Journal
SEPARATION AND PURIFICATION TECHNOLOGY
Volume 259, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.seppur.2020.118126
Keywords
Heterogeneous condensation; Cyclone; Experiment; Simulation
Categories
Funding
- National Natural Science Foundation of China [51676146]
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This study investigated the effects of operating parameters on the heterogeneous condensation process and separation efficiency of gas cyclones. The results showed that increasing the initial supersaturation degree led to an increase in particle size and removal efficiency, while increasing the gas flow rate decreased particle size and increased removal efficiency. The use of heterogeneous condensation preconditioning technique significantly improved the removal efficiency of fine particles in gas cyclones.
Improving the removal efficiency of gas cyclones becomes critical as air pollution aggravates. This study aims to investigate the effects of operating parameters on the process of heterogeneous condensation and separation performance of gas cyclones. For hydrophilic fine particles, an experimental apparatus was built up to analyze the heat transfer and removal efficiency. Then a two- way coupling numerical model in which the interactions between particles and gas was achieved by user defined function was adopted. Compared with experimental and numerical results, the accuracy of simulation satisfied engineering application. In addition, as the initial supersaturation degree S-0 increases, the particle size at growth chamber outlet and removal efficiency increase by 69.89%, 107.01% respectively. While increasing the gas flow rate F decreases particle size by 3.59% and increases removal efficiency by 17.91%. By heterogeneous condensation preconditioning technique, the removal efficiency for fine particles can reach 95.12%. These results can help optimize and apply this preconditioning technique of gas cyclones in engineering.
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