A Comparative Study of Improvement of Phycoremediation Using a Consortium of Microalgae in Municipal Wastewater Treatment Pond Systems as an Alternative Solution to Africa’s Sanitation Challenges

• Main Authors: Paul J. Oberholster, Maronel Steyn, Anna-Maria Botha
• Format: Article
• Language: English
• Published: MDPI AG 2021-09-01
• Series: Processes
• Subjects: consortia of microalgae; sustainable development goals; phycoremediation; pond treatment systems; domestic wastewater; Africa
• Online Access: https://www.mdpi.com/2227-9717/9/9/1677

The reuse of wastewater has been observed as a viable option to cope with increasing water stress in Africa. The present case studies evaluated the optimization of the process of phycoremediation as an alternative low-cost green treatment technology in two municipality wastewater treatment pond systems that make up the largest number of domestic sewage treatment systems on the African continent. A consortium of specific microalgae (<i>Chlorella vulgaris</i> and <i>Chlorella protothecoides</i>) was used to improve the treatment capacity of domestic wastewater at two operational municipality wastewater pond systems under different environmental conditions in South Africa. Pre- and post-phycoremediation optimization through mass inoculation of a consortium of microalgae, over a period of one year under different environmental conditions, were compared. It was evident that the higher reduction of total phosphates (74.4%) in the effluent, after treatment with a consortium of microalgae at the Motetema pond system, was possibly related to (1) the dominance of the algal taxa <i>C. protothecoides</i> (52%), and to a lesser extent <i>C. vulgaris</i> (36%), (2) more cloudless days, (3) higher air temperature, and (4) a higher domestic wastewater strength. In the case of the Brandwag pond treatment system, the higher reduction of total nitrogen can possibly be related to the dominance of <i>C. vulgaris</i>, different weather conditions, and lower domestic wastewater strength. The nutrient reduction data from the current study clearly presented compelling evidence in terms of the feasibility for use of this technology in developing countries to reduce nutrient loads from domestic wastewater effluent.