Metabolic heat based specific growth rate estimators: Does the choice of estimation model influence the state of bioprocesses?

IF 2.3 4区生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Journal of bioscience and bioengineering Pub Date : 2024-07-08 DOI:10.1016/j.jbiosc.2024.05.014

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Abstract

Accurate and reliable estimation of specific growth rate ( $μ$ ) in real-time is pivotal for reliable process monitoring of a bioprocess and subsequent implementation of advanced control strategies. Gibbs free energy dissipation is imminent for any biological system, and the metabolic heat flow measurements (calorimetry) formed the basis for estimating $μ$ . However, the rationale behind selecting a suitable $μ$ estimator model based on calorimetric perspective remains unexplored. The present investigation addresses the notion behind the selection of an appropriate estimator for $μ$ and the assessment of the estimator models was illustrated using different types of energy metabolism, namely, high exothermic and low exothermic processes. The results indicated that the $μ$ values from the instantaneous heat flow estimator significantly deviated (10-fold higher) from the offline values for highly exothermic process. Notably, the cumulative heat-based estimator accurately estimated $μ$ values on both types of energy metabolism with performance metrics <0.005 h⁻¹.

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基于代谢热的比生长率估算器：估算模型的选择会影响生物过程的状态吗？

准确可靠地实时估算比生长率（μ）对于生物过程的可靠过程监控和随后实施先进的控制策略至关重要。对于任何生物系统来说，吉布斯自由能耗散都是迫在眉睫的问题，而代谢热流测量（量热法）则是估算 μ 的基础。然而，基于量热法视角选择合适的 μ 估算模型背后的原理仍有待探索。本研究探讨了为 μ 选择合适估算模型的理念，并利用不同类型的能量代谢（即高放热和低放热过程）对估算模型进行了评估。结果表明，在高放热过程中，瞬时热流估算器得出的 μ 值与离线值有明显偏差（高出 10 倍）。值得注意的是，基于累积热量的估算器准确估算了两种类型能量代谢的 μ 值，性能指标为-1。

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来源期刊

Journal of bioscience and bioengineering 生物-生物工程与应用微生物

CiteScore

5.90

自引率

3.60%

发文量

144

审稿时长

51 days

期刊介绍： The Journal of Bioscience and Bioengineering is a research journal publishing original full-length research papers, reviews, and Letters to the Editor. The Journal is devoted to the advancement and dissemination of knowledge concerning fermentation technology, biochemical engineering, food technology and microbiology.