On the use of the Serpent Monte Carlo code for few-group cross section generation E Fridman, J Leppänen Annals of Nuclear Energy 38 (6), 1399-1405, 2011 | 181 | 2011 |
The reactor dynamics code DYN3D–models, validation and applications U Rohde, S Kliem, U Grundmann, S Baier, Y Bilodid, S Duerigen, ... Progress in Nuclear Energy 89, 170-190, 2016 | 152 | 2016 |
Overview of methodology for spatial homogenization in the Serpent 2 Monte Carlo code J Leppänen, M Pusa, E Fridman Annals of Nuclear Energy 96, 126-136, 2016 | 140 | 2016 |
Calculation of effective point kinetics parameters in the Serpent 2 Monte Carlo code J Leppänen, M Aufiero, E Fridman, R Rachamin, S van der Marck Annals of Nuclear Energy 65, 272-279, 2014 | 126 | 2014 |
Coupled neutronic thermo-hydraulic analysis of full PWR core with Monte-Carlo based BGCore system D Kotlyar, Y Shaposhnik, E Fridman, E Shwageraus Nuclear Engineering and Design 241 (9), 3777-3786, 2011 | 84 | 2011 |
Modeling of SFR cores with Serpent–DYN3D codes sequence E Fridman, E Shwageraus Annals of Nuclear Energy 53, 354-363, 2013 | 77 | 2013 |
Pu recycling in a full Th-MOX PWR core. Part I: Steady state analysis E Fridman, S Kliem Nuclear engineering and design 241 (1), 193-202, 2011 | 73 | 2011 |
Neutronic analysis of SFR core with HELIOS-2, Serpent, and DYN3D codes R Rachamin, C Wemple, E Fridman Annals of Nuclear Energy 55, 194-204, 2013 | 71 | 2013 |
Solution of the OECD/NEA neutronic SFR benchmark with Serpent-DYN3D and Serpent-PARCS code systems E Nikitin, E Fridman, K Mikityuk Annals of Nuclear Energy 75, 492-497, 2015 | 65 | 2015 |
Comparison among MCNP-based depletion codes applied to burnup calculations of pebble-bed HTR lattices E Bomboni, N Cerullo, E Fridman, G Lomonaco, E Shwageraus Nuclear Engineering and Design 240 (4), 918-924, 2010 | 61 | 2010 |
ESFR-SMART: new Horizon-2020 project on SFR safety K Mikityuk, J Krepel, E Girardi | 57 | 2017 |
On the use of the SPH method in nodal diffusion analyses of SFR cores E Nikitin, E Fridman, K Mikityuk Annals of Nuclear Energy 85, 544-551, 2015 | 55 | 2015 |
Efficient generation of one-group cross sections for coupled Monte Carlo depletion calculations E Fridman, E Shwageraus, A Galperin Nuclear Science and Engineering 159 (1), 37-47, 2008 | 42 | 2008 |
Implementation of multi-group cross-section methodology in BGCore MC-depletion code E Fridman, E Shwageraus, A Galperin | 40 | 2008 |
Investigations on in-vessel melt retention by external cooling for a generic VVER-1000 reactor P Tusheva, E Altstadt, HG Willschütz, E Fridman, FP Weiß Annals of Nuclear Energy 75, 249-260, 2015 | 38 | 2015 |
X2 VVER-1000 benchmark revision: Fresh HZP core state and the reference Monte Carlo solution Y Bilodid, E Fridman, T Lötsch Annals of Nuclear Energy 144, 107558, 2020 | 34 | 2020 |
Development and verification of the coupled 3D neutron kinetics/thermal-hydraulics code DYN3D-HTR for the simulation of transients in block-type HTGR U Rohde, S Baier, S Duerigen, E Fridman, S Kliem, B Merk Nuclear engineering and design 251, 412-422, 2012 | 34* | 2012 |
High conversion Th-U233 fuel for current generation of PWRs: Part I–Assembly level analysis D Baldova, E Fridman, E Shwageraus Annals of Nuclear Energy 73, 552-559, 2014 | 31 | 2014 |
Revised methods for few-group cross section generation in the Serpent Monte Carlo code E Fridman, J Leppänen Proceeding of the PHYSOR 2012, 2012 | 30 | 2012 |
The use of Th in HTR: state of the art and implementation in Th/Pu fuel cycles G Mazzini, E Bomboni, N Cerullo, E Fridman, G Lomonaco, ... Science and Technology of Nuclear Installations 2009, 2009 | 29 | 2009 |