[HTML][HTML] Photocatalytic membrane reactor (PMR) for virus removal in drinking water: effect of humic acid
R Cheng, L Shen, Q Wang, S Xiang, L Shi, X Zheng… - Catalysts, 2018 - mdpi.com
In the actual water environment, the health risk of waterborne viruses is evaluated to be 101–
104 times higher at a similar level of exposure compared with bacteria and has aroused …
104 times higher at a similar level of exposure compared with bacteria and has aroused …
Photocatalytic Membrane Reactor (PMR) for Virus Removal in Drinking Water: Effect of Humic Acid
R Cheng, L Shen, Q Wang, S Xiang, L Shi, X Zheng… - Catalysts, 2018 - search.proquest.com
In the actual water environment, the health risk of waterborne viruses is evaluated to be 10 1–
10 4 times higher at a similar level of exposure compared with bacteria and has aroused …
10 4 times higher at a similar level of exposure compared with bacteria and has aroused …
Photocatalytic Membrane Reactor (PMR) for Virus Removal in Drinking Water: Effect of Humic Acid.
R Cheng, L Shen, Q Wang, S Xiang… - Catalysts (2073 …, 2018 - search.ebscohost.com
In the actual water environment, the health risk of waterborne viruses is evaluated to be 10<
sup> 1–10< sup> 4 times higher at a similar level of exposure compared with bacteria and …
sup> 1–10< sup> 4 times higher at a similar level of exposure compared with bacteria and …
[PDF][PDF] Photocatalytic Membrane Reactor (PMR) for Virus Removal in Drinking Water: Effect of Humic Acid
R Cheng, L Shen, Q Wang, S Xiang, L Shi, X Zheng… - pdfs.semanticscholar.org
In the actual water environment, the health risk of waterborne viruses is evaluated to be 101–
104 times higher at a similar level of exposure compared with bacteria and has aroused …
104 times higher at a similar level of exposure compared with bacteria and has aroused …