University of São Paulo, School of Pharmaceutical Sciences, Av. Prof. Lineu Prestes, 580, B.16, 05508-900 São Paulo, SP, Brazil.
Appl Biochem Biotechnol. 2011 Dec;165(7-8):1708-24. doi: 10.1007/s12010-011-9389-6. Epub 2011 Sep 24.
Multienzymatic conversion of sucrose into fructose and gluconic acid was studied through fed-batch and continuous (in a membrane reactor) processes. The law of substrate addition (sucrose or glucose) for the fed-batch process which led to a yield superior to 80% was the decreasing linear type, whose feeding rate (ϕ; L/h) was calculated through the equation: ϕ = ϕ(o) - k.t, where ϕ(o) (initial feeding rate, L/h), k (linear addition constant, L/h (2)), and t (reaction time, h). In the continuous process, the yield of conversion of sucrose (Y) was superior to 70% under the following conditions: dilution rate = 0.33 h(-1), total duration of 15 h, pH 5.0, 37 °C and initial sucrose concentration of 64 g/L (Y = 92%), 100 g/L (Y = 83%), or 150 g/L (Y = 76%).
通过分批补料和连续(在膜反应器中)工艺研究了蔗糖转化为果糖和葡萄糖酸的多酶转化。导致产率超过 80%的分批补料过程中底物(蔗糖或葡萄糖)添加规律是递减线性型,其补料速率(ϕ;L/h)通过以下方程计算:ϕ = ϕ(o) - k.t,其中 ϕ(o)(初始补料速率,L/h),k(线性添加常数,L/h(2)),t(反应时间,h)。在连续过程中,在以下条件下,蔗糖转化率(Y)超过 70%:稀释率=0.33 h(-1),总时间为 15 h,pH 值为 5.0,37°C,初始蔗糖浓度为 64 g/L(Y=92%),100 g/L(Y=83%)或 150 g/L(Y=76%)。
Zotero 插件