Event 6th IWA YWP México 2022 starts on May 23, 2022 at 9:00:00 AM CDT
[138] "VALORISATION OF WASTEWATER FROM TILAPIA AQUACULTURE BY CO-DIGESTION WITH FOOD WASTE THROUGH BIOCHEMICAL HYDROGEN PRODUCTION"
Tecnologías de Tratamiento (TECTRA)
Location: Room 2 - 5/26/22, 10:30 PM - 5/26/22, 10:45 PM (UTC) (15 minutes)

[138] "VALORISATION OF WASTEWATER FROM TILAPIA AQUACULTURE BY CO-DIGESTION WITH FOOD WASTE THROUGH BIOCHEMICAL HYDROGEN PRODUCTION"
Manuel Canto-Robertos Estudiante de Doctorado kanto.manuel@gmail.com 9992278159

Asistente de investigación del informe “Caracterización de organizaciones de la sociedad civil (OSC) y productores potenciales para el Fondo Climático de la Península de Yucatán” en el marco del contrato número FCPY/SC/TNC-SUBNOMEX040418/03/2018 durante mayo a julio de 2018.

Jefe de Proyectos en la Junta Intermunicipal Biocultural del Puuc (JIBIOPUUC), durante el periodo 15 de abril al 15 de agosto de 2016. 

Consultor en la “Construcción participativa de los Programas de Inversión de la Iniciativa de Reducción de Emisiones de gases de efecto invernadero provenientes de la deforestación y degradación forestal (REDD+) en el Estado de Yucatán., durante el periodo 1 de noviembre de 2015 al 31 de enero de 2016. 

Coordinador de la Agencia de Desarrollo Humano Local (Sede Yaxcabá) del proyecto “Propuesta para la instalación y operación de las Agencias de Desarrollo Humano Local, como estrategia para erradicar la pobreza en Yucatán” del Centro de Investigaciones Regionales Dr. Hideyo Noguchi con financiamiento de la SEDESOL, durante el 1 de septiembre de 2014 al 30 de septiembre de 2015.



The current aquaculture industry searches for the efficiency of water usage and minimizing the discharge of waste to public water resources. A strategy to accomplish this goal is to recover organic materials and nutrients through anaerobic digestion (AD). The AD process has the advantage of using a vast diversity of residuals, such as food waste (FW), into valuable renewable fuel products such as methane (CH4) and hydrogen (H2). The current study objective was to evaluate the biochemical hydrogen potential (BHP) test of tilapia (Oreochromis niloticus) aquaculture wastewater (AW) by co-digestion of FW. Anaerobic co-digestion of AW and FW for hydrogen production was performed in serum bottles under various volatile solids (VS) concentrations (2.5-25 g VS L-1). The results showed that the maximum specific hydrogen production potential of 66.2 ± 8.8, 62.2 ± 6.3 and 62.83 ± 7 ml H2/g VSadded were obtained with the treatments 12.5x, 15x, and 25x, respectively. The AW (without adding FW) presented the worst yield with 18.7 ± 2.4 mL H2/g SVadded. The increase in hydrogen yield could be attributed to the addition of FW that supplies specific components such as nutrients and trace elements. The co-digestion of AW with FW can be considered a suitable primary substrate and a proper auxiliary substrate for hydrogen production.


https://zoom.us/j/96405918066?pwd=MXAzNldJd0Yzdnp4aWs2TTZIY2RYUT09