Theoretical and experimental study of radiant heat transfer in a solar fluidized-bed receiver

The axial and radial variation of the heat transfer coefficient in a circulating fluidized bed riser column, and the effect of operating parameters thereon, are investigated. The experimental set-up consists of a riser column of 102 mm;102 mm in bed cross-section, 5•25 m in height with a return leg

The heat transfer coefficients between the particles and the fluidizing medium under unsteady state conditions, are determined by transient heating of cold water stream, with hot solid particles dropped into the fluidizing bed, in a specially designed liquid fluidizing column. Heat transfer coeffici

## Abstract The approach of combined discrete particle simulation (DPS) and computational fluid dynamics (CFD), which has been increasingly applied to the modeling of particle‐fluid flow, is extended to study particle‐particle and particle‐fluid heat transfer in packed and bubbling fluidized beds a

Heat transfer improvement in a water wall tube with "ns was investigated in a circulating #uidized bed (CFB) boiler. Experiments were "rst conducted in a 6 MWth CFB boiler then a model was developed to analyse and interpolate the results. Temperatures at some discrete points within the wall cross-se