Operating condition design with a Bayesian optimization approach for pharmaceutical intermediate batch concentration

Authors

Chong Liu, Beijing University of Chemical Technology
Chengyu Han, Beijing University of Chemical Technology
Chenxi Gu, Ltd.
Wei Sun, Beijing University of Chemical Technology
Jingde Wang, Beijing University of Chemical Technology
Xun Tang, Cain Department of Chemical Engineering

Document Type

Article

Publication Date

10-1-2024

Abstract

In the synthesis of pharmaceutical intermediates, concentration is commonly employed to separate the product and recycle the solvents. To achieve a cost-effective manufacturing, operating parameters shall be adjusted over time, which could traditionally be achieved based on dynamic simulation, but with significant computation cost. In this work, we introduced a Bayesian optimization approach to design the optimal operating condition of a pharmaceutical intermediate in the production of Lamivudine. Using a Gaussian process regression as the surrogate model, the approach tremendously reduced the computational cost in searching for the optimal design. In comparison to other commonly used intelligent optimization algorithms, the results demonstrate that the presented approach confers evident advantages, especially in reducing the tendency of getting trapped in local optima and in improving the speed of convergence to an optimal solution.

Publication Source (Journal or Book title)

Computers and Chemical Engineering

Recommended Citation

Liu, C., Han, C., Gu, C., Sun, W., Wang, J., & Tang, X. (2024). Operating condition design with a Bayesian optimization approach for pharmaceutical intermediate batch concentration. Computers and Chemical Engineering, 189 https://doi.org/10.1016/j.compchemeng.2024.108813