POLITECHNIKA WARSZAWSKA WYDZIAŁ CHEMICZNY Wydzielanie wodoru na nanokrystalicznych stopach żelazowców z wolframem.
![Removal of Mn2+ from water by "aged" biofilter media: The role of catalytic oxides layers | Request PDF Removal of Mn2+ from water by "aged" biofilter media: The role of catalytic oxides layers | Request PDF](https://www.researchgate.net/publication/355352462/figure/fig5/AS:1151697493737473@1651597488122/Performance-of-the-simultaneous-removal-of-ammonium-and-manganese-a-ammonium-5-mg-L_Q320.jpg)
Removal of Mn2+ from water by "aged" biofilter media: The role of catalytic oxides layers | Request PDF
![Removal of Mn2+ from water by "aged" biofilter media: The role of catalytic oxides layers | Request PDF Removal of Mn2+ from water by "aged" biofilter media: The role of catalytic oxides layers | Request PDF](https://www.researchgate.net/publication/355352462/figure/fig1/AS:1151697489530880@1651597487480/RD-patterns-of-the-synthesized-manganese-oxides-with-different-structural-cations_Q320.jpg)
Removal of Mn2+ from water by "aged" biofilter media: The role of catalytic oxides layers | Request PDF
POLITECHNIKA WARSZAWSKA WYDZIAŁ CHEMICZNY Wydzielanie wodoru na nanokrystalicznych stopach żelazowców z wolframem.
![Removal of Mn2+ from water by "aged" biofilter media: The role of catalytic oxides layers | Request PDF Removal of Mn2+ from water by "aged" biofilter media: The role of catalytic oxides layers | Request PDF](https://www.researchgate.net/publication/355352462/figure/fig3/AS:1151697489526794@1651597487621/Adsorption-amounts-as-a-function-of-time-a-ammonium-b-manganese-initial-pH-for_Q320.jpg)