Microalgae represent one of the most potential sustainable alternatives for producing energy and environmentally benign products. However, costs of production are still limitative for many applications and photobioreactors play important roles in these processes. The aim of this thesis is to develop a suitable model for large-scale cultivation for finding the best condition of light and temperature to optimize the productivity in a microalgal artificially illuminate system. For this purpose, several experiments with the microalga Acutodesmus obliquus 276-7 were conducted in a small-scale photobioreactor of 45 ml.

Microalgae represent one of the most potential sustainable alternatives for producing energy and environmentally benign products. However, costs of production are still limitative for many applications and photobioreactors play important roles in these processes. The aim of this thesis is to develop a suitable model for large-scale cultivation for finding the best condition of light and temperature to optimize the productivity in a microalgal artificially illuminate system. For this purpose, several experiments with the microalga Acutodesmus obliquus 276-7 were conducted in a small-scale photobioreactor of 45 ml.

Experimental investigation of the combined effect of light and temperature on microalgae growth in milli-photobioreactors

LOTTI, ANGELA
2022/2023

Abstract

Microalgae represent one of the most potential sustainable alternatives for producing energy and environmentally benign products. However, costs of production are still limitative for many applications and photobioreactors play important roles in these processes. The aim of this thesis is to develop a suitable model for large-scale cultivation for finding the best condition of light and temperature to optimize the productivity in a microalgal artificially illuminate system. For this purpose, several experiments with the microalga Acutodesmus obliquus 276-7 were conducted in a small-scale photobioreactor of 45 ml.
2022
Experimental investigation of the combined effect of light and temperature on microalgae growth in milli-photobioreactors
Microalgae represent one of the most potential sustainable alternatives for producing energy and environmentally benign products. However, costs of production are still limitative for many applications and photobioreactors play important roles in these processes. The aim of this thesis is to develop a suitable model for large-scale cultivation for finding the best condition of light and temperature to optimize the productivity in a microalgal artificially illuminate system. For this purpose, several experiments with the microalga Acutodesmus obliquus 276-7 were conducted in a small-scale photobioreactor of 45 ml.
Microalgae
Acutodesmus obliquus
Light
Temperature
Growth optimization
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.12608/50941