关键词: 宽筛分, 油砂, 提升管, 固含率, 轴向分布

Abstract: A large scale cold model apparatus of CFB riser reactor was established based on the method of directly fluidized coking oil sand. The measurement results of particle size indicate that the burned oil sand particles have wide size distribution (1~>2000 mm) with numerous fine particles. The axial distributions of pressure gradient and averaged cross-sectional solids holdup in the riser were measured by a multi-point pressure-fluctuation device. The results show that the latter increases with the increase of solid overall circulating flux and decreases with the increase of superficial gas velocity. The axial distribution of solids holdup in the riser is characterized by C type distribution with larger solid holdup values in the top and bottom sections, and smaller value in the middle section. The riser can be divided into three zones along the longitude based on the movement pattern of axial particles, i.e., accelerating zone (<4 m), full developing zone (4~12 m) and back-mixing zone (>12 m). Under the same operation conditions, the solids holdup of sand particles is much higher than that of FCC particles, the lengths of accelerating and back-mixing zones are both longer than that of FCC. Furthermore, an empirical model for estimating the axial distribution of averaged cross-sectional solids holdup was established based on the experimental data and theoretical analysis, respectively, which agreed with the experimental data.

Key words: wide size distribution, oil sand, riser, solids holdup, axial distribution