Removal of nitrate from underground mine waters using selective ion exchange resins

Removal of nitrate from underground mine waters using selective ion exchange resins

The removal of nitrogen from wastewaters is of great importance due to the harmful effects of nitrogen in the environment. In this study, nitrate removal from two underground mine waters was investigated by strong anion exchange resins (Lewatit MonoPlus SR 7 (referred to as SR7, macroporous), Puroli...

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Bibliographic Details
Published in:Journal of environmental chemical engineering Vol. 10; no. 6; p. 108642
Main Authors: Abayie, S. Okyere, Leiviskä, T.
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-12-2022
Subjects:
Breakthrough curve
Chloride
Column study
Strong base anion exchange resin
Sulphate
Sulphate
Strong base anion exchange resin
Column study
Chloride
Breakthrough curve
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Summary:The removal of nitrogen from wastewaters is of great importance due to the harmful effects of nitrogen in the environment. In this study, nitrate removal from two underground mine waters was investigated by strong anion exchange resins (Lewatit MonoPlus SR 7 (referred to as SR7, macroporous), Purolite A520E (A520E, macroporous), Purolite A300E (A300E, gel)) in continuous-flow columns. Both mine waters had similar nitrate concentrations (NO3-N: Mine A 32 mg/l and Mine B 37 mg/l) but contained different levels of chlorides and sulphates. Overall, all three resins removed nitrate from real underground mine waters effectively. In both mine waters, the earliest breakthrough was registered for resin A300E while resins SR7 and A520E had similar breakthrough points. Chloride was identified as a more competitive ion for nitrate than sulphate with resins SR7 and A520E, as their breakthrough curves shifted from left to right when the water was changed from Mine A (higher concentration of Cl-) to Mine B (higher concentration of SO42-). Resin A300E showed a somewhat higher sulphate uptake than the other two resins, which indicates its lower selectivity. This study provides new insight into how selectively nitrate is removed from real underground mine waters by polystyrene resins with different trialkyl functional groups and porosity. [Display omitted] •The highest capacity was observed for A520E in both waters.•Sulphate hinders nitrate uptake less than chloride with SR7 and A520E.•A300E resin show a higher uptake of sulphate than SR7 and A520E.
ISSN:2213-3437
2213-3437
DOI:10.1016/j.jece.2022.108642