Neutralization method for treating alkali wastewater containing uranium
A waste water treatment, alkaline technology, applied in water/sewage treatment, chemical instruments and methods, adsorption water/sewage treatment, etc., can solve the problem of deep removal of uranium, poor waste water treatment effect, poor co-precipitation radium effect, etc. question
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Embodiment 1
[0017] Composition U of alkaline wastewater from a uranium mine: 0.97mg·L -1 ;OH - : 3.4g·L -1 ; Cl - : 7.54g·L -1 ; Ra: 18.2Bq L -1 ; Ca: 4.15g L -1 ; Mg: 0.034g L -1 .
[0018] A kind of neutralization method for the treatment of alkaline uranium-containing wastewater according to the present invention:
[0019] (1) Add FeSO to the above-mentioned alkaline uranium-containing wastewater by air stirring 4 Neutralize OH in wastewater - , FeSO 4 ·7H 2 O dosage 5kg m -3 , adjust the pH value of wastewater at 8, the reaction temperature is 25°C, and the reaction time is 2h; Fe 2+ Under the action of air, it is oxidized and hydrolyzed to form Fe(OH) 3 Precipitation, Fe(OH) 3 Precipitation is positively charged to adsorb uranium ions;
[0020] (2) When the pH value is 8.0, add Na 2 SO 4 Supplement SO 4 2- , so that SO 4 2- The concentration is 1.7g·L -1 ; then add BaCl 2 Radium removal, co-precipitation to generate Ba(Ra)SO 4 , BaCl 2 The amount added is con...
Embodiment 2
[0023] Composition U of alkaline wastewater from a uranium mine: 0.13mg·L -1 ;OH - : 4.0g·L -1 ; Ra: 15.2Bq L -1 ; Cl - : 3.92g·L -1 ; Ca: 4.30g·L -1 ; Mg: 0.042g L -1 ; pH 13.
[0024] A kind of neutralization method for the treatment of alkaline uranium-containing wastewater according to the present invention:
[0025] (1) Add FeSO to the above-mentioned alkaline uranium-containing wastewater by air stirring 4 Neutralize OH in wastewater - , FeSO 4 The molar amount added is OH in alkaline uranium-containing wastewater - 2 / 3 of the molar weight, the reaction temperature is 30°C, and the reaction time is 1h; Fe 2+ Under the action of air, it is oxidized and hydrolyzed to form Fe(OH) 3 Precipitation, Fe(OH) 3 Precipitation is positively charged to adsorb uranium ions;
[0026] (2) When the pH value is 9, add Na 2 SO 4 Supplement SO 4 2- , so that SO 4 2- The concentration is 2.0g·L -1 ; then add BaCl 2 Radium removal, co-precipitation to generate Ba(Ra)SO ...
Embodiment 3
[0029] Composition U of alkaline wastewater from a uranium mine: 1.64mg·L -1 ;OH - : 2.0g·L -1 ; Ra: 34.5Bq L -1 ; Cl- : 16.24g·L -1 ; Ca: 8.51g L -1 ;Mg-1 ; pH 12.
[0030] A neutralization method for the treatment of alkaline uranium-containing wastewater according to the present invention:
[0031] (1) Add FeSO to the above-mentioned alkaline uranium-containing wastewater 4 Neutralize OH in wastewater - , FeSO 4 The molar amount added is OH in alkaline uranium-containing wastewater - 1 / 3 of the molar weight, the reaction temperature is 20°C, the reaction time is 3h; Fe 2+ Under the action of air, it is oxidized and hydrolyzed to form Fe(OH) 3 Precipitation, Fe(OH) 3 Precipitation is positively charged to adsorb uranium ions;
[0032] (2) When the pH value is 7, add Na 2 SO 4 Supplement SO 4 2- , so that SO 4 2- The concentration is 1.0g·L -1 ; then add BaCl 2 Radium removal, co-precipitation to generate Ba(Ra)SO 4 , BaCl 2 The amount added is controlle...
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