| 1 |
Numerical study of heat transfer in gravity-driven dense particle flow around a hexagonal tube
Tian X, Yang J, Guo ZG, Wang QW, Sunden B
Powder Technology, 367, 285, 2020 |
| 2 |
Vortical flow patterns by the cooperative effect of convective and conductive heat transfers in particle-dispersed natural convection
Gu JC, Takeuchi S, Fukada T, Kajishima T
International Journal of Heat and Mass Transfer, 130, 946, 2019 |
| 3 |
Particle motion and heat transfer in an upward-flowing dense particle suspension: Application in solar receiver
Garcia-Trinanes P, Seville JPK, Ansart R, Benoit H, Leadbeater TW, Parker DJ
Chemical Engineering Science, 177, 313, 2018 |
| 4 |
Influence of Rayleigh number and solid volume fraction in particle-dispersed natural convection
Gu JC, Takeuchi S, Kajishima T
International Journal of Heat and Mass Transfer, 120, 250, 2018 |
| 5 |
Dense gas-particle suspension upward flow used as heat transfer fluid in solar receiver: PEPT experiments and 3D numerical simulations
Ansart R, Garcia-Trinanes P, Boissiere B, Benoit H, Seville JPK, Simonin O
Powder Technology, 307, 25, 2017 |
| 6 |
Particle circulation loops in solar energy capture and storage: Gas-solid flow and heat transfer considerations
Zhang HL, Benoit H, Gauthier D, Degreve J, Baeyens J, Lopez IP, Hemati M, Flamant G
Applied Energy, 161, 206, 2016 |
| 7 |
Simulation of the behavior of a dense SIC particle suspension as an energy transporting vector using computational fluid dynamics (CFD)
Urrutia AR, Benoit H, Zambon M, Gauthier D, Flamant G, Mazza G
Chemical Engineering Research & Design, 106, 141, 2016 |
| 8 |
Hydrodynamics and particle motion in upward flowing dense particle suspensions: Application in solar receivers
Garcia-Trinanes P, Seville J, Boissiere B, Ansart R, Leadbeater T, Parker D
Chemical Engineering Science, 146, 346, 2016 |
| 9 |
EXPERIMENTAL HYDRODYNAMIC STUDY OF GAS-PARTICLE DENSE SUSPENSION UPWARD FLOW FOR APPLICATION AS NEW HEAT TRANSFER AND STORAGE FLUID
Boissiere B, Ansart R, Gauthier D, Flamant G, Hemati M
Canadian Journal of Chemical Engineering, 93(2), 317, 2015 |
| 10 |
Simulation of shock-powder interaction using kinetic theory of granular flow
Liu HX, Guo YC, Lin WY
Powder Technology, 273, 133, 2015 |
