Abstract
The increasing volume of waste generated by urban and industrial activities has heightened the need for sustainable waste management solutions. This article explores innovative waste-to-energy (WtE) approaches, examining their potential within circular economy models to enhance sustainable waste management. By integrating WtE technologies with circular economy principles, this study highlights how waste can be transformed into a valuable resource, reducing environmental impact while creating economic and social benefits. Through a comprehensive assessment of different WtE technologies, such as anaerobic digestion, pyrolysis, and gasification, this research analyzes their effectiveness in converting various waste types into renewable energy forms. The findings suggest that circular economy-based WtE solutions can significantly contribute to reducing landfill dependency, lowering greenhouse gas emissions, and promoting energy self-sufficiency. Furthermore, the study addresses the challenges associated with WtE implementation, including technological, regulatory, and social factors, and proposes strategies to overcome these barriers. By aligning WtE practices with circular economy models, this article provides a framework for policymakers, industries, and communities to adopt sustainable, resource-efficient waste management systems. The research underscores the need for collaborative efforts to optimize WtE technologies within circular frameworks, fostering a more resilient and sustainable approach to waste management in urban and industrial settings.
Published Version
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