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Study on particle movement characteristics in sandblast cylinder based on PIV technology

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
PIV technology was used to investigate the influence of the particles’ relevant parameters on the instantaneous movement characteristics in the sandblast cylinder under the circumstance of different particle sizes, different section heights and different stacking conditions. As the diameter increased, particles had a greater velocity and energy when approaching the wall, which would cause a serious abrasion. The influence of test selection factors on the particles’ radial velocity of particles was greater than that on axial velocity. The radial velocity and axial velocity on the surface of the cylindrical section were all reduced to a lower level when the particles approach the tank wall. When r > 0.3 R, the particle velocity maintained at a higher level, but then decreased slowly when r > 0.7 R. Therefore, the abrasion of the conical section of the sandblast cylinder when r > 0.3 R should be paid more attention to.
Rocznik
Strony
38--47
Opis fizyczny
Bibliogr. 17 poz., rys., tab.
Twórcy
autor
  • Guangzhou Special Pressure Equipment Inspection and Research Institute, 510663, Guangzhou, China
autor
  • School of Chemical Engineering, Northwest University, 710069, Xian, China
autor
  • School of Chemical Engineering, Northwest University, 710069, Xian, China
autor
  • Guangzhou Special Pressure Equipment Inspection and Research Institute, 510663, Guangzhou, China
autor
  • Guangzhou Special Pressure Equipment Inspection and Research Institute, 510663, Guangzhou, China
autor
  • Guangzhou Special Pressure Equipment Inspection and Research Institute, 510663, Guangzhou, China
autor
  • School of Mechanical and Automotive Engineering, South China University of Technology, 510641, Guangzhou, China
Bibliografia
  • 1. Juanjuan,S.U., Lihua,L.V. & Gaojin, L.I. et al. 2017. Research and Application of Continuous Sand-Feeding Sand Blaster[J]. Marine Technol. 65–67, 92.
  • 2. Yilong, H.E., LIU, Sshuling & HU, Jianxiu. 2019. Choose and Application of OCTG Internal Wall Blasting Machine[J]. Chem. Engin. & Equipment, 2(02), 167–169. DOI: 10.19566/j.cnki.cn35-1285/tq.2019.02.071.
  • 3. Ri Zhanga, Haixiao Liub & Sheng Donga. 2019. Approximate theoretical solution of the movement and erosion of solid particles in a 90° bend [J]. Wear. 430–431 (2019) 233–244. DOI: 10.1016/j.wear.2019.05.013.
  • 4. Thon, A., Püttmann, A. & Hartge, E.U. et al. 2011. Simulation of catalyst loss from an industrial fluidized bed reactor on the basis of labscale attrition tests[J]. Powder Technol. 214 (1), 21–30. .DOI: 10.1016/j.powtec.2011.07.017
  • 5. Werther, J. & Xi, W. 1993. Jet attrition of catalyst particles in gas fluidized beds[J]. Powder Technol. 76 (1), 39–46. DOI: 10.1016/0032-5910(93)80039-D.
  • 6. Solnordal, C.B., Wong, C.Y. & Boulanger, J., 2015. An experimental and numerical analysis of erosion caused by sand pneumatically conveyed through a standard pipe elbow, Wear 336 43–57. DOI: 10.1016/j.wear.2015.04.017.
  • 7. Oka, Y.I., Okamura, K. & Yoshida, T. (2005). Practical estimation of erosion damage caused by solid particle impact: part 1: effects of impact parameters on a predictive equation, Wear 259, 95–101.
  • 8. Oka, Y. & Yoshida, T. (2005). Practical estimation of erosion damage caused by solid particle impact: part 2: mechanical properties of materials directly associated with erosion damage, Wear, 259, 102–109.
  • 9. Ballout, Y.,Mathis, J.A. & Talia, J.E. (1996). Solid particle erosion mechanism in glass[J]. Wear, 196(1). DOI: 10.1016/0043-1648(96)06922-0.
  • 10. Simonini, A., Theunissen, R., Masullo, A. & Vetrano, M.R. (2019). PIV adaptive interrogation and sampling with image projection applied to water sloshing[J]. Experim. Thermal Fluid Sci. 102. DOI: 10.1016/j.ijheatfl uidfl ow.2020.108561.
  • 11. Israel González-Neria, Alejandro Alonzo-Garcia, Sergio, A., Martínez-Delgadillo, Víctor X. Mendoza-Escamilla, Juan Antonio Yáñez-Varela, Patrick G. Verdin & Gabriela Rivadeneyra-Romero. (2019). PIV and dynamic LES of the turbulent stream and mixing induced by a V-grooved blade axial agitator[J]. Chem. Engin. J. 374. DOI: 10.1016/j.cej.2019.06.033.
  • 12. Sunghyuk Im, Hyoung Tae Kim, Bo Wook Rhee & Hyung Jin Sung. (2016). PIV measurements of the flow patterns in a CANDU-6 model[J]. Annals of Nuclear Energy, 98. DOI: 10.1016/j.anucene.2016.07.012.
  • 13. Nguyen Lu Phuong & Kazuhide Ito. (2015). Investigation of flow pattern in upper human airway including oral and nasal inhalation by PIV and CFD[J]. Buil. Environ., 94. DOI: 10.1016/j.buildenv.2015.10.002.
  • 14. Jacobi, G., Thill, C.H., van’t Veer, R. & Huijsmans, R.H.M. (2019). Analysis of the influence of an interceptor on the transom flow of a fast ship by pressure reconstruction from stereoscopic scanning PIV[J]. Ocean Engin. 181. DOI: 10.1016/j.oceaneng.2019.02.062.
  • 15. Sijie Fu, Pascal Henry Biwole & Christian Mathis. (2016). Numerical and experimental comparison of 3D Particle Tracking Velocimetry (PTV) and Particle Image Velocimetry (PIV) accuracy for indoor airflow study[J]. Buil. Environ., 100. DOI: 10.1016/j.buildenv.2016.02.002.
  • 16. Sijie Fu, Pascal Henry Biwole & Christian Mathis. (2015). Particle Tracking Velocimetry for indoor airflow field: A review[J]. Buil. Environ., 87. DOI: 10.1016/j.buildenv.2015.01.014.
  • 17. Feng Wu, Zeyu Yu, Lingyi Shang, Xiaoxun Ma & Wenjing Zhou. (2019). Experimental investigation on hydrodynamic behavior in a spouted bed with longitudinal vortex generators[J]. Adv. Powder Technol. 30(10). DOI: 10.1016/j.apt.2019.06.033.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-bd61141f-53fc-4417-9ee9-21fc11543e74
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