Σχετικά έργα

BiomassRCM

Demonstration of a mobile unit hybrid energy storage based on CO₂ and renewable energy sources

Develop and demonstrate an innovative, integrated, and sustainable industrial process for simultaneous energy storage and CO2 capture and utilization (CCU)

LIFE CO₂toCH₄

LIFE CO2toCH4 aims to construct, test and operate (TRL8) a smart mobile unit for hybrid energy storage able to be installed in remote energy systems that commonly have low capacity (e.g., remote areas or islands that are not interconnected with the central energy grid).

Demonstrate an ex-situ freestanding process able to treat exhaust gases

Maximize the efficiency of methanation by developing technically advanced systems and control architectures based on microbial resource management

Promote public awareness on climate change mitigation, circular economy concepts and reduction of CO2 emissions

BioReCer

BioReCer (Biological Resources Certifications Schemes) aims at assessing and complementing current certification schemes for biological resources according to the new EU sustainability goals to enhance bio-based circular systems.

Establishment of new bio-based value chains promoting the use of biological feedstocks as secondary raw materials to replace fossil-based resources.

Increase industry and consumer acceptance of bio-based value chains, including residual feedstock and waste.

Support the transition of linear value chains to a circular bio-based economy that delivers substantial environmental and economic benefits.

Biological Resources Certifications Schemes

Promotes the sustainability and trade of biological resources and increases the added value, use, and social acceptance of bio-based products.

Capture and Reuse Of biogenic gases for Negative-emission – sustainable biofUelS

CRONUS addresses the current gaps in biofuels production, namely the carbon waste and biogenic effluent gases

CRONUS

The overall objective of CRONUS is to develop, assess and test 5 new integrated and sustainable technological solutions for highly efficient biogenic effluent gases CUS within the biofuels value chain.

Capture and Utilisation of CO2 from a biofuels biorefinery that include biomass combustion, ethanolic fermentation and anaerobic digestion via autotrophic algae growth

Biological CO2 hydrogenation for biomethane production

Syngas Biomethanation

Biogenic carbon storage through biochar production

Anaerobic digestion system coupled with a microbial electrolysis cell (MEC)

Το έργο με τίτλο «Πληροφοριακό σύστημα εκτίμησης και αξιολόγησης διαθέσιμης βιομάζας και οργανικών αποβλήτων για παραγωγή πράσινων προϊόντων στην ΠΚΜ» (Κωδικός έργου: ΚΜΡ6-0254407) υλοποιείται στο πλαίσιο της Δράσης «Επενδυτικά Σχέδια Καινοτομίας» και συγχρηματοδοτήθηκε από την Ευρωπαϊκή Ένωση (ΕΕ) και Εθνικούς πόρους μέσω του Προγράμματος «Κεντρική Μακεδονία» ΕΣΠΑ, 2021-2027.

Συντονιστής

Παπαγεωργίου Αλέξανδρος

info@biosolids.gr
2310 538799

Επιστημονικά Υπεύθυνος

Δρ. Γεώργιος Μπανιάς

g.banias@certh.gr
2311 257650