Newly Designed Hydrolysis Acidification Flat-Sheet Ceramic MBR for Treating Dyeing Wastewater

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Newly Designed Hydrolysis Acidification Flat-Sheet Ceramic MBR for Treating Dyeing Wastewater

Newly Designed Hydrolysis Acidification Flat-Sheet Ceramic Membrane Bioreactor for Treating High-Strength Dyeing Wastewater

Yue Jin, Dunqiu Wang, Wenjie Zhang 

Abstract

Cost-effective treatment of dyeing wastewater remains a challenge. In this study, a newly designed hydrolysis acidification flat-sheet ceramic membrane bioreactor (HA-CMBR) was used in treating high-strength dyeing wastewater.

The start-up phase of the HA-CMBR was accomplished in 29 days by using cultivated seed sludge. Chemical oxygen demand (COD) removal rate reached about 62% with influent COD of 7800 mg/L and an organic loading rate of 7.80 kg-COD/(m3·d). Chromaticity removal exceeded 99%. The results show that the HA-CMBR has good removal performance in treating dyeing wastewater. The HA-CMBR could run with low energy consumption at trans-membrane pressure (TMP) less than  10 kPa due to the good water permeability of the flat-sheet ceramic membrane. New strains with 92%–96% similarity to Alkalibaculum bacchi, Pseudomonas sp., Desulfovibrio sp., and Halothiobacillaceae were identified in the HA-CMBR. Microbial population analysis indicated that Desulfovibrio sp., Deltaproteobacteria, Halothiobacillaceae, Alkalibaculum sp., Pseudomonas sp., Desulfomicrobium sp., and Chlorobaculum sp. dominated in the HA-CMBR.

Keywords:   hydrolysis acidification; MBR; membrane fouling; decolorization; microbial diversity; seed sludge

Int. J. Environ. Res. Public Health 2019, 16(5), 777; DOI: 10.3390/ijerph16050777

Source: MDPI / International Journal of Environmental Research and Public Health

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