Deciphering correlation between permeability and size of anammox granule: pores as medium

Anammox granular sludge bed technology has been widely applied for its attractive advantages. Efficient mass transfer is an important factor for the anammox granules to play their role. In this study, steadystate anammox granules were used to investigate the correlation between the permeability and granule size with the granule pore as pivot. The results of size distribution showed that the anammox granules could be divided into 6 groups: 200-500 mu m (I), 500-1000 mu m (II), 1000-1500 mu m (III), 1500-2000 mu m (IV), 2000-3000 mu m (V) and >= 3000 mu m (VI). The results of settling experiment demonstrated that the permeability of anammox granules was negatively correlated with the granule size. The fluid collection efficiency declined from 39.4% to 9.3% for granule group I to III, and further to 0 for granule group IV to VI (granule size was larger than 1.5 mm). The observation of micro-CT revealed that the pore structure of anammox granules varied significantly with the increase of granule size, forming a denser surface layer and sparser interior. The chemical analysis and microscopic observation indicated that the pore plugging of surface layer by cell proliferation and EPS secretion was the main cause for the permeability deterioration. The findings of this study will help to understand the mass transfer of anammox granules and promote the development of anammox processes. (C) 2021 Elsevier Ltd. All rights reserved.

Automated summary

The study investigated the correlation between permeability and granule size of Anammox granules, finding a negative relationship between them. With the increase of granule size, the pore structure varied significantly, affecting the fluid collection efficiency.