Bioeconomy Science Center (BioSC) - biorosinfo.ru meropriyatiy/2012/Bioenergetika-june 5-6... · er...
Transcript of Bioeconomy Science Center (BioSC) - biorosinfo.ru meropriyatiy/2012/Bioenergetika-june 5-6... · er...
Bioeconomy Science Center (BioSC)
Competence, Knowledge and Technology for a Sustainable Bioeconomy
Prof. Dr. Ulrich Schurr – Spokesman of the BioSC Acting Directorate
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Sustainable Bioeconomy – Knowledge about biological systems for innovative
products for grand challenges of society
Food
Bio-based
materials /
chemicals
Bio-
Pharmaceuticals
Bioenergy
Food / Feed Energy Renewables Health
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Bioeconomy Science Center –
Strategies for Europe, intersectorial and global
BECOTEPS
Science – Industry - Society Politics and Policies
in Europe
Lead market initiative
„Bio-based products“
International Cooperation
EU-Latin America EU-India
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High Tech Strategy: Bioeconomy is a cross-cutting task
• Plants
• Biotechnology
• Material technologies
• Energy technologies
• Environmental technologies
Project funding BMBF
-BioIndustry 2021
-BioEnergy 2021
-Plant – KBBE
-ERA-NETs
-Agrar cluster
-Sustainable land use
-…..
Bioeconomy Strategy
Review report
Bioeconomy
Council
National
Research Strategy
Bioeconomy 2030
Coalition agreement
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A future Bioeconomy will be different:
Changed challenges
- Globalisation and global solutions
- Global and climate change
- Global population
- Varied societies
But also other solution approaches
- Capacity and competence of economy
- New and alternative technical systems
- Revolution of knowledge by science,
education and upbringing
- Changed political and societal systems
Contributions to Grand Challenges
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Bio-based products
Stewardship to natural
ressources
Biomass production
Biomass processing
Sustainable use of
natural ressources (water, nutrients, energy)
Zero and low
waste
technology
Lead markets for
economic
sustainability
Low impact
production and
products (biodiversity,
agrochemicals, recycling)
Sustainable Bioeconomy
Closing the loop
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Challenges for a future Bioeconomy
Sustainable and efficient
production of raw
materials
Ressource-efficient
processing of raw
materials to bio-based
products
Innovative and
competitive products
Bio
logic
al and A
gri
-Scie
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Engin
eering
Econom
ics a
nd S
ocia
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Aims Interdisciplinary
Science Economy and
Politics
New Structures of
cooperation
New technologies
New markets
(Lead markets)
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Bioeconomy Science Center - from bundling to focusing of excellent competencies
• technology platforms
• integration of knowledge and technologies
• strategy-oriented research
• modern agricultural sciences
• food – plant production – renewable resources
• excellent natural sciences
• basic science as basis for application
• engineering meets natural sciences
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54 Core Groups
> 1200 staff members
joint technology platforms
~30 Mio. € third party funding
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• Improvement of quality and quantity of biomass
• Improvement of resource use efficiency
• Bio-geo-chemical material cycles and efficient aquisition of nutrients from
soils
• Vulnerability and resistence as well as adaptation possibilities of
agricultural cropping systems against environmental changes
• Integrative approaches for the evaluation of land use changes
Sustainable Plant Bioproduction and Resource
Stewardship
17 Core Groups
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Hydrological and biogeochemical processes in terrestrial systems as a basis
for sustainable bioeconomy
Environmental processes and technologies
Modelling terrestrial systems:
Terrestrial Biogeochemistry:
Research Tools and technology competences
Observed data
Receiv
er
depth
[m
]
Time [ns]
80 90 100 110 120 130 140 150 160
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Optimising Plant Production • Yield and quality • Stress resistance • Efficiency of nutrient, water and light use
Innovative bio-based products
• Cell walls and cell wall products • High value products • Molecular farming • Biosenorics Research tools and competence • Innovative breeding tools • Bioinformatics • Non-invasive phenotyping and image
analysis • Integrated production systems
Sustainable Production of Plants for food/ feed, materials and energy
Molecule
Plant
Stand
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Design and application of
robotics and informatics
• Automation and Integration
• Quantitative Image Analysis
specialized plant growth facilities
• UV-transparent greenhouse
• Fully automated growth chambers
• Field positioning systems
databases, computing and
experimental planning tools
• Plant Information System
• Environment Data Base
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• Methods for the production of bulk and fine chemicals, pharmalogical
products, and protiens form renewable resources.
• Whole cell processes, isolated enzymes and chemical catalysts for
effective and efficient transformation of substrates
• Integrative production systemes
• New products for the chemical and pharmaceutical industry
Microbial and Molecular Transformation
10 Core Groups
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Bio-based produktion of chemicals, pharmaceuticals and proteins
with microorganisms and enzymes
Microbial cell factories
• Metabolism, regulation, signal transduction
• Systems biology and modelling
• Population heterogeneity and single cell analysis
Synthetic biology:
• Novel metabolic and synthesis pathways
• Biosensors
Research tools and technology competences:
• „Omics“ technologies
• Single cell analytics by microfluidics and FACS
• Modelling and simulation
• Innovative concepts for strain and process development
• High-throughput cultivation
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• Fractionation of biomass – form plant to definite monomeric intermediates
• Chemical transformation – from monomeric intermediates to products
• Product design – from molecule to function
Chemical Engineering of Renewable
Resources
10 Core Groups
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Reaction
Pathways
Reaction and
Separation Processes
Low Emission
Combustion
Tailored Crops:
Composition
Bio- and
Chemo-Catalysis
Sustainable
Agriculture
Water
Technologies
Biorenewables Processing …
Tailor-made
Fuels
Green
Solvents
Chemical Engineering:
principles of material
and energy conversion
technologies
systems integration
Interacting
Product and Process
Systems
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Multi-Scale Product and Process Systems Engineering
1 pm 1 nm 1 μm 1 mm 1 m 1 km length scale
ps
ns
ms
s
minutes
hours
days
weeks
months
time scale
small
large
medium
molecule clusters
particles, films
molecules
single- and multi-
phase systems
unit operation
chemical scale
plant
site
supply chain
measure
model
design
operate
control
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• Global and regional socio-economic and economic framework conditions
• Production management
• Environmental and resource economics
• Organisation and management von process chains
• Consumer attitude and acceptance
Economy and Social Implications of a
Bioeconomy
5 Core Groups
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Integrated approaches – example bioenergy
2. Generation
3. Generation
Optimisation of Photobioreactors (PBR)
Large Scale Pilot System @ Power plant
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Novel biomass sources
Optimisation of Photobioreactors (PBR)
Large Scale Pilot System @ Power plant
Biokerosin
Optimisation
of
biochemistry
and genetics
of algae
Bioeconomy Science Center (BioSC)
Competence, Knowledge and Technology for a Sustainable Bioeconomy