Convective drying of an individual iron ore pellet–Analysis with CFD AL Ljung, TS Lundström, BD Marjavaara, K Tano International Journal of Heat and Mass Transfer 54 (17-18), 3882-3890, 2011 | 62 | 2011 |
Computational fluid dynamics modeling and validating experiments of airflow in a data center E Wibron, AL Ljung, TS Lundström Energies 11 (3), 644, 2018 | 58 | 2018 |
Discrete and continuous modeling of heat and mass transport in drying of a bed of iron ore pellets AL Ljung, V Frishfelds, TS Lundström, BD Marjavaara Drying Technology 30 (7), 760-773, 2012 | 56 | 2012 |
An experimental study of temperature distribution in an autoclave NEJ Kluge, TS Lundström, AL Ljung, LG Westerberg, T Nyman Journal of reinforced plastics and composites 35 (7), 566-578, 2016 | 40 | 2016 |
Energy savings in data centers: A framework for modelling and control of servers’ cooling R Lucchese, J Olsson, AL Ljung, W Garcia-Gabin, D Varagnolo IFAC-PapersOnLine 50 (1), 9050-9057, 2017 | 27 | 2017 |
Experimental study of the internal flow in freezing water droplets on a cold surface L Karlsson, H Lycksam, AL Ljung, P Gren, TS Lundström Experiments in Fluids 60, 1-10, 2019 | 25 | 2019 |
Influence of air humidity on drying of individual iron ore pellets AL Ljung, TS Lundström, BD Marjavaara, K Tano Drying technology 29 (9), 1101-1111, 2011 | 25 | 2011 |
Design considerations to prevent thermal hazards in cylindrical lithium-ion batteries: An analytical study A Moosavi, AL Ljung, TS Lundström Journal of Energy Storage 38, 102525, 2021 | 19 | 2021 |
Modelling heat transfer during flow through a random packed bed of spheres PEC Burström, V Frishfelds, AL Ljung, TS Lundström, BD Marjavaara Heat and Mass Transfer 54, 1225-1245, 2018 | 19 | 2018 |
Evaporation of a sessile water droplet subjected to forced convection in humid environment AL Ljung, T Staffan Lundström Drying Technology 37 (1), 129-138, 2019 | 18 | 2019 |
Simulation of convective drying of a cylindrical iron ore pellet AL Ljung, T Staffan Lundström, K Tano International Journal of Numerical Methods for Heat & Fluid Flow 21 (6), 703-716, 2011 | 18 | 2011 |
Review of the numerical modeling of compression molding of sheet molding compound G Alnersson, MW Tahir, AL Ljung, TS Lundström Processes 8 (2), 179, 2020 | 17 | 2020 |
Heat and mass transfer boundary conditions at the surface of a heated sessile droplet AL Ljung, TS Lundström Heat and Mass Transfer 53, 3581-3591, 2017 | 17 | 2017 |
Comparing performance metrics of partial aisle containments in hard floor and raised floor data centers using CFD E Wibron, AL Ljung, TS Lundström Energies 12 (8), 1473, 2019 | 16 | 2019 |
Modelling the dynamics of the flow within freezing water droplets L Karlsson, AL Ljung, TS Lundström Heat and Mass Transfer 54, 3761-3769, 2018 | 16 | 2018 |
Challenges and opportunities within simulation-driven functional product development and operation J Pavasson, AL Ljung, M Karlberg, IAS Larsson, S Johansson, ... Procedia CIRP 22, 169-174, 2014 | 16 | 2014 |
Simulation of heat transfer and fluid flow in a porous bed of iron ore pellets during up-draught drying AL Ljung, TS Lundström, K Tano Simulation 13, 15, 2006 | 15 | 2006 |
Evaluating hydrogen gas transport in pipelines: current state of numerical and experimental methodologies A Raj, IAS Larsson, AL Ljung, T Forslund, R Andersson, J Sundström, ... International Journal of Hydrogen Energy 67, 136-149, 2024 | 10 | 2024 |
A study on the effect of cell spacing in large-scale air-cooled battery thermal management systems using a novel modeling approach A Moosavi, AL Ljung, TS Lundström Journal of Energy Storage 72, 108418, 2023 | 10 | 2023 |
A modelling methodology for assessing use of datacenter waste heat in greenhouses M Sandberg, M Risberg, AL Ljung, D Varagnolo, D Xiong, M Nilsson Third International Conference on Environmental Science and Technology …, 2017 | 9 | 2017 |