关键词: 高炉喷煤, 两相流, 壅塞流动, 喷管, 音速

Abstract: Considering aerodynamically the choking phenomenon as that it is formed by a 'pure gas flow', an experimental investigation and theoretical analysis are made to the choking phenomenon formed by a two-phase flow consisting of air and pulverized coal, thus providing an approach to distributing uniformly the mass flow rate of PCI (pulverized coal injection) into BF (blast furnace) tuyeres. The experimental results showed that the air-coal flow will become choking flow in all jet pipes if connecting a set of Venturis to all branch tuyere pipes of the same size in the existing PCI system of BF and the required pressure can be met. Then, the flow speed is in line with flow rate and kept on without being affected by subsequent pipes, thus distributing uniformly the pulverized coal injected. Measuring the mass flow rate in relation to outlet pressure, the critical pressure ratio is defined as the criterion for whether the choking phenomenon takes place. The relationship between critical pressure ratio and solid/gas ratio is thus found to provide a reference for choosing appropriate jet pipes and conditions for their applications.