Improving pH control and carbon dioxide utilisation efficiency in microalgae cultivation systems with the use of a Proportional-integral + dead-zone control strategy

O.E. Isiramen; P.A. Bahri; N.R. Moheimani; A. Vadiveloo; H. Shayesteh; D.A. Parlevliet

doi:10.1016/j.biteb.2021.100917

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Improving pH control and carbon dioxide utilisation efficiency in microalgae cultivation systems with the use of a Proportional-integral + dead-zone control strategy

Journal article

Peer reviewed

Improving pH control and carbon dioxide utilisation efficiency in microalgae cultivation systems with the use of a Proportional-integral + dead-zone control strategy

O.E. Isiramen, P.A. Bahri, N.R. Moheimani, A. Vadiveloo, H. Shayesteh and D.A. Parlevliet

Bioresource Technology Reports, Vol.17, Art. 100917

2022

DOI: https://doi.org/10.1016/j.biteb.2021.100917

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Abstract

This study investigated the use of an innovative Proportional Integral (PI) + dead-zone control strategy to improve pH control and to overcome the negative environmental impact associated with the currently employed on/off pH control schemes for microalgae cultivation. Scenedesmus sp. grown in anaerobically digested abattoir effluent (ADAE) was used in this study to evaluate the effectiveness of the alternative/advanced control strategy with respect to the on/off control strategy. Results obtained showed that the PI+dead-zone control strategy significantly improved the regulation of the pH level in the pond as evident by noteworthy reductions of key controller performance indicators with respect to the on/off control strategy. Additionally, the advanced control scheme was able to reduce the CO2 usage by a remarkable 59.21% (highest recorded in related literature), resulting in a reduction in CO2 associated costs (approximately 60%) and most importantly, reduction in the amount of greenhouse gas lost to the atmosphere.

Details

Title: Improving pH control and carbon dioxide utilisation efficiency in microalgae cultivation systems with the use of a Proportional-integral + dead-zone control strategy
Authors/Creators: O.E. Isiramen (Author/Creator)
P.A. Bahri (Author/Creator)
N.R. Moheimani (Author/Creator)
A. Vadiveloo (Author/Creator)
H. Shayesteh (Author/Creator)
D.A. Parlevliet (Author/Creator)
Publication Details: Bioresource Technology Reports, Vol.17, Art. 100917
Publisher: Elsevier Ltd.
Identifiers: 991005543424207891
Murdoch Affiliation: School of Engineering and Energy; Harry Butler Institute; School of Environmental and Conservation Sciences; Centre for Water, Energy and Waste; Algae R&D Centre
Language: English
Resource Type: Journal article

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