Exponential stability of bioprocess model with mass balance and sequential reactor systems
Authors
Kumar R Ravi, T Aasaithambi, S Senthilkumar, S Manimala, K Suganya
Abstract
This study investigates the stability of a bioprocess model that incorporates mass balance principles within a sequential reactor system equipped with a recycling loop. The analysis employs one-dimensional partial differential equations, including integro-differential terms, to evaluate exponential stability via a Port-Hamiltonian control mechanism. The proposed approach demonstrates how a simplified structural framework, used to estimate the carbon dehydration process within a dynamic model, enables seamless integration of carbon transfer control strategies across domains. Numerical examples are included to illustrate the model’s effectiveness and real-world applicability.
Citation
- Journal: Plant Science Today
- Year: 2025
- Volume: 12
- Issue: sp1
- Pages:
- Publisher: Horizon E-Publishing Group
- DOI: 10.14719/pst.7559
BibTeX
@article{Ravi_2025,
title={{Exponential stability of bioprocess model with mass balance and sequential reactor systems}},
volume={12},
ISSN={2348-1900},
DOI={10.14719/pst.7559},
number={sp1},
journal={Plant Science Today},
publisher={Horizon E-Publishing Group},
author={Ravi, Kumar R and Aasaithambi, T and Senthilkumar, S and Manimala, S and Suganya, K},
year={2025}
}