 - 01328 Dresden
770/230
Who am I?
I am an experienced European scientist with solid expertise gained from three research-intensive European countries (FR, UK, DE) and Japan in groups led by world-leading experts in multiphase flows. My two-year stay at Kyoto University was supported by a highly competitive EU Marie Sklodowska Curie Individual Global Fellowship. I currently lead an independent research group on particle fluid dynamics at HZDR.
Ten publications representative of my research
Banari, A.; Hertel, D.; Schlink, U.; Hampel U.; Lecrivain, G.
Simulation of particle resuspension by wind in an urban system
Environmental Fluid Mechanics 23(2023), 41-63
Papapetrou, T. N.; Lecrivain, G.; Bieberle, M.; Boudouvis, A.; Hampel, U.
An improved contact method for quantifying the mixing of a binary granular mixture
Granular Matter 23(2021), 15
Nozomi, A.; Watanabe, S.; Miyahara, M. T.; Yamamoto, R.; Hampel, U.; Lecrivain, G.
Direct observation of the attachment behavior of hydrophobic colloidal particles onto a bubble surface
Soft Matter 16(2020), 695-702
Lecrivain, G.; Grein, T. B. P.; Yamamoto, R.; Hampel, U.; Taniguchi, T.
Eulerian/Lagrangian formulation for the elasto-capillary deformation of a flexible fibre
Journal of Computational Physics 409(2020), 109324
Lecrivain, G.; Kotani, Y.; Yamamoto, R.; Hampel, U.; Taniguchi, T.
Diffuse interface model to simulate the rise of a fluid droplet across a cloud of particles
Physical Review Fluids 3(2018)9, 094002
Lecrivain, G.; Yamamoto, R.; Hampel, U.; Taniguchi, T.
Direct numerical simulation of a particle attachment to an immersed bubble
Physics of Fluids 28(2016), 083301
Lecrivain, G.; Rayan, R.; Hurtado, A.; Hampel, U.
Using quasi-DNS to investigate the deposition of elongated aerosol particles in a wavy channel flow
Computers & Fluids 124(2016), 78-85
Lecrivain, G.; Petrucci, G.; Rudolph, M.; Hampel, U.; Yamamoto, R.
Attachment of solid elongated particles on the surface of a stationary gas bubble
International Journal of Multiphase Flow 71(2015), 83-93
Lecrivain, G.; Barry, L.; Hampel, U.
Three-dimensional simulation of multilayer particle deposition in an obstructed channel flow
Powder Technology 258(2014), 134-143
Barth, T.; Lecrivain, G.; Hampel, U.
Particle deposition study in a horizontal turbulent duct flow using optical microscopy and particle size spectrometry
Journal of Aerosol Science 60(2013), 47-54