Please use this identifier to cite or link to this item: https://hdl.handle.net/10321/5166
Title: 39th Johannesburg International Conference on “Chemical, Biological and Environmental Engineering” (JCBEE-23) Nov. 16-17, 2023 Johannesburg (South Africa)
Authors: Chetty, Manimagalay 
Rathilal, Sudesh 
Tetteh, Emmanuel 
Singh, Nikita 
Keywords: Algae;Biofuels;Sustainability;Wastewater
Issue Date: 16-Nov-2023
Publisher: International Institute of Chemical, Biological & Environmental Engineering (IICBEE)
Source: Chetty, M. et al. 2023. 39th Johannesburg International Conference on “Chemical, Biological and Environmental Engineering” (JCBEE-23) Nov. 16-17, 2023 Johannesburg (South Africa). Presented at: Nov. 16-17, 2023 Johannesburg (South Africa). doi:10.17758/iicbe5
Conference: Johannesburg International Conference on “Chemical, Biological and Environmental Engineering, Nov. 16-17, 2023 Johannesburg (South Africa) 
Abstract: 
Abstract—Recent energy demand and environmental concerns associated with fossil fuels makes
algae biomass a desirable energy source. Algal biomass has a high organic content and a variety of
metabolic properties that make it a promising resource for managing wastewater and sequestering
CO₂, in addition to producing profitable biobased products. However, the operation and valorization
of algae biomass on a large scale are accompanied by significant costs and setbacks. Therefore, the
transition towards a biobased economy requires this study to examine emerging technologies that
could utilize algae biomass as an industrialized feedstock from the wastewater settings. A
comprehensive analysis of various green technologies of producing high-value products (lipids and
hydrocarbons) from algae biomass was reviewed. The fundamental principles that limit the
cultivation , extraction, and conversion of different types of algae biomasses for
commercialization are discussed. Furthermore, the challenges, future research directions and
potential opportunities of valorizing algae biomass was highlighted. It was noted that, exploring
algae biomass towards sustainable waste management with resources recovery is viable for
industrialization.
URI: https://hdl.handle.net/10321/5166
ISBN: 9789899121324
DOI: 10.17758/iicbe5
Appears in Collections:Research Publications (Engineering and Built Environment)

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