糖-乙醇工艺废水糟渣的增值利用：一种利用可食用子囊菌丝状真菌的新型生物炼制方法。

Valorization of sugar-to-ethanol process waste vinasse: A novel biorefinery approach using edible ascomycetes filamentous fungi.

机构信息

Swedish Centre for Resource Recovery, University of Borås, SE 50190 Borås, Sweden.

出版信息

Bioresour Technol. 2016 Dec;221:469-476. doi: 10.1016/j.biortech.2016.09.074. Epub 2016 Sep 20.

DOI:10.1016/j.biortech.2016.09.074

Abstract

The aim of the present work was to study the integration of edible ascomycetes filamentous fungi into the existing sugar- or molasses-to-ethanol processes, to grow on vinasse or stillage and produce ethanol and protein-rich fungal biomass. Two fungal strains, Neurospora intermedia and Aspergillus oryzae were examined in shake flasks and airlift-bioreactors, resulting in reduction of vinasse COD by 34% and viscosity by 21%. Utilization of glycerol and sugars were observed, yielding 202.4 or 222.8g dry fungal biomass of N. intermedia or A. oryzae respectively, per liter of vinasse. Integration of the current process at an existing ethanol facility producing about 100,000m of ethanol per year could produce around 200,000-250,000tons of dry fungal biomass (40-45% protein) together with about 8800-12,600m extra ethanol (8.8-12.6% of production-rate improvement).

摘要

本工作旨在研究将食用子囊菌丝状真菌整合到现有的糖或糖蜜制乙醇工艺中，利用酒糟或发酵液生产乙醇和富含蛋白质的真菌生物质。在摇瓶和空气升液生物反应器中检查了两种真菌菌株，即中间神经孢霉和米曲霉，结果使酒糟 COD 降低了 34%，黏度降低了 21%。观察到甘油和糖的利用，每升酒糟分别产生 202.4 或 222.8 克中间神经孢霉或米曲霉的干真菌生物质。在每年生产约 100,000 立方米乙醇的现有乙醇工厂中整合当前工艺，可以生产约 200,000-250,000 吨干真菌生物质（40-45%的蛋白质）和 8800-12,600 立方米额外的乙醇（生产速率提高 8.8-12.6%）。

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糖-乙醇工艺废水糟渣的增值利用：一种利用可食用子囊菌丝状真菌的新型生物炼制方法。

Valorization of sugar-to-ethanol process waste vinasse: A novel biorefinery approach using edible ascomycetes filamentous fungi.

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