Modak J M, Lim H C
School of Chemical Engineering, Purdue University, West Lafayette, Indiana 47907, USA.
Biotechnol Bioeng. 1989 Jan 5;33(1):11-5. doi: 10.1002/bit.260330103.
Determination of the optimal feed rate for fed-batch fermentation is normally a problem in singular control with a state inequality constraint and as such is, in general, difficult to solve, especially for those described by a large number of dynamic mass balance equations. In this article we use a new set of state variables and the culture volume as the control variable. In this way the problem is converted to one of nonsingular control with the magnitude and rate constraints on the manipulated variable and can be numerically solved by a gradient-based technique, thus avoiding the difficulty associated with singular control problems. Examples are given to illustrate the method.
确定分批补料发酵的最佳补料速率通常是一个具有状态不等式约束的奇异控制问题,因此一般来说很难解决,尤其是对于那些由大量动态质量平衡方程描述的情况。在本文中,我们使用一组新的状态变量,并将培养体积作为控制变量。通过这种方式,该问题被转化为一个对操纵变量具有大小和速率约束的非奇异控制问题,并且可以通过基于梯度的技术进行数值求解,从而避免了与奇异控制问题相关的困难。文中给出了示例来说明该方法。