Open Access
Kinetic behavior and modeling the space distribution of basic pollutants in a subsurface flow constructed wetlands with Pontederia cordata
Anel Magaña-Flores1
,
Gaspar López-Ocaña1 ,
Mario José Romellón-Cerino2
,
Gaspar López-Ocaña1 ,
Mario José Romellón-Cerino2
1 Laboratorio de Tecnología del Agua, División Académica de Ciencias Biológicas, Universidad Juárez Autónoma de Tabasco, Centro, Tabasco, México.
2 Laboratorio de Química Pesada, Departamento de Química-Bioquímica-Ambiental, Tecnológico Nacional de México-Instituto Tecnológico de Villahermosa, Centro, Tabasco, México.
Abstract
Water pollution is one of the most serious environmental problems nowadays, so it is relevant to study improvements in the wastewater treatment system. In this work, the kinetics of experimental degradation of basic pollutants were evaluated, as well as the behavior of their spatial distribution, within a subsurface flow constructed wetland (SSFCW) with Pontederia cordata. To achieve so, a factor design was made with five treatments at different planting distances within wetland (0, 0.42, 1.25, 2.08 and 2.4 m) with three replicates and nine sampling points. The experimental reactors showed a hydraulic retention time of 4.5 days, treating 185.1±58.6 L/day of wastewater, with river gravel as support medium with a volume of 0.66±0.05 m3, porosity n=56±3.5%, density of 2670±19.3 kg/m3, allowing a water volume of 0.1±0.05 m3. In the evaluation phase, a k of -0.37 days-1 was obtained, removing 81.8% of BOD5 and 70% turbidity. With the modeling of the spatial distribution, it was demonstrated that the biomass (microorganisms) adhered to the support medium, as well as the BOD5, have a significant decrease related to the distance within the SSFCW throughout the reactor. The contaminant removal efficiency is presented from the distance 2.08 to 2.4 m in length within the experimental wetland.
Keywords
BOD5,Phytoremediation,Wastewater,Treatment system,Macrophytes
How to Cite
Magaña-Flores, A., López-Ocaña, G., & Romellón-Cerino, M. J. (2022). Kinetic behavior and modeling the space distribution of basic pollutants in a subsurface flow constructed wetlands with Pontederia cordata. Renewable Energy, Biomass & Sustainability, 4(1), 1–13. https://doi.org/10.56845/rebs.v4i1.64
References
Alasino, N., Nadal, F., Primo, L., Bollo, P., & Larrosa, N. (2015). Comportamiento cinético e hidráulico de un humedal construido a escala real. Disponible en: www.scielo.org.mx/scielo.php?script=sci_arttext&pid=S2007-24222015000300007. ISSN: 2007-2422.
Bedoya Pérez, J. C., Ardila Arias, A. N., Reyes Calle, J. (2014). Evaluación de un humedal artificial de flujo subsuperficial en el tratamiento de las aguas residuaes generadas en la Institución Universitaria Colegio Mayor de Antioquia, Colombia. Disponible en: http://www.redalyc.org/articulo.oa?id=37031522004. ISSN: 0188-4999.
Castillo, P. A. y Collado, R. (1996). Eliminación de nitrógeno en sistemas naturales de depuración de aguas residuales: Análisis Comparativo. Retema, 52, 49-55.
Charris, J. C. y Caselles-Osorio, A. (2016). Eficiencias de eliminación de contaminantes de agua residual doméstica con humedales construidos experimentales plantados con Cyperus ligularis (Cyperaceae) y Echinochloa colonum (Poaceae). Tecnología y Ciencias del Agua. 7, 93-103. Disponible en: http://www.scielo.org.mx/scielo.php?script=sci_arttext&pid=S2007-24222016000600093&lng=es&nrm=iso&tlng=es. ISSN: 0187-8336
Chung, A. C., Wu, Y., Tam, N. Y. y Wong, M. H. (2008). Nitrogen and phosphate mass balance in a sub-surface flow constructed wetland for treating municipal wastewater. Ecological Engineering. 32, 81-89. https://doi.org/10.1016/j.ecoleng.2007.09.007. ISSN: 0925-8574