Continuous ethanol production by yeast immobilized on to channeled alumina beads

Biomass Pub Date : 1990-01-01 DOI:10.1016/0144-4565(90)90064-Q

M.K. Hamdy, K. Kim, C.A. Rudtke

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引用次数: 27

Abstract

Vertical and near-horizontal (15° angle) packed-bed columns were compared for continuous ethanol fermentation using an alcohol- and glucose-tolerant Saccharomyces cerevisiae strain immobilized on to channeled alumina beads (5·0 × 10⁹ cells g⁻¹ beads). Spaces between beads (1·0–6·5 mm) and angle (15°) of near-horizontal reactor columns (with six ports in each) efficiently removed CO₂ and increased ethanol productivity. Malt-glucose-yeast-extract broth containing 16·7% glucose at 35°C fed at a dilution rate of 3· h⁻¹ to thw two horizontal columns (in series) yielded maximum ethanol productivity of 40·0 g liter⁻¹ h⁻¹. Feedstock flow rate and other factors (temperature, pH, nutrients, and glucose levels) affected productivities. The immobilized-cell system showed operational stability for >3 months without plugging, and could be stored for at least one year with no loss of bioreactor performance. Scanning electron micrographs of the beads revealed large numbers of yeast-cells attached on to internal and external surfaces of beads.

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固定化酵母在通道氧化铝珠上连续生产乙醇

采用固定化在通道氧化铝微球(5·0 × 109个细胞g−1微球)上的耐酒精和耐葡萄糖酿酒酵母，比较垂直和近水平(15°角)填充床柱连续乙醇发酵的效果。珠子之间的空间(1.0 - 6.5 mm)和近水平反应器柱的角度(15°)(每个柱上有六个端口)有效地去除了二氧化碳并提高了乙醇产量。在35°C下，以3·h−1的稀释率，将含有16.7%葡萄糖的麦芽-葡萄糖-酵母提取物的肉汤放入两根水平柱(串联)中，乙醇产量最高为40·0 gl−1 h−1。原料流速和其他因素(温度、pH值、营养物质和葡萄糖水平)都会影响生产效率。该固定化细胞系统在不堵塞的情况下可以稳定运行3个月，并且可以在不影响生物反应器性能的情况下储存至少一年。扫描电子显微照片显示，大量酵母细胞附着在珠的内外表面。

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