Because solid particles accumulated clusters by the chaotic interactions between the void and the solid phases, the gas-solid flow in a circulating fluidized bed (CFB) displayed multi-scales dynamic behaviors. The time-variant features would be neglected by the analytic method using some parameters, eg. the mean and the standard deviation of the solids hold-up signals measured in CFB. The solids hold-up fluctuation signals of Geldart group B particles (glass bead: particle size=115 μm, density=2462 kg/m3) in the bottom dense region and the splash zone of CFB (0.108 m i.d. and 5.75 m height) were measured by a fiber optic probe in this study. Because the solids hold-up signals displayed multi-scales and time-variant dynamic behaviors, an appropriate level of the approximation subsignal was determined by wavelet analysis based on multi-resolution analysis. By this criterion, the dynamic properties of clusters in the bottom dense region and the splash zone of a circulating fluidized bed were determined. The dynamic properties of clusters of Geldert group A and B particles near the wall in CFB were identified and compared.