Case Studies in Chemical and Environmental Engineering (Jun 2024)
Development of a protocol with Typha domingensis Pers. for the treatment of wastewater from paper recycling
Abstract
The production process of recycled paper generates a significant amount of wastewater. In many cases, the companies do not have a fully adequate effluent treatment system, due to the high cost of conventional physical or chemical treatment systems, which leads to contaminated wastewater. Due to this problem, this research aims to evaluate a bioremediation system based on a flotation system with Typha domingensis plants, for the recovery of wastewater generated in the paper recycling process. The effluent treatment system was installed in the vegetation house of the Multidisciplinary Center for Technological Research (CEMIT), San Lorenzo, Paraguay. It consisted of Typhas plants arranged in plastic containers, which were classified in relation to the effluent concentration (100 %; 50 %; 30 %), in three replicates. For the evaluation of efficiency, physicochemical determinations of pH, temperature, turbidity, conductivity, BOD5, COD, total phosphorus and total nitrogen were carried out at 7-day intervals over a 4-week period. The results obtained indicate significant differences in the percentage of removal of the different pollutant concentrations, where the COD and BOD5 parameters showed removal values of 99 % and 92 %. In the case of Total Nitrogen and Total Phosphorus the values were around 92 % and 75 %, respectively, demonstrating the efficiency of the plant in the treatment of the effluent. This kind of wastewater treatment system has the potential to decrease the load of effluent pollutants produced in paper recycling. Therefore, this study concluded that the system composed of T. domingensis is an option as a potential phytoremediation system for the treatment of wastewater from paper recycling.