木质纤维素餐厨废弃物中的纤维素及其在能源和环境中的应用:生物乙醇生产和染料去除

IF 0.9 Q4 ENGINEERING, CHEMICAL
P. Ganguly, A. Khan, P. Das, A. Bhowal
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引用次数: 11

摘要

摘要每年约有数百万吨在固体废物中具有潜在价值的原料被限制在垃圾填埋场。生态工程目前面临的挑战之一是开发经济实用、成本效益高的技术,将废物处理成增值的副产品。一种常见的可再生燃料是生物乙醇。这项研究的目的是利用厨房垃圾(洋葱皮和茶渣)进行生物乙醇生产和废水处理。据报道,水热(碱)和酸性预处理是两种原料的最佳工艺。预处理后的废弃物经曲霉菌进一步水解,生产还原糖。报告的最大还原糖产量为9.50 mg/ml的洋葱皮和4.88 mg/ml来自茶废料。利用酿酒酵母在发酵过程中保持厌氧条件。洋葱皮产生的生物乙醇最大,分别为0.95和0.66 g/g是通过利用茶废料实现的。今天的另一个环境问题是开发一种有效的木质纤维素基质再利用处理方法。在这种情况下,生物质废物被处理并转化为增值产品,如纤维素和木质素,用于去除结晶紫染料。使用纤维素去除的染料的最大量为96%。图形摘要
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Cellulose from lignocellulose kitchen waste and its application for energy and environment: bioethanol production and dye removal
ABSTRACT Every year about millions of tons of raw feedstocks having a potential value in solid waste is confined into landfills. One of the present challenges for ecological engineering is to develop economically practical and cost-effective technologies to treat waste into value-added by-products. One of the common types of renewable fuel is Bioethanol. The aim of this research was the utilisation of kitchen wastes (onion peels and tea waste) for bioethanol production and wastewater treatment. Hydrothermal (alkali) followed by acidic pre-treatment was reported best technique for both the feedstocks. Pre-treated wastes were further, hydrolysed by Aspergillus sp. for reducing sugar production. The maximum reducing sugar yield reported was 9.50 mg/ml from the onion peels and 4.88 mg/ml from tea waste. The anaerobic condition was maintained for the fermentation process by utilising Saccharomyces cerevisiae. Bioethanol production was maximum from onion peels 0.95, and 0.66 g/g was achieved by utilising tea waste. The other environmental concern today is to evolve an effectual treatment methodology for the reuse of the lignocellulosic substrate. In this context, biomass waste was treated and transform to value-added products such as cellulose and lignin, utilised for crystal violet dye removal. The maximum amount of dye removed was 96% using cellulose. GRAPHICAL ABSTRACT
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来源期刊
Indian Chemical Engineer
Indian Chemical Engineer ENGINEERING, CHEMICAL-
CiteScore
3.00
自引率
6.70%
发文量
33
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