Phenomenological modeling of polyols, citric acid and bio-oil concurrent production by Yarrowia lipolytica from glycerol

Cleaner Chemical Engineering Pub Date : 2023-03-01 DOI:10.1016/j.clce.2023.100100

Ana Luiza B.M.A. Campos , Felipe V. do Nascimento , Argimiro R. Secchi , Maria Alice Z. Coelho

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Abstract

Biochemical routes have shown to be an interesting alternative for the reuse of glycerol, largely generated as a co-product in biodiesel production reaction. Previous works from the research group have demonstrated that glycerol can be efficiently assimilated by Yarrowia lipolytica to produce erythritol, mannitol, citric acid and bio-oil. To better understand the metabolic pathways involved, this work proposes a mathematical model to describe the observed phenomenon. This is the first computational work to model polyol's production and to address the simultaneous formation of four products by Yarrowia lipolytica. Particle Swarm Optimization and Interior Point Optimization were employed together to find the global optima. The developed model proved to be significantly promising and capable of satisfactorily predict the system's behavior in more than one experimental condition. Not only products’ concurrent formation was accurately described, but also polyols’ modeling was successfully performed, reaching R² values greater than 0.93.

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多元醇、柠檬酸和生物油同时由甘油脂耶氏菌生产的现象学模型

生物化学路线已被证明是甘油再利用的一种有趣的替代方案，甘油主要作为生物柴油生产反应中的副产物产生。该研究小组先前的工作表明，甘油可以被解脂亚罗菌有效同化，产生赤藓糖醇、甘露醇、柠檬酸和生物油。为了更好地理解所涉及的代谢途径，这项工作提出了一个数学模型来描述观察到的现象。这是第一项对多元醇生产进行建模的计算工作，并解决了解脂亚罗菌同时形成四种产物的问题。将粒子群优化和内点优化相结合，得到全局最优解。所开发的模型被证明是非常有前途的，并且能够在多个实验条件下令人满意地预测系统的行为。不仅准确地描述了产品的同时形成，而且成功地进行了多元醇的建模，达到了大于0.93的R²值。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Cleaner Chemical Engineering

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