The double- to single-loop pattern transition in stirred vessels stemming from a change in the off-bottom clearance of a Rushton turbine has been investigated by laser doppler anemometry. Time-resolved data showed the transition occurring within a range of clearance values and allowed the distinction of three types of flow: the double-loop regime, the single-loop regime and an unstable one termed "transitional state". Experiments of up to 3-4 h duration showed that both the onset and the lifetimes of these types of flow were random; however, in the transitional state, the flow varied between the two circulation patterns in a periodic manner, with a frequency linearly related to the impeller rotational speed. The results have important implications for mixing process and vessel design as well as CFD predictions of the flows which are discussed. © 2003 Elsevier Ltd. All rights reserved.
Galletti, C., Brunazzi, E., Yianneskis, M., Paglianti, A. (2003). Spectral and wavelet analysis of the flow pattern transition with impeller clearance variations in a stirred vessel. CHEMICAL ENGINEERING SCIENCE, 58(17), 3859-3875 [10.1016/S0009-2509(03)00230-6].
Spectral and wavelet analysis of the flow pattern transition with impeller clearance variations in a stirred vessel
Paglianti A.Ultimo
Conceptualization
2003
Abstract
The double- to single-loop pattern transition in stirred vessels stemming from a change in the off-bottom clearance of a Rushton turbine has been investigated by laser doppler anemometry. Time-resolved data showed the transition occurring within a range of clearance values and allowed the distinction of three types of flow: the double-loop regime, the single-loop regime and an unstable one termed "transitional state". Experiments of up to 3-4 h duration showed that both the onset and the lifetimes of these types of flow were random; however, in the transitional state, the flow varied between the two circulation patterns in a periodic manner, with a frequency linearly related to the impeller rotational speed. The results have important implications for mixing process and vessel design as well as CFD predictions of the flows which are discussed. © 2003 Elsevier Ltd. All rights reserved.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
