The effect of decay on churn flow transition in a vertical gas-liquid swirling flow

Gas-liquid two-phase swirl flow has been widely used in industry, especially the decayed swirl flow. However, axial development of the decayed swirl flow which is closely related to the effective length of swirl are lack of understanding. In this work, effects of decay on churn flow transition induced by a vane-typed swirler were investigated by a visualization experiment in a long vertical pipe (inner diam-eter of 62 mm and total length of 11 m). The results show that under the effect of swirl, churn flow can transform to a swirling annular flow, meanwhile the pressure drop increases and its fluctuation weakens compared with these in the non-swirl churn flow. However, the length of the transformed swirling annu-lar flow is limited, due to the decay of swirl intensity. Then the effect of swirl decay on churn flow tran-sition has been analyzed by the theoretical model proposed by our previous work (Liu et al., 2019). Finally, a new method was proposed here to predict the effective length of swirling annular flow trans-formed from churn flow in the vertical pipe, by combining the swirl decayed model and churn flow tran-sition model in the swirl flow. (c) 2022 Elsevier Ltd. All rights reserved.

Automated summary

This study investigates the effects of decay on churn flow transition induced by a vane-typed swirler. It proposes a new method to predict the effective length of swirling annular flow transformed from churn flow in a vertical pipe.