Currently, digestate streams are considered as waste and the nutrient recovery is mostly by chemical means to be used as fertilisers. Without a doubt, the chemical technologies are playing a significant role in expanding the product spectrum of biogas plants and may win the battle to treat the digestate to meet the environment regulations. However, chemical technologies are not an option for all types of streams and if the sludge produced cannot be used as a fertliliser or for other applications, the biogas plant will have to face sludge disposal costs. ALGALVANISE has demonstrated that it is possible to grow microalgae in complex waste streams such as MSW digestate and can obtain a product of high value. This will have both high environment and economic impact on the biogas plants. Biogas plants are mostly rurally operated on a variety of waste streams and this integrated biorefinery will allow creation of new jobs. This process will also allow circularity, where the liquid waste streams originating from the farms can be pumped to central microalgae cultivation facility that will in return produce feed to the local poultry or fishery. The efficient harvesting system developed in this project by using a bioflocculant will allow the operations to run without the need of highly qualified engineers. These farms will also add additional knowledge and skillset to the local community, as happened with the biogas industry.
Through the dissemination and communication activities of the project, the benefits of microalgal systems integrated with biogas plants, food and beverage producers are presented and advocated. This has brought interest and new project collaborations for Celignis. At Celignis, we hope the network of microalgae technology developers and industries producing liquid waste streams will lead to a new wave of circular technologies that will make the industries highly sustainable and environment friendly.