Removal of manganese from groundwater in the ripened sand filtration: Biological oxidation versus chemical auto-catalytic oxidation
This work is a contribution to understand the interaction of biological and chemical auto-
catalytic oxidation processes for the removal of manganese (Mn)(0–1.8 mg/L) using the …
catalytic oxidation processes for the removal of manganese (Mn)(0–1.8 mg/L) using the …
Removal of manganese from groundwater in the ripened sand filtration: Biological oxidation versus chemical auto-catalytic oxidation
H Yang, Z Yan, X Du, L Bai, H Yu, A Ding… - Chemical Engineering …, 2020 - hero.epa.gov
This work is a contribution to understand the interaction of biological and chemical auto-
catalytic oxidation processes for the removal of manganese (Mn)(0-1.8 mg/L) using the …
catalytic oxidation processes for the removal of manganese (Mn)(0-1.8 mg/L) using the …
Removal of manganese from groundwater in the ripened sand filtration: Biological oxidation versus chemical auto-catalytic oxidation
H Yang, Z Yan, X Du, L Bai, H Yu… - Chemical …, 2020 - ui.adsabs.harvard.edu
This work is a contribution to understand the interaction of biological and chemical auto-
catalytic oxidation processes for the removal of manganese (Mn)(0-1.8 mg/L) using the …
catalytic oxidation processes for the removal of manganese (Mn)(0-1.8 mg/L) using the …
Removal of manganese from groundwater in the ripened sand filtration: biological oxidation versus chemical auto-catalytic oxidation.
H Yang, Z Yan, X Du, L Bai, H Yu, A Ding, G Li, H Liang… - 2020 - cabidigitallibrary.org
This work is a contribution to understand the interaction of biological and chemical auto-
catalytic oxidation processes for the removal of manganese (Mn)(0-1.8 mg/L) using the …
catalytic oxidation processes for the removal of manganese (Mn)(0-1.8 mg/L) using the …