Rural drinking water treatment system combining solar-powered electrocoagulation and a gravity-driven ceramic membrane bioreactor

Du, Xing; Zhao, Wentao; Wang, Zhen; Ma, Rong; Luo, Yunlong; Wang, Zhihong; Sun, Qiong; Liang, Heng

Title: Rural drinking water treatment system combining solar-powered electrocoagulation and a gravity-driven ceramic membrane bioreactor
Creator: Du, Xing; Zhao, Wentao; Wang, Zhen; Ma, Rong; Luo, Yunlong; Wang, Zhihong; Sun, Qiong; Liang, Heng
Relation: Separation and Purification Technology Vol. 276, no. 119383
Publisher Link: http://dx.doi.org/10.1016/j.seppur.2021.119383
Publisher: Elsevier
Resource Type: journal article
Date: 2021
Description: Rural water treatment is generally more challenging than urban water treatment. This study proposed a novel rural water treatment system effectively harnessing solar energy and gravitational hydropower. Influent was initially fed to a solar-driven electrocoagulation unit, in which UV254 level was reduced (by almost 60%) and large flocs (averaging up to 66.2 μm in diameter) were formed. The effluent was then introduced to a gravity-driven ceramic membrane bioreactor (GDCMBR) at different water head differences (ΔH = 0.5 or 1.0 m). Generally, applying the greater water head difference (ΔH = 1.0 m) did not enhance removal of turbidity and organic matter, but it led to a reasonably high flux (25.9 L/m2/h). The GDCMBR enriched various useful microorganisms such as nitrifiers (Nitrospira bacteria), and denitrifiers (Diaphorobacter bacteria), enabling almost complete elimination of NH3-N and NO2–-N. Overall, the findings of this study suggest the possibility of sustainable operation during rural water treatment.
Subject: floc; computational fluid dynamics; gravity-driven membrane filtration; membrane fouling; biofilm; SDG 6; SDG 11; Sustainable Development Goals
Identifier: http://hdl.handle.net/1959.13/1471303
Identifier: uon:48641
Identifier: ISSN:1383-5866
Language: eng
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