Conceptual Design of an Industrial-Scale Plant for Ethanol Production from Taro Waste

Q4 Immunology and Microbiology

Taiwanese Journal of Agricultural Chemistry and Food Science Pub Date : 2013-08-12 DOI:10.6578/TJACFS.2013.021

Xiao-hui Pua, Michelle C. Lee, S. Hsieh, Ting-Chu Yu, Kuan-Chen Cheng

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Abstract

Sustainable utilization of agricultural wastes has gained attention due to increasing amount of waste generated from both field and manufacturing processes. These wastes contain huge potential of untapped energy that can be utilized after undergoing adequate treatment. Bioethanol, a bioenergy source of high efficiency and low environmental impact, is produced through fermentation of sugar by specific microorganisms. In this study, a conceptual design of ethanol production from taro waste by Saccharomyces cerevisiae was proposed based on data and references. An industrial-scale plant was designed to produce 5 million liters ethanol annually accounting for about 0.5% of the annual ethanol demand in Taiwan. The fermentation section of the plant consists of two feed tanks, where taro waste is diluted and standardized, one batch (aerobic) reactor for microbial culture enrichment, and two parallel systems each consisting of two continuous (an aerobic and an anaerobic respectively) reactors for further culture enrichment and ethanol production.

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芋渣制乙醇工业规模装置的概念设计

由于田间和生产过程中产生的废物越来越多，农业废物的可持续利用已引起人们的注意。这些废物含有巨大的未开发能源潜力，经过适当的处理后可以加以利用。生物乙醇是一种高效、低环境影响的生物能源，是由特定微生物对糖进行发酵而产生的。本研究在查阅相关资料的基础上，提出了利用酿酒酵母从芋头废料中提取乙醇的概念设计。一个工业规模的工厂被设计为每年生产500万升乙醇，约占台湾年乙醇需求的0.5%。该工厂的发酵部分包括两个饲料池，用于稀释和标准化芋头废物，一个间歇式(好氧)反应器用于微生物培养富集，以及两个平行系统，每个系统由两个连续反应器(分别为好氧和厌氧)组成，用于进一步培养富集和乙醇生产。

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来源期刊

Taiwanese Journal of Agricultural Chemistry and Food Science Immunology and Microbiology-Applied Microbiology and Biotechnology

CiteScore

0.10

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0.00%

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