CARBALAProject reference: 295176
Funded under :
CARbon BALAncing for nutrient control in wastewater treatment
Total cost:EUR 583 600
EU contribution:EUR 583 600
Call for proposal:FP7-PEOPLE-2011-IRSESSee other projects for this call
Funding scheme:MC-IRSES - International research staff exchange scheme (IRSES)
The objective of this project is to enable transfer of knowledge in the field of wastewater treatment through an exchange programme among eight research groups; early and senior researchers will participate and work on newprocess configurations for wastewater treatment. Innovative unit processes will be studied at bench and pilot scale and combined into wastewater treatment systems optimized with respect to wastewater characteristics and environmental conditions.
The partners’ expertise is complementary with regards to:
- the unit processes that will be included in the proposed configurations (anammox and denitrifying phosphorus accumulating bacteria, attached growth bio-systems, phosphorus recovery, anaerobic digestion and co-digestion, fermentation, sulphur cycle-related biotechnology);
- the ability of representing the studied phenomena (activated sludge modelling, ecological and carbon footprint assessment);
- the context of reference (environmental and economical situation; domestic or industrial wastewater);
- facilities (analytical instruments, laboratories, pilot scale plants);
- scientific and technical background (microbiology, chemistry and engineering).
The project will deal with the need, typical “state of the art” wastewater treatment for biodegradable carbon, both for heterotrophic denitrification and biological phosphorous removal, which is often not sufficiently present in the wastewater itself. External carbon sources are not only expensive but their application increases both the production of excess sludge and the energy and carbon footprint of the treatment, eventually reducing the potential production of biogas.
New process configurations will be based on the idea of balancing the use of organic compounds in order to maximize the role of anaerobic processes while, at the same time, operating biological nitrogen and phosphorus removal; this will facilitate the decrease of the carbon footprint, while maintaining the desirable effluent quality.
EU contribution: EUR 189 000
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EU contribution: EUR 176 400
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EU contribution: EUR 218 200
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