耦合中空纤维膜超滤分离游离细胞催化合成ATP

对耦合中空纤维膜超滤分离进行游离细胞催化合成ATP过程进行了实验研究，考察了细胞的催化效率和膜组件的操作稳定性。结果显示，中空纤维超滤膜的耦合分离能有效地截留反应液中的游离酶，其中乙醇脱氢酶(ADH)和已糖激酶(HK)的稳态截留效率在95%以上。耦合膜分离的酵母细胞催化ATP合成反应可重复使用2.5～3.0次，酶的利用率比普通分离的细胞提高2.0～2.5倍。中空纤维超滤膜于0.1Mpa工作压力下连续11批耦合分离操作，膜的渗透性无明显下降，过滤速率保持在初速率的95%以上。在稀释速率0.25h-1下，反应体系保持了连续5h的ATP高转化率合成与分离耦合的拟稳态操作。

ATP SYNTHESIS BY FREE YEAST CATALYSIS COUPLING HOLLOW FIBER ULTRAFILTRATION SEPARATION

A novel process for the ATP production employing free yeast catalysis and coupling a hollow fiber module ultrafiltration separation was studied. The experimental results of biocatalyst half-life and operating stability for ultrafiltration showed that the enzymes released from free yeast cell could be cut-off efficiently from the product output stream by hollow fiber membrane. The intercepted percentage of ADH and HK reached more than 95% during the steady running. The efficiency of enzymes utilized was 2.0-2.5 fold as much as that of batch reaction. And the time of yeast cells used repeatedly for ATP synthesis reached 2.5-3.0 batches. Under 0.1 MPa, the ultrafiltrating speed of hollow fiber membrane could keep on a stabilizing value for 11 batches continuously. The continuous operation mode of ATP synthesis simultaneous product ultrafiltration separation could be maintained in higher conversion rate for 5.0 h when the whole system fell in a pseudo-stat where the dilution rate was equal to 0.25 h-1.