摘要
导向管喷动床是较为常见的一种喷动床改进床型,通过阻断喷动区与环隙区气固接触来提高颗粒循环的规律性与稳定性。本文采用计算颗粒流体力学(CPFD)方法对于直径150mm的柱锥式导向管喷动床进行了数值模拟研究,考察了导向管直径对于喷动床内颗粒流动特性的影响,从环隙区死区分布、颗粒速度分布、固体循环量等方面分析了具有不同直径导向管喷动床的运行状态。结果表明,加入导向管在减少床内死区的同时也降低了运行时的固体循环量,对于本次采用的喷动床结构尺寸与运行参数,只有在导向管直径为40~60mm时才能保证床内具有良好喷动状态,综合考虑各因素,选用直径50~55mm的导向管最为合适。对于具有类似结构与运行条件的柱锥喷动床,导向管直径可考虑选为无导向管运行时喷动区直径的1.2~1.375倍。
The spouted bed with draft tube is a kind of improved structure of spouted bed,which can improve the regularity and stability of spouting process by blocking the gas-solid contact between spray area and annulus.This paper carried out the numerical simulation for a 150 mm diameter spouted bed using computational particle fluid dynamics(CPFD)method.The effects of draft tube diameter on flow characteristics was investigated from the dead zone of the annulus,particle velocity distribution and solid circulating rate.Results show that the draft tube reduced bed dead zone and solid circulating rate.For this spouted bed structure and operation parameters,only 40—60 mm draft tube diameter can ensure the bed has a good spouting state,and 50—55 mm draft tube is most appropriate.For a spouted bed with similar structure,the draft tube diameter should be selected as 1.25—1.375 times as the spray area diameter of spouting without draft tube.
出处
《化工进展》
EI
CAS
CSCD
北大核心
2018年第1期14-22,共9页
Chemical Industry and Engineering Progress
基金
教育部长江学者和创新团队发展计划(IRT-17R19)
吉林省自然科学基金(20150101033JC)
吉林市科技计划(201464044)
吉教科合字2015-237项目
关键词
喷动床
数值模拟
导向管
颗粒流
颗粒物料
spouted bed
numerical simulation
draft tube
granular flow
granular materials
