Abstract
Microalgae biofuel is expected to be an ideal alternative to fossil fuels to mitigate the effects of climate change and the energy crisis. However, the production process of microalgae biofuel is sometimes considered to be energy intensive and uneconomical, which limits its large-scale production. Several cultivation systems are used to acquire feedstock for microalgal biofuels production. The energy consumption of different cultivation systems is different, and the concentration of culture medium (microalgae cells contained in the unit volume of medium) and other properties of microalgae vary with the culture methods, which affects the energy consumption of subsequent processes. This review compared the energy consumption of different cultivation systems, including the open pond system, four types of closed photobioreactor (PBR) systems, and the hybrid cultivation system, and the energy consumption of the subsequent harvesting process. The biomass concentration and areal biomass production of every cultivation system were also analyzed. The results show that the flat-panel PBRs and the column PBRs are both preferred for large-scale biofuel production for high biomass productivity.
Highlights
The physical and chemical properties of microalgae raw bio-feedstock obtained by different cultivation and harvesting methods are different, resulting in different energy consumption in the following processes of the whole life cycle [8]
Since open ponds have the advantages of simple construction and low cost, most microalgae cultivation has been produced in open ponds irradiated by natural light in the past 60 years [29]
The plastic bag PBRs can even be surrounded by seawater for microalgae cultivation
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. The physical and chemical properties of microalgae raw bio-feedstock obtained by different cultivation and harvesting methods are different, resulting in different energy consumption in the following processes of the whole life cycle [8]. Comprehensive studies should be done evaluating different microalgae systems’ energy consumption in cultivation and harvesting processes to select more economical systems for large-scale biofuel production. The microalgae growth parameters that affect the energy consumption such as the biomass concentration and areal biomass production were analyzed In this way, this review paper tried to select the suitable systems in providing abundant bio-feedstock for microalgal biofuels production and provide further information and advice for this industry
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