Summary
Currently, Dairy Wastewater (DW) is seen as a major global problem, difficult and expensive to treat and potentially very harmful to the environment as it contains high amounts of organic and inorganic content. The current treatment methods (physicochemical and conventional) are energy-intensive and don’t sufficiently remove the nutrients. But, with the high amount that is produced worldwide: 0.2‒10 L wastewater/ L of milk processed; this is potentially a valuable resource that, if utilized appropriately, can provide high-value green chemicals and biofuel. Therefore, a new cost-effective method for the treatment of DW along with the generation of valuable biomass needs to be developed.
In this context, AlgalBB proposes the concept of biorefinery for the substantive treatment of DW via microalgae, coupled with biodiesel and bio-succinic acid (SA) production. These objectives will be pursued through 1) The designing of a microalgae consortia that can remediate DW to achieve a zero-waste process and generate lipid/carbohydrate-rich algal biomass; 2) The green synthesis of magnetic nanocatalyst for developing a low-cost, efficient method for in-situ transesterification for wet algal biomass to produce biodiesel; 3) Development of multienzyme magnetic nanocatalyst for efficient enzymatic hydrolysis to recover fermentable sugars from algal biomass; 4) Immobilization of fermentative bacteria for fermentation of sugars into SA. The interdisciplinary AlgalBB will apply cutting edge biology tools to complete the aforesaid objectives. AlgalBB adopts a circular economy approach that directly addresses clean water, clean energy; actions established by the EU Horizon Work Programme and will support the competitiveness of European biorefineries. The acquisition of transferable skills through AlgalBB will increase my employability in industry and especially in academia, allowing me to establish myself as an independent researcher and reach a professor position within 5-10 years.
In this context, AlgalBB proposes the concept of biorefinery for the substantive treatment of DW via microalgae, coupled with biodiesel and bio-succinic acid (SA) production. These objectives will be pursued through 1) The designing of a microalgae consortia that can remediate DW to achieve a zero-waste process and generate lipid/carbohydrate-rich algal biomass; 2) The green synthesis of magnetic nanocatalyst for developing a low-cost, efficient method for in-situ transesterification for wet algal biomass to produce biodiesel; 3) Development of multienzyme magnetic nanocatalyst for efficient enzymatic hydrolysis to recover fermentable sugars from algal biomass; 4) Immobilization of fermentative bacteria for fermentation of sugars into SA. The interdisciplinary AlgalBB will apply cutting edge biology tools to complete the aforesaid objectives. AlgalBB adopts a circular economy approach that directly addresses clean water, clean energy; actions established by the EU Horizon Work Programme and will support the competitiveness of European biorefineries. The acquisition of transferable skills through AlgalBB will increase my employability in industry and especially in academia, allowing me to establish myself as an independent researcher and reach a professor position within 5-10 years.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101064183 |
| Start date: | 22-05-2023 |
| End date: | 21-05-2025 |
| Total budget - Public funding: | - 226 751,00 Euro |
Cordis data
Original description
Currently, Dairy Wastewater (DW) is seen as a major global problem, difficult and expensive to treat and potentially very harmful to the environment as it contains high amounts of organic and inorganic content. The current treatment methods (physicochemical and conventional) are energy-intensive and don’t sufficiently remove the nutrients. But, with the high amount that is produced worldwide: 0.2‒10 L wastewater/ L of milk processed; this is potentially a valuable resource that, if utilized appropriately, can provide high-value green chemicals and biofuel. Therefore, a new cost-effective method for the treatment of DW along with the generation of valuable biomass needs to be developed.In this context, AlgalBB proposes the concept of biorefinery for the substantive treatment of DW via microalgae, coupled with biodiesel and bio-succinic acid (SA) production. These objectives will be pursued through 1) The designing of a microalgae consortia that can remediate DW to achieve a zero-waste process and generate lipid/carbohydrate-rich algal biomass; 2) The green synthesis of magnetic nanocatalyst for developing a low-cost, efficient method for in-situ transesterification for wet algal biomass to produce biodiesel; 3) Development of multienzyme magnetic nanocatalyst for efficient enzymatic hydrolysis to recover fermentable sugars from algal biomass; 4) Immobilization of fermentative bacteria for fermentation of sugars into SA. The interdisciplinary AlgalBB will apply cutting edge biology tools to complete the aforesaid objectives. AlgalBB adopts a circular economy approach that directly addresses clean water, clean energy; actions established by the EU Horizon Work Programme and will support the competitiveness of European biorefineries. The acquisition of transferable skills through AlgalBB will increase my employability in industry and especially in academia, allowing me to establish myself as an independent researcher and reach a professor position within 5-10 years.
Status
SIGNEDCall topic
HORIZON-MSCA-2021-PF-01-01Update Date
09-02-2023
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