期刊
CRITICAL REVIEWS IN ENVIRONMENTAL SCIENCE AND TECHNOLOGY
卷 51, 期 19, 页码 2197-2231出版社
TAYLOR & FRANCIS INC
DOI: 10.1080/10643389.2020.1776052
关键词
Cold-bonding process; lightweight aggregates; pelletization efficiency
资金
- Italian Ministry of Education, University and Research (MIUR) [CUP E65D18000820006]
This work provides a comprehensive review of the process of producing lightweight aggregates using waste materials, highlighting feasible mix-designs, relevant operating parameters, and potential applications. Data comparison is useful for identifying optimal process conditions, including selecting appropriate mix-designs and operating conditions. An optimized approach to experimental studies on cold-bonding processes can enhance future process performance.
This work provides a comprehensive review of research on the cold-bonding pelletization process used to produce lightweight aggregates (LWAs) using waste materials, to valorize the waste and, at the same time, minimize risks related to disposal. Research investigating various aspects of the cold-bonding process highlight: i) feasible mix-designs for pellet production; ii) the most relevant operating parameters affecting the process; and iii) the potential applications of the LWAs produced. The analysis gives a wide overview of the fundamental key-points that control the cold-bonding process. Data comparison provides a useful way to identify the optimal process conditions to allow development of optimum products. This involves the selection of the correct mix-design, including suitable binders and potential additives, and the selection of appropriate operating conditions, which are a function of the waste investigated, and/or waste mix characteristics. The review proposes an optimized approach to experimental studies on cold-bonding processes that has potential to enhance future process performance. Moreover, the present work provides a complete framework useful for decision-making for both manufacturers and researchers working to use this promising technique.
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