Abstract
This article contains data related to the research article entitled “Cyclone separator for gas-liquid mixture with high flux density” (Mikheev et al., 2018 [1]doi: 10.1016/j.powtec.2018.08.040). This work was aimed at the development of an effective gas-liquid cyclone separator at a high flux density. Within the implementation of the project, the goal was to choose the schematic construction of the separator provides the reduced dynamic head of flow in the zones with increased liquid phase concentration to prevent the entrainment of separated liquid and layer losses. The paper presents the numerical simulation data and experimental data allowed estimation of separation efficiency of the separator.
Highlights
Data of numerical simulation and experimental research on the design of a cyclone separator with a high flux density
FLUENT 18.2 for numerical analysis, ultrasonic flow meter IRVIS RS4Ultra,liquid weigh-scale CAS AD-2.5, high-accuracy differential pressure transmitter Keller PD-41 Â Raw data and analysed The geometric model and the boundary conditions for setting the problem of numerical simulation are completely based on the full-size model of the separator
The air flow rate and pressure were adjusted by the valve opening and measured by an ultrasonic flow meter IRVIS RS-4 Ultra
Summary
Nikolay Mikheev a, Ilya Saushin a,n, Anna Goltsman a, Victor Fafurin b a Federal State Budgetary Institution of Science “Kazan Scientific Center of the Russian Academy of Sciences”, 2/31, Lobachevsky St., PO Box 261, Kazan, Tatarstan 420111, Russia b Federal State Unitary Enterprise “All-Russian Research Institute of Flow Metering”, 7 A, Vtoraya Azinskaya St., Kazan, Tatarstan 420088, Russia article info. This work was aimed at the development of an effective gas-liquid cyclone separator at a high flux density. Within the implementation of the project, the goal was to choose the schematic construction of the separator provides the reduced dynamic head of flow in the zones with increased liquid phase concentration to prevent the entrainment of separated liquid and layer losses.
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