Comparative Studies On Bioethanol Production From Some Sugar Based Agricultural Wastes

International Journal of Research In Science & Engineering Pub Date : 2022-01-22 DOI:10.55529/ijrise.21.1.6

O. C., Ikhuoria E. U., Obibuzo J. U.

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引用次数: 2

Abstract

The suitability of some sugar-based agricultural wastes (pineapple peels, banana peels, and plantain peels) were examined for bioethanol production. They were subjected to different physico-chemical pretreatments in order to identify the most effective process and optimize the yield of bioethanol. They were further hydrolyzed by cellulase enzymes from Trichoderma ressei micro-organism isolated from the soil. The various hydrolysates obtained were subsequently fermented to bioethanol using co-cultures of Pichia stipitis and Saccharomyces cerevisiae fermentative yeasts. Separate hydrolysis and co-fermentation (SHCF) and simultaneous saccharification and co-fermentation (SSCF) methods were adopted and their bioethanol yields compared. The fermentation results revealed that the maximum bioethanol yields for pineapple peels, banana peels, and plantain peels were 4.94, 3.85, and 4.57 (% w/v wet biomass) respectively at 72 hours fermentation period. SSCF strategy was observed to be more effective as it gave better bioethanol yields in all the considered substrates and was less time consuming. Mixed cultures of Trichoderma ressi, Pichia stipitis and Saccharomyces cerevisiae through SSCF process resulted to a better fermentation yield when compared with previous studies by other workers.

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几种糖基农业废弃物生产生物乙醇的比较研究

研究了几种糖基农业废弃物(菠萝皮、香蕉皮和大蕉皮)用于生物乙醇生产的适宜性。为了确定最有效的工艺，优化生物乙醇的产率，对其进行了不同的理化预处理。它们被从土壤中分离出来的雷塞木霉微生物的纤维素酶进一步水解。得到的各种水解产物随后用毕赤酵母和酿酒酵母共培养发酵成生物乙醇。采用分离水解与共发酵(SHCF)和同时糖化与共发酵(SSCF)两种方法，比较了两种方法的生物乙醇产量。发酵结果表明，在发酵72 h时，菠萝皮、香蕉皮和大蕉皮的最大生物乙醇产量分别为4.94、3.85和4.57 (% w/v湿生物量)。SSCF策略被观察到更有效，因为它在所有考虑的底物中都能获得更好的生物乙醇产量，而且耗时更少。通过sscf工艺对木霉、毕赤酵母和酿酒酵母进行混合培养，与其他工作者的研究相比，发酵产量更高。

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International Journal of Research In Science & Engineering

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