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Novel algae-based solution for CO2 capture and biomass
production
ALGADISK projectALGADISK projectALGADISK projectALGADISK project
5 June 2013
Jorge de SajaCESFAC
11
The Algae EventThe event is part of the 2Ist European biomass Conference & Exhibition
Current algae based Current algae based Current algae based Current algae based Current algae based Current algae based Current algae based Current algae based
methods for COmethods for COmethods for COmethods for COmethods for COmethods for COmethods for COmethods for CO22222222methods for COmethods for COmethods for COmethods for COmethods for COmethods for COmethods for COmethods for CO22222222capturecapturecapturecapturecapturecapturecapturecapture
22
Current algae based methods for CO2 capture
Commercial algae technologies use planktonic algaein aquatic solution in bioreactors.
MainMain drawbacksdrawbacks::
• High water requirements
• CO2 is bubbling through the liquid phase (largepressure drop, low efficiency)pressure drop, low efficiency)
• Wall growth
• Sterilization problem
• Preparation of algae is unsolved
• Harvesting is difficult, time consuming andinefficient
• Scale-up problems
• Large footprint
SMESME sectorsector cancan bebe targetedtargeted withwith modular,modular, scalablescalablereactorreactor systemsystem
InnovativeInnovative biofilmbiofilm reactorreactor designdesign
• Algae can grown on various biocompatible surface
• CO2 is captured either from the gas phase directlyor from the liquid phase
ALGADISK project
or from the liquid phase
• Increase in CO2 capture efficiency
• Less water required
• Automatic and continuous harvesting
• Easy to scale up
• Small footprint
• Organic products with sufficiently high yield
• Spain:
• Hungary:
• United Kingdom: • Belgium:
Consortium
• United Kingdom:
• Austria:
• The Netherlands:
• Belgium:
• Turkey:
• Slovenia:
SME associations (3):
• CESFAC: Spanish Confederation of Compound
Feed Producers (350 SME members)
• EUBIA: European Biomass Industry Association
(30 members)
Consortium
• FUNDACION CESFAC: industrial grouping of 65
SME members in the food supplementary market
SMEs (5): OTEC, BFC, ALGEN, UTECH, CAG
RTDs (4): MFKK, CRAN, WU, BAYBIO
•• COCO22 emittingemitting industryindustry benefit’s because of CO2 capture and decrease ofemission, in the case of small scale bio source based plant (such as biogasplant), almost zero emission can be reached with the proposed system,where emitted CO2 would be transformed into valuable organic productsusing algae.
•• EnergyEnergy sectorsector serviceservice companiescompanies would benefit in distributing the systemas well as its installation and maintenance.
BiomassBiomass producersproducers would work up raw algae materials and transform it
Benefit for project partners
•• BiomassBiomass producersproducers would work up raw algae materials and transform itinto valuable marketed alga based products, such as biodiesel, oil,cosmetics and so on.
•• CompaniesCompanies supplyingsupplying reactorreactor partsparts (bio-textile, motors, sensors,controllers) would benefit with improving their business.
•• CompaniesCompanies specializedspecialized inin COCO22 tradingtrading andand environmentalenvironmental consultingconsulting.
Short overview of the Short overview of the Short overview of the Short overview of the Short overview of the Short overview of the Short overview of the Short overview of the
Research Research Research Research Research Research Research Research for for for for for for for for the benefit the benefit the benefit the benefit the benefit the benefit the benefit the benefit of of of of of of of of
SME associations SME associations SME associations SME associations SME associations SME associations SME associations SME associations
framework programframework programframework programframework programframework programframework programframework programframework program
88
FP7: 4+2 big blocks
1. Research Infrastructures
2. Research for and by SMEs
3. Regions of Knowledge
4. Research Potential
5. Coherent development of research policies
Capacities – Research Capacity
5. Coherent development of research policies
6. Specific activities of International Cooperation
7. Science in Society
• Supporting small groups of innovative SMEs in solving common or
complementary technological problems.
• Providing financial support to SME AGs and SMEs to outsource
research and technological development, with the view of acquiring
intellectual property rights, preferably ownershipownership of the project
results.
Overall objective of Research for SMEs
results.
• The role of SME AGs: specification, validation, disseminating the
knowledge .
• The real investment or cost incurred by SME AGs and SMEs includes a
price they pay for the intellectual property rights and knowledge they
wish to acquire.
Types of partners: distinction between SMEs / SMEs’ Associations / Other End
Users and RTDs.
RTD Performer
Research for and by SMEs
Customers!!! and future owners Advisors only!!!
SMEs End Users
Technological SMEsOther End Users
• The SME participants are the direct beneficiaries of the project.The coordinator is also expected to be an SME but, usually arenot, because of lack of resources and experience.
• They receive in return the technological know-how andintellectual property rights they need to develop new or improveexisting products, systems, processes or services.
Essential points of the Scheme
existing products, systems, processes or services.
• Intellectual property rights is the main benefit for SMEs.
OOOOOOOOverview of the verview of the verview of the verview of the verview of the verview of the verview of the verview of the
ALGADISK projectALGADISK projectALGADISK projectALGADISK projectALGADISK projectALGADISK projectALGADISK projectALGADISK projectALGADISK projectALGADISK projectALGADISK projectALGADISK projectALGADISK projectALGADISK projectALGADISK projectALGADISK project
1414
• Development of a MODULAR, SCALABLE, AUTOMATIC BIOFILM reactor for algae biomass production
• Low operational and installation costs
• CO2 capture from industrial emissions
• High value organic compounds from algae
• Algae growth both in aqueous environment and on
Aim of the project
• Algae growth both in aqueous environment and on biocompatible surfaces
• Automated harvesting system
• Surface coating
• Calculating energy balance for different alga species
• Software-based algae production and optimization design tool
Concept of ALGADISK
• 13 partners
• 10 work packages
• Duration: 36 months (01 January 2012 - 31 December 2014)
Project summary
1717
• Quarterly technical meetings, semi-annual general meetings
• Go/no-go decision in 15th month
• Flexible features (open/closed, with/without artificial
lighting)
• Producing 100 kg of dry algae biomass with reactor cost
under 10 k€
• Energetically efficient: integration of renewable energy
Reactor
• Energetically efficient: integration of renewable energy
sources
• Installation within one week
• Market needs and system specification
– Survey and in-depth interviews
• Isolation and selection of algae species
– High temperature tolerance
– High lipid content
• Surface attachment studies with different algae species
Fulfilled tasks
• Surface attachment studies with different algae species
• Surface growth experiments: surface prepared by CRAN
• Laboratorial trials: biofilm growth of selected algae species by BAYBIO
• Sustainability calculation
• Construction of laboratory scale reactor
• Development of the sensor and control system
• Concept of the automatic harvesting system
• Laboratorial trials: optimization of growth conditions for the
selected algae species (optimal temperature, CO2
concentration and pH)
• Molecular identification of the isolated strains
• Testing the stability of surfaces and surface attachment of
algae under different temperatures and CO concentrations
Further work
algae under different temperatures and CO2 concentrations
• Prototype design and construction
• Field tests
• Prediction software development
Thank you for your attention!Thank you for your attention!Thank you for your attention!Thank you for your attention!
www.algadisk.euwww.algadisk.eu
algadisk@cesfac.esJorge de Saja
2121
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