Nuclear waste management: Innovative techniques for long-term storage
1 Department of Science, Govt. Polytechnic, Chitradurga-577501 Karnataka, India.
2 Department of Science, Govt. Polytechnic, Harapanahalli-583131, Karnataka, India.
Review Article
World Journal of Advanced Research and Reviews, 2019, 03(02), 136-146
Article DOI: 10.30574/wjarr.2019.3.2.0114
Publication history:
Received on 11 July 2019; revised on 25 September 2019; accepted on 28 September 2019
Abstract:
Nuclear waste management remains a critical challenge in the field of nuclear energy, requiring advanced solutions to ensure the safe, long-term disposal of radioactive materials. The proper handling and containment of nuclear waste are essential to minimizing environmental risks and ensuring public safety. This paper explores innovative techniques for the long-term storage and disposal of nuclear waste, focusing on three key areas: deep geological repositories, advanced vitrification processes, and novel containment materials. Deep geological repositories provide a secure and stable underground environment for isolating high-level radioactive waste, reducing the risk of surface contamination. Advanced vitrification processes enhance the immobilization of radioactive elements by incorporating them into stable glass matrices, improving durability and resistance to leaching. Additionally, novel containment materials, such as advanced ceramic and composite materials, offer enhanced structural integrity and radiation shielding properties for long-term storage solutions. Furthermore, this study presents a comprehensive analysis of statistical data, figures, and bar charts to evaluate the effectiveness and reliability of these nuclear waste management strategies. By comparing various disposal techniques, this research aims to highlight the most promising advancements in the field and provide insights into future directions for safe and sustainable nuclear waste disposal. The findings underscore the importance of continued research and technological innovation in developing robust nuclear waste management solutions that align with global environmental and safety regulations.
Keywords:
Nuclear waste management; Radioactive waste; Deep geological repositories; Vitrification; Advanced containment materials; Nuclear fuel recycling
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Copyright © 2019 Author(s) retain the copyright of this article. This article is published under the terms of the Creative Commons Attribution Liscense 4.0