Observer-based virtual sensors for microalgae cultures monitoring

Renewable Energy, Biomass & Sustainability Pub Date : 2022-07-06 DOI:10.56845/rebs.v1i1.5

C. Astorga-Zaragoza, Laura Vélez-Landa, Héctor Ricardo Hernández de-León, G. Osorio-Gordillo, José Roberto Bermúdez-Hernández

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Abstract

In this paper, a nonlinear observer design is presented for simultaneous parameter estimation and state variables estimation. The case of study is microalgae cultures for biodiesel generation, where reaction rates, biomass concentration, intracellular quota and nitrogen concentration are critical variables that provide information about the state of the process. However, these variables might be difficult to measure due to the lack of specific instruments, high sensor costs or infeasibility of installation in the process. Therefore, two observer-based virtual sensors are presented in this paper as an analytical alternative to perform estimation of the main important variables or parameters of the process: a nonlinear adaptive observer and a nonlinear high-gain observer. The observers are based on the Droop´s mathematical model that describes the ability of microalgae to store nutrients and the decoupling between substrate uptake and biomass growth. Numerical simulations are made in order to evaluate the performance of the proposed observers.

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基于观察者的微藻培养监测虚拟传感器

本文提出了一种同时估计参数和状态变量的非线性观测器设计。研究的案例是用于生产生物柴油的微藻培养，其中反应速率、生物量浓度、细胞内配额和氮浓度是提供有关该过程状态信息的关键变量。然而，由于缺乏特定的仪器，传感器成本高或在过程中安装不可行，这些变量可能难以测量。因此，本文提出了两种基于观测器的虚拟传感器，作为对过程中主要重要变量或参数进行估计的分析替代方案:非线性自适应观测器和非线性高增益观测器。观察人员基于Droop的数学模型，该模型描述了微藻储存营养物质的能力以及底物吸收与生物量增长之间的脱钩。为了评估所提出的观测器的性能，进行了数值模拟。

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Renewable Energy, Biomass & Sustainability

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