Characterization and treatment of leachate of the great agadir discharge by infiltration–percolation onto titaniferous sand

•The infiltration–percolation technique using titaniferous sand was used to treat the leachate.•The physico-chemical analysis of the leachate of the great agadir was investigated.•The 150 cm height column show reduction rates of 73.7%, 43.32% and 89.7%, for BOD5, COD reached and turbidity, respectiv...

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Bibliographic Details
Published in:Scientific African 2019-11, Vol.6, p.e00154, Article e00154
Main Authors: Azougarh, Youssef, Abbaz, Mohamed, Hafid, Naima, Benafqir, Mohmed, Ez-zahery, Mohamed, Alem, Noureddin El
Format: Article
Language:English
Subjects:
Infiltration-percolation
Leachate
Physico-chemical analysis
Titaniferous sand
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Summary:•The infiltration–percolation technique using titaniferous sand was used to treat the leachate.•The physico-chemical analysis of the leachate of the great agadir was investigated.•The 150 cm height column show reduction rates of 73.7%, 43.32% and 89.7%, for BOD5, COD reached and turbidity, respectively.•Infiltration–percolation technique has shown significant purification performance. Our study consists of treating the liquid discharge of the Great Agadir effluents by the infiltration–percolation technique using titaniferous sand (TFS) coming from the Agadir region. Leachate was removed from the storage pond in TBC (Technical Burying Centre) Tamellast and treated by sand columns with different heights. The physico-chemical analysis of the leachate revealed high levels of biodegradable organic matter (BOD5 varies between 1090 and 2100 mgO2/L) and mineral matter (the average of electrical conductivity reached 96.10 mS/cm). The pH of leachate is slightly alkalin and the value of the BOD5/COD ratio varies between 0.08 and 0.15, which confirms that it is a stabilized intermediate leachate. The treatment by infiltration percolation on TFS of the leachate made it possible to reach interesting reduction rates. In the 150 cm height column, the results show that the turbidity reduction rates, BOD5 and COD reached 89.70%, 73.70% and 43.42%, respectively. Infiltration–percolation technique has shown significant purification performance in the elimination of the pollution load of the treated leachate. [Display omitted]
ISSN:2468-2276
2468-2276
DOI:10.1016/j.sciaf.2019.e00154