Journal of Korean Society of Water and Wastewater (상하수도학회지)

The Korean Society of Water and Wastewater (대한상하수도학회)
권호 표지

Particle Detachment in Granular Media Filtration

입상여과에서 입자물질의 탈리

  • 김진근 (한국수자원공사 수도관리2처)
  • Received : 2004.09.03
  • Accepted : 2004.10.05
  • Published : 2004.10.15
Download PDF
⟨ Previous Next ⟩

Abstract

Particle breakthrough can occur by either the breakoff of previously captured particles (or flocs) or the direct passage of some influent particles through the filter. Filtration experiments were performed in a laboratory-scale filter using spherical glass beads with a diameter of 0.55 mm as collectors. A single type of particle suspension (Min-U-Sil 5, nearly pure $SiO_2$) and three different destabilization methods (pH control, alum and polymer destabilization) were utilized. The operating conditions were similar to those of standard media filtration practice: a filtration velocity of 5 m/h. To assess the possibility of particle detachment during the normal filtration, a hydraulic shock load (20% increase of flow rate) was applied after 4 hours of normal filtration. The magnitude of particle detachment was proportional to the particle size for non-Brownian particles. At the same time, less favorable particles, i.e., particles with larger surface charge, were easily detached during the hydraulic shock load. Therefore, proper particle destabilization before filtration is crucial for maximum particle removal as well as minimum particle breakthrough.

Keywords

References

  1. Adin, A. and Rebhun, M. (1987) Deep-Ded Filtration: Accumulation-Detachment Model Parameters. Chemical Engineering Science, 42(5), pp. 1213-1219
  2. Ahmad, R. and Amirtharajah, A (1998) Detachment of Particles During Biofilter Backwashing. J. AWWA, 90(12), pp. 74-85
  3. Amirtharajah, A (1988) Some Theoretical and Conceptual Views of Filtration. J. AWWA, 80(12), pp. 36-46
  4. Bai, R. and Tien, C. (1996) Particle Detachment in Deep Bed Filtration. J. Colloid and Interface Science, 186(2), pp. 307-317
  5. Bai, R. and Tien, C. (2000) Effect of Deposition in Deep-Bed Filtration: Determination and Search of Rate Parameters. J. Colloid and Interface Science, 231(2), pp. 299-311
  6. Hatukai, S. Ben-Tzur, Y. and Rebhun, M. (1997) Particle Counts and Size Distribution in System Design for Removal of Turbidity by Granular Deep Bed Filtration. Water Science and Technology, 36(4), pp. 225-230
  7. Kim, J. (2004) Physicochemical Aspects of Particle Breakthrough in Granular Media Filtration. Ph. D. Dissertation. The University of Texas at Austin, pp. 71-79
  8. McTigue, N.E. LeChevallier, M. Arora, H. and Clancy, J. (1998) National Assessment of Particle Removal by Filtration. AWWARF and AWWA, Denver, CO., pp. 169-175
  9. Raveendran, P. and Amirtharajah, A. (1995) Role of Short-Range Forces in Particle Detachment during Filter Backwashing, J. Environmental Engineering, 121(12), pp. 860-868 https://doi.org/10.1061/(ASCE)0733-9372(1995)121:12(860)