Design and development of an integrated environmental waste management system with a sustainable solution

Abstract

AbstractWater quality evaluation is a progressively significant area in environmental research and developing sustainable solutions. Evaluation of water quality can be a process that includes multiple factors that can be causing an impact on water quality. Academics have developed many assessment indices to intuitively display the environmental waste management system results and water quality evaluation. Environmental waste management encourages industrial garbage's safe handling and use by offering comprehensive, up-to-date information on physicochemical, chemical, and environmental hazards in the sugar, pulp, and paper industries, tanning, distilling, fabrics, petroleum hydrocarbons, and agrochemical industries. The environmental waste management system's challenging characteristics include the subsequent produce having a reduced life span and hazardous waste management spaces. The notices that are not completed consistently are considered the vital factor. In this paper, the Multi-Criteria Generic Evaluation Sustainable Approach (MCGESA) has been proposed to improve the resultant product's quality, support environmental-friendly practices water quality, and reduce the globe's temperature to develop a sustainable solution the environmental waste management system. Partial sustainable product analysis is implemented to replace the disposal items with reusable items and maintain eco-friendly recycled products to develop the environmental waste management system. Municipal life cycle assessment is integrated with MCGESA to strengthen uniformity in waste management practices that help to develop integrated environmental waste management systems with a sustainable solution. The simulation analysis is executed based on economic, ecological, and efficiency analysis, proving the suggested framework's reliability using SWR.