Abstract
The combination of biological processes with electrical monitoring and control mechanisms has resulted in bioelectronics, a technology that holds significant potential for improving waste treatment systems. In this study, the authors investigate the use of bioelectronics in waste treatment systems and their potential to contribute to environmental sustainability and resource recovery using TAM theory. Bioelectronics, which combines biological processes with electrical monitoring and control systems, has emerged as a viable method for waste treatment optimization. Waste treatment facilities can use bioelectronic sensors, actuators, and monitoring devices to optimize different process parameters, improve treatment efficiency, and reduce their environmental impact. Bioelectronics improves waste treatment operations by merging modern electronic monitoring and control systems with biological treatment mechanisms.
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