| On the constitutive equations for fluid particle breakage J Solsvik, S Tangen, HA Jakobsen Reviews in Chemical Engineering 29 (5), 241-356, 2013 | 150 | 2013 |
| Modeling of multicomponent mass diffusion in porous spherical pellets: Application to steam methane reforming and methanol synthesis J Solsvik, HA Jakobsen Chemical Engineering Science 66 (9), 1986-2000, 2011 | 111 | 2011 |
| Single drop breakup experiments in stirred liquid–liquid tank J Solsvik, HA Jakobsen Chemical Engineering Science 131, 219-234, 2015 | 106 | 2015 |
| Definition of the single drop breakup event J Solsvik, S Maaß, HA Jakobsen Industrial & Engineering Chemistry Research 55 (10), 2872-2882, 2016 | 85 | 2016 |
| The foundation of the population balance equation: a review J Solsvik, HA Jakobsen Journal of Dispersion Science and Technology 36 (4), 510-520, 2015 | 85 | 2015 |
| On the population balance equation F Sporleder, Z Borka, J Solsvik, HA Jakobsen Reviews in Chemical Engineering 28 (2-3), 149-169, 2012 | 75 | 2012 |
| Development of fluid particle breakup and coalescence closure models for the complete energy spectrum of isotropic turbulence J Solsvik, HA Jakobsen Industrial & Engineering Chemistry Research 55 (5), 1449-1460, 2016 | 69 | 2016 |
| A review of the statistical turbulence theory required extending the population balance closure models to the entire spectrum of turbulence J Solsvik, HA Jakobsen AIChE Journal 62 (5), 1795-1820, 2016 | 68 | 2016 |
| A numerical study of multicomponent mass diffusion and convection in porous pellets for the sorption-enhanced steam methane reforming and desorption processes KR Rout, J Solsvik, AK Nayak, HA Jakobsen Chemical engineering science 66 (18), 4111-4126, 2011 | 68 | 2011 |
| A numerical study of a two property catalyst/sorbent pellet design for the sorption-enhanced steam–methane reforming process: Modeling complexity and parameter sensitivity study J Solsvik, HA Jakobsen Chemical engineering journal 178, 407-422, 2011 | 64 | 2011 |
| Single air bubble breakup experiments in stirred water tank J Solsvik, HA Jakobsen International Journal of Chemical Reactor Engineering 13 (4), 477-491, 2015 | 54 | 2015 |
| A theoretical study on drop breakup modeling in turbulent flows: The inertial subrange versus the entire spectrum of isotropic turbulence J Solsvik, VT Skjervold, L Han, H Luo, HA Jakobsen Chemical Engineering Science 149, 249-265, 2016 | 50 | 2016 |
| Applicability of a modified breakage and coalescence model based on the complete turbulence spectrum concept for CFD simulation of gas-liquid mass transfer in a stirred tank … L Niño, R Gelves, H Ali, J Solsvik, H Jakobsen Chemical Engineering Science 211, 115272, 2020 | 45 | 2020 |
| Effects of Jacobi polynomials on the numerical solution of the pellet equation using the orthogonal collocation, Galerkin, tau and least squares methods J Solsvik, HA Jakobsen Computers & Chemical Engineering 39, 1-21, 2012 | 44 | 2012 |
| Implementation of chemical reaction equilibrium by Gibbs and Helmholtz energies in tubular reactor models: Application to the steam–methane reforming process J Solsvik, T Haug-Warberg, HA Jakobsen Chemical Engineering Science 140, 261-278, 2016 | 38 | 2016 |
| A survey of multicomponent mass diffusion flux closures for porous pellets: Mass and molar forms J Solsvik, HA Jakobsen Transport in porous media 93, 99-126, 2012 | 36 | 2012 |
| Evaluation of weighted residual methods for the solution of the pellet equations: The orthogonal collocation, Galerkin, tau and least-squares methods J Solsvik, S Tangen, HA Jakobsen Computers & chemical engineering 58, 223-259, 2013 | 35 | 2013 |
| CFD and kinetic‐based modeling to optimize the sparger design of a large‐scale photobioreactor for scaling up of biofuel production H Ali, J Solsvik, JL Wagner, D Zhang, K Hellgardt, CW Park Biotechnology and Bioengineering 116 (9), 2200-2211, 2019 | 34 | 2019 |
| Simulations of steam methane reforming/sorption-enhanced steam methane reforming bubbling fluidized bed reactors by a dynamic one-dimensional two-fluid model: Implementation … J Solsvik, RA Sánchez, Z Chao, HA Jakobsen Industrial & Engineering Chemistry Research 52 (11), 4202-4220, 2013 | 31 | 2013 |
| Single drop breakage in turbulent flow: Statistical data analysis EH Herø, N La Forgia, J Solsvik, HA Jakobsen Chemical Engineering Science: X 8, 100082, 2020 | 30 | 2020 |
