João M. Lemos scite author profile

Penicillin-G fermentation with industrial media in 1 m3 stirred tank bioreactors was studied. A model based on the Bajpai-Reuss model structure was developed. Under typical production conditions catabolite repression is nonidentifiable and extensive mycelium differentiation occurs. Thus, the original model was reformulated, neglecting glucose repression of penicillin production and including biomass autolysis. The multi-substrate nature of industrial media was critically analysed. By combining the two most important carbon substrates present, a simple and applicable model was obtained. Model predictions agreed well with experimental data and reproduced the general characteristics observed in the fermentations. The predictive power of the model was tested for fermentations with different sugar feed rate profiles and raw materials (corn-steep liquor and sugar syrup). Several aspects of parameter estimation and model development are discussed on the basis of direct experimental data inspection and a sensitivity analysis of model parameters.

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Drug Delivery for Neuromuscular Blockade With Supervised Multimodel Adaptive Control

Mendonça

Lemos

Magalhães

et al. 2009

IEEE Trans. Contr. Syst. Technol.

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Variable sampling adaptive control of a distributed collector solar field

Silva

Lemos

Rato

2003

IEEE Trans. Contr. Syst. Technol.

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Identification of switched ARX models via convex optimization and expectation maximization

Hartmann

Lemos

Costa

et al. 2015

Journal of Process Control

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João M. Lemos

Mathematical modelling of industrial pilot‐plant penicillin‐G fed‐batch fermentations

Drug Delivery for Neuromuscular Blockade With Supervised Multimodel Adaptive Control

Variable sampling adaptive control of a distributed collector solar field

Identification of switched ARX models via convex optimization and expectation maximization

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