Metabolic fluxes-oriented control of bioreactors: a novel approach to tune micro-aeration and substrate feeding in fermentations

Mesquita, Thiago José Barbosa; Sargo, Cíntia Regina; Fuzer, José Roberto; Paredes, Sheyla Alexandra Hidalgo; Giordano, Roberto de Campos; Horta, Antonio Carlos Luperni; Zangirolami, Teresa Cristina

doi:10.1186/s12934-019-1198-6

Cited by 15 publications

(24 citation statements)

References 56 publications

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“…The system acquisition time was 0.2 s, with saving to hard disk every 10 s. For all the variables with online acquisition, an exponential filter associated with a median filter was added to smooth the readings and reduce noise from the sensors. Adapted from Mesquita et al (2019) [Color figure can be viewed at wileyonlinelibrary.com]…”

Section: Methodsmentioning

confidence: 99%

“…GSMs generate a complete profile of the cellular metabolic network at the steady‐state, from which the optimal environmental conditions are elucidated for both maximizing the synthesis of a product (Agren et al, 2013; Bideaux et al, 2016) and minimizing the production of unwanted metabolites (Bro et al, 2006; Gudmundsson & Nogales, 2015). This information can be efficiently transformed into appropriate process control strategies (Garcia‐Albornoz & Nielsen, 2013; Mesquita et al, 2019). However, the application of stoichiometric GSMs to transient processes must be performed with caution, implicitly assuming a pseudo‐steady state.…”

Section: Introductionmentioning

confidence: 99%

“…Another method consists of using surrogate or meta‐models, which are simpler but preserve the same basic responses of a full model (Papadopoulou et al, 2010). These models range from a simple mathematical correlation (Mesquita et al, 2019) to ones generated by more advanced deep learning techniques, such as artificial neural networks (ANNs) (Ibrahim et al, 2019; Mesquita et al, 2020).…”

Section: Introductionmentioning

confidence: 99%

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Machine learning applied for metabolic flux‐based control of micro‐aerated fermentations in bioreactors

Mesquita

Campani

Giordano

et al. 2021

Biotech & Bioengineering

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Various bio‐based processes depend on controlled micro‐aerobic conditions to achieve a satisfactory product yield. However, the limiting oxygen concentration varies according to the micro‐organism employed, while for industrial applications, there is no cost‐effective way of measuring it at low levels. This study proposes a machine learning procedure within a metabolic flux‐based control strategy (SUPERSYS_MCU) to address this issue. The control strategy used simulations of a genome‐scale metabolic model to generate a surrogate model in the form of an artificial neural network, to be used in a micro‐aerobic fermentation strategy (MF‐ANN). The meta‐model provided setpoints to the controller, allowing adjustment of the inlet air flow to control the oxygen uptake rate. The strategy was evaluated in micro‐aerobic batch cultures employing industrial Saccharomyces cerevisiae yeast, with defined medium and glucose as the carbon source, as a case study. The performance of the proposed control scheme was compared with a conventional fermentation and with three previously reported micro‐aeration strategies, including respiratory quotient‐based control and constant air flow rate. Due to maintenance of the oxidative balance at the anaerobiosis threshold, the MF‐ANN provided volumetric ethanol productivity of 4.16 g·L−1·h−1 and a yield of 0.48 gethanol.gsubstrate−1, which were higher than the values achieved for the other conditions studied (maximum of 3.4 g·L−1·h−1 and 0.35–0.40 gethanol·gsubstrate−1, respectively). Due to its modular character, the MF‐ANN strategy could be adapted to other micro‐aerated bioprocesses.

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Machine learning applied for metabolic flux‐based control of micro‐aerated fermentations in bioreactors

Mesquita

Campani

Giordano

et al. 2021

Biotech & Bioengineering

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“…Recently developed manufacturing bioreactors, which are fully closed, controllable, and have scalable culture systems, have been used to monitor and control the metabolic state in real time including, dissolved oxygen, glucose, ammonia, pH, and lactate[ 143 - 145 ]. As the collection of large cell quantities takes a long time using manual methods, a reduction in collection times using automated equipment, increases the efficacy and consistency of the quality control.…”

Section: Concernsmentioning

confidence: 99%

Prospects for the therapeutic development of umbilical cord blood-derived mesenchymal stem cells

Um¹,

Ha²,

Choi³

et al. 2020

WJSC

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“…Based on our previous research [18], under the optimized process conditions of 33.6 ℃ for the temperature, 3.1 m 3 /min for the aeration rate and 83 rpm for the stirring velocity, a high production efficiency of H2SO4 at pH 1.0 (≈850 L/h) was obtained [21]. The sulfuric acid produced by the membrane bioreactor was used for metal leaching experiments in electroplating sludge.…”

Section: Optimum Pulp Density For Metal Leaching Of Electroplating Slmentioning

confidence: 99%

Application of Acidophilic Microorganism in the Metal Enrichment of Electroplating Sludge Use the Membrane Bioreactor

Yang¹,

Chu²,

Qian³

et al. 2020

Preprint

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Background: Bioleaching is an important technology for treating electroplating sludge. Previous researches have focus on improving the leaching rate of metals in electroplating sludge by bioleaching. However, the concentration of heavy metals in the leachate after single leaching was lower, which is quite unfavorable for subsequent metal recovery. Additionally, membrane bioreactors (MBRs) have been widely used in the field of sewage treatment. Research on the application of bioleaching technology combined with MBRs to enrich metals in electroplating sludge has not been reported. Therefore, in this study, we first combined bioleaching technology and MBRs for metal enrichment in electroplating sludge to obtain the key technology of "acid production - electroplating sludge leaching - leachate regeneration -repeated electroplating sludge leaching - achievement of valuable metal enrichment".Results: In this research, through scaling up from the laboratory scale (shake flasks) to a factory-scale application (10 m³ membrane bioreactors), we mastered the key technology of acid production by acidophilic microorganism, and the acid solution can be repeatedly used for metal leaching. The results showed that the MBR maintained high-density cell growth (≈2.1×109/mL) and a stable sulfuric acid production rate (850 L/h) throughout the entire operational period. Under the above conditions, the maximum cycle number (10 times) for enrichment of the target metals in the electroplating sludge was obtained. Additionally, after the end of the cycle enrichment process, the concentrations of the target metals Ni+, Cu2+, and Zn2+ were 13.867 g/L, 18.118 g/L and 21.075 g/L, respectively, which were highly enriched.Conclusions: This study first solved the difficulties in the industrialization of bioleaching electroplating sludge through combining bioleaching technology and MBRs. Furthermore, this research can provide a demonstration project for the industrial application of MBR-bioleaching technology in electroplating sludge, with a view to applying this technology to the disposal of more types of hazardous waste.

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Metabolic fluxes-oriented control of bioreactors: a novel approach to tune micro-aeration and substrate feeding in fermentations

Cited by 15 publications

References 56 publications

Machine learning applied for metabolic flux‐based control of micro‐aerated fermentations in bioreactors

Machine learning applied for metabolic flux‐based control of micro‐aerated fermentations in bioreactors

Prospects for the therapeutic development of umbilical cord blood-derived mesenchymal stem cells

Application of Acidophilic Microorganism in the Metal Enrichment of Electroplating Sludge Use the Membrane Bioreactor

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