Method for removing heavy metal pollutants in water with divalent manganese strengthened ferrate

11560,324

17/054456

July 16, 2018

In order to solve the problem in the existing conventional water treatment process of low removal efficiency of heavy metal in water, especially lower efficiency for simultaneous removal of heavy metal pollutants during coexisting, a method is provided for removing heavy metal pollutants in water with divalent manganese strengthened ferrate: preparing a ferrate mother liquor having the concentration of 20-10,000 mmol/L; preparing a divalent manganese salt mother liquor having the concentration of 30-10,000 mmol/L; adding the divalent manganese salt mother liquor into water of the heavy metal pollutants; then adding the ferrate mother liquor, and reacting; and then adding a flocculant and precipitating, so that the removal rate of arsenate, chromium, thallium, antimony, chromium and molybdate in water is 90% or more, and the removal rate of heavy metal such as lead and cadmium is 85% or more.

Harbin Institute of Technology (Harbin, CN)

1. A method of removing one or more heavy metal pollutants in water by divalent manganese-enhanced ferrate, comprising the following steps: (i) preparing ferrate stock solution with a concentration of 20-10,000 mmol/L; (ii) preparing divalent manganese salt stock solution with a concentration of 30-10,000 mmol/L; (iii) adding the divalent manganese salt stock solution prepared in step (ii) to a water body which comprises one or more heavy metal pollutants, where a final concentration of the divalent manganese in the water body is 5-20 μmol/L; (iv) after step (iii), adding the ferrate stock solution prepared in step (i) to the water body and reacting for 1-60 min; then adding flocculant; then stirring for 0.8-1.2 min at 100-130 r/min, then stirring for 15-25 min at 30-50 r/min, and allowing precipitation for 15-25 min, wherein a molar ratio of bivalent manganese to ferrate is 0.1-1.5:1 after the ferrate stock solution is added to the water body.

2. The method of removing one or more heavy metal pollutants in water by divalent manganese-enhanced ferrate according to claim 1 , wherein in step (i), the ferrate stock solution is prepared from ferrate in solid form or ferrate in liquid form; wherein the ferrate is potassium ferrate, sodium ferrate or barium ferrate.

3. The method of removing one or more heavy metal pollutants in water by divalent manganese-enhanced ferrate according to claim 1 , wherein in step (ii), the divalent manganese salt is one of or a mixture containing more than one of manganese sulfate, manganese dichloride and manganese nitrate in any ratio.

4. The method of removing one or more heavy metal pollutants in water by divalent manganese-enhanced ferrate according to claim 1 , wherein in step (iii), the flocculant is inorganic flocculant or organic flocculant.

5. The method of removing one or more heavy metal pollutants in water by divalent manganese-enhanced ferrate according to claim 1 , wherein in step (i), the ferrate stock solution has a concentration of 150 mmol/L.

6. The method of removing one or more heavy metal pollutants in water by divalent manganese-enhanced ferrate according to claim 1 , wherein in step (ii), the divalent manganese salt stock solution has a concentration of 75 mmol/L.

7. The method of removing one or more heavy metal pollutants in water by divalent manganese-enhanced ferrate according to claim 1 , wherein in step (iii), the final concentration of the divalent manganese is 7.5 μmol/L.

8. The method of removing one or more heavy metal pollutants in water by divalent manganese-enhanced ferrate according to claim 1 , wherein in step (iv), adding the ferrate stock solution to the water body in step (iii) and allowing reaction for 15 min, wherein a molar ratio of bivalent manganese to ferrate is 0.5:1.

9. The method of removing one or more heavy metal pollutants in water by divalent manganese-enhanced ferrate according to claim 1 , wherein in step (iv), after adding the flocculant, stirring for 1 min at 120 r/min, then stirring for 20 min at 40 r/min, and allowing precipitation for 20 min.

10. The method of removing one or more heavy metal pollutants in water by divalent manganese-enhanced ferrate according to claim 1 , wherein in step (iv), a quantity of the flocculant being added is 0.3-200 g per ton of water.

1502710 June 2004
102145947 August 2011

Machine translation of CN 1502710A , pp. 1-7. (Year: 2004). cited by examiner
Machine translation of CN 102145947A , pp. 1-6. (Year: 2011). cited by examiner

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