Growth Kinetic Model for Microalgae Cultivation in Open Raceway Ponds: A System Dynamics Tool
2021
Francesco Romagnoli, Anton Rayan Priyasad Perera Weerasuriya Arachchige, Riccardo Paoli, Maksims Feofilovs, Baiba Ieviņa

Microalgae culture has the potential to play an essential role in the application of circular economy principles. Microalgae cultivation allows utilizing industrial side-waste streams while ensuring biomass for a wide range of applications in the industrial sector. Specifically, cultivation in outdoor open raceway ponds are a preferred solution due to low costs, ease of operation and large-scale application. However, the economic viability of the cultivation system largely depends on the amount of biomass produced, the technology implemented and the microalgae species and strains. For this purpose, screening of numerous physical, chemical, and environmental factors affecting microalgae growth must be performed before implementing large-scale microalgae cultivation systems. Furthermore, to obtain the highest biomass yield, the design and operating parameters for open raceway pond cultivation must be investigated in depth. Therefore, this study proposes a kinetic growth model for microalgae cultivation in open raceway ponds based on System Dynamics modelling approach. The proposed model aims at overcoming the major problems of existing growth evaluation tools such as separate assessment of different parameters, high complexity, time consumption and other challenges. The proposed system dynamics model proves to be a simple yet powerful tool for modelling the behaviour of algae biomass in an open raceway pond.


Atslēgas vārdi
Biogas; causal loop diagram; computational fluid dynamics; microalgae; modelling; system dynamics
DOI
10.2478/rtuect-2021-0100
Hipersaite
https://www.sciendo.com/article/10.2478/rtuect-2021-0100

Romagnoli, F., Weerasuriya Arachchige, A., Paoli, R., Feofilovs, M., Ieviņa, B. Growth Kinetic Model for Microalgae Cultivation in Open Raceway Ponds: A System Dynamics Tool. Environmental and Climate Technologies, 2021, Vol. 25, No. 1, 1317.-1336.lpp. ISSN 1691-5208. e-ISSN 2255-8837. Pieejams: doi:10.2478/rtuect-2021-0100

Publikācijas valoda
English (en)
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