Reduced dust generation when loading hoppers with powdered material. Part 2. Results of numerical-experimental studies

On the basis of the obtained analytical dependencies, the expediency of fan loading of bunkers with powdery bulk material has been proved. The design of an annular charging device, which reduces dust formation, using the Coanda effect is proposed. The rational design and technological parameters of the developed device are numerically and experimentally determined.

dedusting, bulk materials, Coanda effect, loading device,

1. Wang, D. Study of airflow induced by regular particles in freefall through tubes / D. Wang, X. Li // Advanced Powder Technology. ― 2020. ― Vol. 31, № 1. ― P. 169‒180.

2. Li, X. Model for induced airflow velocity of falling materials in semi-closed transfer station based on similitude theory / X. Li, Q. Li, D. Zhang [et al.] // Advanced Powder Technology. ― 2015. ― Vol. 26, № 1. ― P. 236‒243.

3. Li, Xiaochuan. Developments in studies of air entrained by falling bulk materials / Xiaochuan Li, Qili Wang, Qi Liu, Yafei Hu // Powder Technology. ― 2016. ― Vol. 291, № 4. ― P. 159‒169.

4. Fan, C. Study on induced airflow characteristic and dust particle diffusion law at transshipment point / C. Fan, Q. Qi, X. Chen, S. Ge // Energy Sources, Part A: Recovery, Utilization and Environmental Effects, 2020.

5. Logachev, K. I. Simulations of dust dynamics around a cone hood in updraft conditions / K. I. Logachev, A. M. Ziganshin, O. A. Averkova // J. Occup. Environ. Hyg. ― 2018. ― Vol. 15. ― P. 715‒731.

6. Logachev, K. I. Modeling of air and dust flows in the range of action of a round suction funnel above an impermeable plane. Part 1. A mathematical model and algorithm for its computer implementation / K. I. Logachev, O. A. Averkova, E. I. Tolmacheva [et al.] // Refract. Ind. Ceram. ― 2016. ― Vol. 56. ― P. 679‒683. [Логачев, К. И. Моделирование пылевоздушных течений в спектре действия круглого отсоса-раструба над непроницаемой плоскостью. Часть 1. Математическая модель и алгоритм ее компьютерной реализации / К. И. Логачев, О. А. Аверкова, Е. И. Толмачева [и др.] // Новые огнеупоры. ― 2015. ― № 12. ― С.56‒60.]

7. Logachev, K. I. Modeling of air and dust flows in the range of action of a round suction funnel above an impermeable plane. Part 2. Characteristics of separation region and efficiency of capture of dust particles / K. I. Logachev, O. A. Averkova, E. I. Tolmacheva [et al.] // Refract. Ind. Ceram. ― 2016. ― Vol. 57. ― P.103‒107. [Логачев, К. И. Моделирование пылевоздушных течений в спектре действия круглого отсоса-раструба над непроницаемой плоскостью. Часть 2. Характеристики отрывной области и эффективность улавливания пылевых частиц / К. И. Логачев, О. А. Аверкова, Е. И. Толмачева [и др.] // Новые огнеупоры. ― 2016. ― № 2. ― С. 62‒66.]

8. Logachev, K. Improving dust capture efficiency with local exhaust hoods in manicure shops / K. Logachev, A. Ziganshin, O. Kryukova [et al.] // Building and Environment. ― 2020. ― Vol, 181. ― Article № 107124.

9. Huang, Y. Study on ventilation performance of lateral exhaust hood under the influence of two high-temperature buoyant jets / Y. Huang, K. Lu, J. Guo [et al.] // Building and Environment. ― 2020. ― Vol. 177. ― Article № 106849.

10. Huang, Y. Study on limit flow ratio method for a lateral exhaust hood above high-temperature buoyant jets / Y. Huang, K. Lu, Y. Wang [et al.] // Sustainable Cities and Society. ― 2020. ― Vol. 54. ― Article № 101969.

11. Wang, Y. Lateral ventilation performance for removal of pulsating buoyant jet under the influence of high-temperature plume / Y. Wang, L. Cao, Y. Huang, Y. Cao // Indoor and Built Environment. ― 2020. ― Vol. 29, № 4.

12. Huang, Y. Performance of constant exhaust ventilation for removal of transient high-temperature contaminated airflows and ventilation-performance comparison between two local exhaust hoods / Y. Huang, Y. Wang, L. Liu [et al.] // Energy and Buildings. ― 2017. ― Vol. 154. ― P. 207―216.

13. Huang, Y. Ventilation guidelines for controlling smoke, dust, droplets and waste heat: Four representative case studies in Chinese industrial buildings / Y. Huang, Y. Wang, X. Ren [et al.] // Energy and Buildings. ― 2016. ― Vol. 128. ― P. 834‒844.