Converting the cigarette butts into valuable products using the pyrolysis process
IF 3.1
Q2 ENVIRONMENTAL SCIENCES
M. Hazbehiean, N. Mokhtarian, A. Hallajisani
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引用次数: 6
Abstract
More than 5.5 trillion cigarettes are manufactured, and approximately 4.5 trillion cigarette butts are being scattered across the globe per year. These cigarette butts are considered as one of the most hazardous wastes and environmental threats in the world. Thermochemical techniques can be used to turn biomass and solid wastes into valuable final products. Pyrolysis is a comfortable thermochemical technique for turning biomass into biochars, biofuels, briquette solid fuels, and further valuable products such as activated carbons, carbon black, and printing ink. In this study, it was attempted to review the available researches about pyrolysis of cigarette butts with an emphasis on transforming them into carbonated solid and liquid products. It was found that, in addition to the process variables, the type of cigarette butts treatment has a significant effect on the yield and quality of the finished goods. Further studies on the pyrolysis of cigarette butts, especially microwave-assisted pyrolysis and hybrid waste pyrolysis, seemed to be necessary. Solving the technical issues associated with the pyrolysis of cigarette butts to produce the value-added goods would contribute to their application in waste disposal and recycling of other resources. Future studies should focus on the separation methods with the help of gas products to provide the heat required in the reactor. Moreover, mixing the sewage sludge material, as a feed, with cigarette butts and application of appropriate models and experiments to attain the products with specific properties are recommended. The results of this study can be used to eliminate the hazards of the cigarette butts scattered in the environment and create the added value for the pyrolysis process. ==========================================================================================COPYRIGHTS©2021 The author(s). This is an open access article distributed under the terms of the Creative Commons Attribution (CC BY 4.0), which permits unrestricted use, distribution, and reproduction in any medium, as long as the original authors and source are cited. No permission is required from the authors or the publishers.==========================================================================================
利用热解工艺将烟头转化为有价值的产品
全球每年制造超过5.5万亿支香烟,约4.5万亿个烟头散落在全球各地。这些烟蒂被认为是世界上最危险的废物和环境威胁之一。热化学技术可用于将生物质和固体废物转化为有价值的最终产品。热解是一种舒适的热化学技术,可将生物质转化为生物炭、生物燃料、型煤固体燃料,以及活性炭、炭黑和印刷油墨等其他有价值的产品。在本研究中,试图回顾关于烟蒂热解的现有研究,重点是将烟蒂转化为碳酸固体和液体产品。研究发现,除了工艺变量外,烟头处理的类型对成品的产量和质量也有显著影响。对烟头热解的进一步研究,特别是微波辅助热解和垃圾混合热解,似乎是必要的。解决与烟头热解生产增值产品有关的技术问题将有助于将其应用于废物处理和其他资源的回收利用。未来的研究应该集中在借助气体产物提供反应器所需热量的分离方法上。此外,建议将污泥材料作为饲料与烟头混合,并应用适当的模型和实验来获得具有特定性能的产品。该研究结果可用于消除烟头散落在环境中的危害,为热解过程创造附加值==========================================================================================版权所有©2021作者。这是一篇根据知识共享署名(CC BY 4.0)条款分发的开放获取文章,该条款允许在任何媒体上不受限制地使用、分发和复制,只要引用了原始作者和来源。不需要作者或出版商的许可==========================================================================================
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