Benchmark numerical simulations of segmented two-phase flows in microchannels using the Volume of Fluid method DA Hoang, V van Steijn, LM Portela, MT Kreutzer, CR Kleijn Computers & Fluids 86, 28-36, 2013 | 283 | 2013 |
Statistics of particle dispersion in direct numerical simulations of wall-bounded turbulence: Results of an international collaborative benchmark test C Marchioli, A Soldati, JGM Kuerten, B Arcen, A Taniere, G Goldensoph, ... International Journal of Multiphase Flow 34 (9), 879-893, 2008 | 280 | 2008 |
Fully resolved simulations of colliding monodisperse spheres in forced isotropic turbulence AT Cate, JJ Derksen, LM Portela, HEA Akker J. Fluid Mech 519, 233-271, 2004 | 276 | 2004 |
Numerical simulation of particle-laden turbulent channel flow Y Li, JB McLaughlin, K Kontomaris, L Portela Physics of Fluids 13 (10), 2957-2967, 2001 | 254 | 2001 |
Dynamics of droplet breakup in a T-junction DA Hoang, LM Portela, CR Kleijn, MT Kreutzer, V Van Steijn Journal of Fluid Mechanics 717, R4, 2013 | 157 | 2013 |
Time and spatially resolved measurements of interfacial waves in vertical annular flow RJ Belt, JMC Van’t Westende, HM Prasser, LM Portela International Journal of Multiphase Flow 36 (7), 570-587, 2010 | 148 | 2010 |
On the role of droplets in cocurrent annular and churn-annular pipe flow JMC Van’t Westende, HK Kemp, RJ Belt, LM Portela, RF Mudde, ... International journal of multiphase flow 33 (6), 595-615, 2007 | 120 | 2007 |
Prediction of the interfacial shear-stress in vertical annular flow RJ Belt, JMC Van’t Westende, LM Portela International journal of multiphase flow 35 (7), 689-697, 2009 | 110 | 2009 |
Eulerian–Lagrangian DNS/LES of particle–turbulence interactions in wall‐bounded flows LM Portela, RVA Oliemans International journal for numerical methods in fluids 43 (9), 1045-1065, 2003 | 110 | 2003 |
Numerical study of the near-wall behaviour of particles in turbulent pipe flows LM Portela, P Cota, RVA Oliemans Powder technology 125 (2-3), 149-157, 2002 | 95 | 2002 |
On the combined effects of turbulence and gravity on droplet collisions in clouds: a numerical study EJP Woittiez, HJJ Jonker, LM Portela Journal of the atmospheric sciences 66 (7), 1926-1943, 2009 | 75 | 2009 |
Simulation of a slurry airlift using a two-fluid model RS Oey, RF Mudde, LM Portela, HEA Van Den Akker Chemical engineering science 56 (2), 673-681, 2001 | 73 | 2001 |
Design and characterization of bubble-splitting distributor for scaled-out multiphase microreactors DA Hoang, C Haringa, LM Portela, MT Kreutzer, CR Kleijn, V van Steijn Chemical Engineering Journal 236, 545-554, 2014 | 65 | 2014 |
Identification and characterization of vortices in the turbulent boundary layer LM Portela Stanford University, 1998 | 64 | 1998 |
The effect of surfactants on air–water annular and churn flow in vertical pipes. Part 1: Morphology of the air–water interface AT Van Nimwegen, LM Portela, R Henkes International Journal of Multiphase Flow 71, 133-145, 2015 | 62 | 2015 |
The effect of surfactants on vertical air/water flow for prevention of liquid loading AT van Nimwegen, LM Portela, RA Henkes SPE Journal 21 (02), 488-500, 2016 | 53 | 2016 |
The relation between the dynamic surface tension and the foaming behaviour in a sparger setup D Kawale, AT Van Nimwegen, LM Portela, MA Van Dijk, R Henkes Colloids and Surfaces A: Physicochemical and Engineering Aspects 481, 328-336, 2015 | 48 | 2015 |
The effect of surfactants on air–water annular and churn flow in vertical pipes. Part 2: Liquid holdup and pressure gradient dynamics AT Van Nimwegen, LM Portela, R Henkes International Journal of Multiphase Flow 71, 146-158, 2015 | 42 | 2015 |
Possibilities and limitations of computer simulations of industrial turbulent dispersed multiphase flows LM Portela, RVA Oliemans Flow, turbulence and combustion 77, 381-403, 2006 | 40 | 2006 |
The effect of surfactants on upward air–water pipe flow at various inclinations AT Van Nimwegen, LM Portela, R Henkes International Journal of Multiphase Flow 78, 132-147, 2016 | 36 | 2016 |