Bibliographic citations
Zaldivar, J., Irigoin, S. (2018). Clarificación fisicoquímica de lixiviados mediante procesos de coagulación, floculación y sedimentación del botadero municipal de la provincia de Moyobamba – 2016 [Universidad Nacional de San Martín. Fondo Editorial]. http://hdl.handle.net/11458/2602
Zaldivar, J., Irigoin, S. Clarificación fisicoquímica de lixiviados mediante procesos de coagulación, floculación y sedimentación del botadero municipal de la provincia de Moyobamba – 2016 []. PE: Universidad Nacional de San Martín. Fondo Editorial; 2018. http://hdl.handle.net/11458/2602
@misc{sunedu/2843859,
title = "Clarificación fisicoquímica de lixiviados mediante procesos de coagulación, floculación y sedimentación del botadero municipal de la provincia de Moyobamba – 2016",
author = "Irigoin Vasquez, Stanler",
publisher = "Universidad Nacional de San Martín. Fondo Editorial",
year = "2018"
}
The final disposal of solid waste is one of the most impacting problems that affect the world’s societies in an environmental problem. The population growth caused by an increase in the demand for cleaning services, and the generation of high amounts of solid waste, the last in contact with the water generated, the latter are contained in contaminated liquids, which must be treated before being discharged to a sewer system or a receiving water body; in view of this problem, the present research has focused on finding a solution alternative through the physicochemical treatment of the leachate generated by the municipal dump in the province of Moyobamba, which consists in the removal of suspended particles by the action of the products separately aluminum sulfate type A and ferric chloride, through coagulation, flocculation and sedimentation processes. The elements for the success of this process have come to determine the optimum dose of the coagulant and the optimum pH for the greatest removal of turbidity and BOD5, after a physical sedimentation and biological flocculation treatment. In this way the research demonstrates that physical-chemical clarification is an adequate technology for this type of leachate, because according to the results, a considerable decrease in the battery charge was obtained, the tests of the pre-treated leachate tests estimate decreases in 43.75% to 51.88% for the turbidity and between 91.78% to 96.93% for the BOD5, thus significantly achieving the physicochemical parameters in the leachates, and constituting an alternative solution to this problem and the lack of a sanitary landfill in the province of Moyobamba.
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