Leibniz Institute for Agricultural Engineering Potsdam-Bornim e.V. (ATB)
The ATB's task is to create process-engineering bases for sustainable land-use management and to provide innovative technical solutions for industry. By combining scientific and engineering findings, especially in the field of new technologies such as biotechnology and information technology, with economic and social science expertise, ATB aims to ensure that the newly developedATB main building processes and technical solutions are profitable for both manufacturers and users, at the same time ensuring environmental protection and sustainability.
Address
Leibniz Institute for Agricultural Engineering Potsdam-Bornim e.V. (ATB)
Max-Eyth-Allee 100
14469 Potsdam
Brandenburg
Phone: +49 (0)331 5699 0
Fax: +49 (0)331 5699 849
E-mail: atb(@)atb-potsdam.de
Mandate:
national
Activities:
- Research
Networks:
- Leibniz-Gemeinschaft (WGL)
Coordinated projects
- Collaborative Project: Acoustic resonance analysis for the automatic state analysis of horticultural products ( hollow asparagus and mealy pip- and stone-fruit) – Subproject 1 Details of Collaborative Project: Acoustic resonance analysis for the automatic state analysis of horticultural products ( hollow asparagus and mealy pip- and stone-fruit) – Subproject 1
- Efficient processing of biogas for power generation in PEM fuel cells Details of Efficient processing of biogas for power generation in PEM fuel cells
- Monitoring of the methane-forming microflora in biogas plants in rural areas: analysis of the actual state and development of a quantitative detection system Details of Monitoring of the methane-forming microflora in biogas plants in rural areas: analysis of the actual state and development of a quantitative detection system
- Supply composite PEM fuel cell systems - ZUBRA Details of Supply composite PEM fuel cell systems - ZUBRA
- Biomass for SunFuel Details of Biomass for SunFuel
- Sub-Project 1: Dynamic regulation of processes for the fermentation of renewable raw materials using a propionic discerning gas sensor arrays Details of Sub-Project 1: Dynamic regulation of processes for the fermentation of renewable raw materials using a propionic discerning gas sensor arrays
- Influence of mineral nitrogen fertilization on the biomass yield of poplar and willow, and identification of relevant environmental impacts Details of Influence of mineral nitrogen fertilization on the biomass yield of poplar and willow, and identification of relevant environmental impacts
- Development of an eco-efficient technology to reduce emissions from the storage of biological nutrient solutions. Details of Development of an eco-efficient technology to reduce emissions from the storage of biological nutrient solutions.
- Subproject 2: Provide high-quality silage and fair determination of the energetic and economic parameters to evaluate and optimize the overall process Details of Subproject 2: Provide high-quality silage and fair determination of the energetic and economic parameters to evaluate and optimize the overall process
- Coordination and Management of ProSenso.net2 Details of Coordination and Management of ProSenso.net2
- FENAFA network interconnection - part 3a: Targeted development and adaptation of the method steps for providing and conditioning of natural fiber konservat for use in composite materials (focusing on hemp) Details of FENAFA network interconnection - part 3a: Targeted development and adaptation of the method steps for providing and conditioning of natural fiber konservat for use in composite materials (focusing on hemp)
- Studies on phyto sanitary risk due to the anaerobic fermentation of plant biomass in biogas plants. Sub-project 3 Details of Studies on phyto sanitary risk due to the anaerobic fermentation of plant biomass in biogas plants. Sub-project 3
- Joint project: development and comparison of optimized production systems for the agricultural production of energy crops under the different conditions at different locations in Germany - Phase II Project 4: Effect of substrate quality on the biogas yield in the laboratory and in practice Details of Joint project: development and comparison of optimized production systems for the agricultural production of energy crops under the different conditions at different locations in Germany - Phase II Project 4: Effect of substrate quality on the biogas yield in the laboratory and in practice
- Fermentation of renewable resources and the upflow process Details of Fermentation of renewable resources and the upflow process
- Joint project: an innovation network planning climate adaptation region of Brandenburg Berlin (INKA BB) - Part 2 Details of Joint project: an innovation network planning climate adaptation region of Brandenburg Berlin (INKA BB) - Part 2
Involved in research projects:
- Use of biomass ashes as phosphorous source in plant production Details of Use of biomass ashes as phosphorous source in plant production
- Practice model projects: the introduction of quality systems to ensure traceability of freshness and quality in regional eco vegetables - in food retail chains LEH and NEH Details of Practice model projects: the introduction of quality systems to ensure traceability of freshness and quality in regional eco vegetables - in food retail chains LEH and NEH
- keine Angaben Details of keine Angaben
- European biogas initiative to improve the yield of agricultural biogas plants Details of European biogas initiative to improve the yield of agricultural biogas plants
- Detection of clone-site interactions in poplar and willow on agricultural sites in short rotation - ProLoc (income program / locus) Details of Detection of clone-site interactions in poplar and willow on agricultural sites in short rotation - ProLoc (income program / locus)
- Joint project: an innovation network planning climate adaptation region of Brandenburg Berlin (INKA BB) - Part 1 Details of Joint project: an innovation network planning climate adaptation region of Brandenburg Berlin (INKA BB) - Part 1
- Joint project: an innovation network planning climate adaptation region of Brandenburg Berlin (INKA BB) - Part 9 Details of Joint project: an innovation network planning climate adaptation region of Brandenburg Berlin (INKA BB) - Part 9
- Investigation, evaluation and development of biogas processes (especially with co-fermentation) including the energetical utilization of biogas. Details of Investigation, evaluation and development of biogas processes (especially with co-fermentation) including the energetical utilization of biogas.
Subordinate Institutions:
- ATB Department 1 Bioengineering - Details of ATB Department 1 Bioengineering
- ATB department 2 Technology-Assessment and Substance Cycles - Details of ATB department 2 Technology-Assessment and Substance Cycles
- ATB Department 3 Post Harvest Technology - Details of ATB Department 3 Post Harvest Technology
- ATB Department 4 Engineering for Crop Production - Details of ATB Department 4 Engineering for Crop Production
- ATB Department Engineering for Livestock Management - Details of ATB Department Engineering for Livestock Management
- ATB Department 6 Horticultural Engineering - Details of ATB Department 6 Horticultural Engineering
Coordinated Research Programmes:
- Dynamic regulation of processes for the fermentation of renewable raw materials using a propionic discerning gas sensor arrays Details of Dynamic regulation of processes for the fermentation of renewable raw materials using a propionic discerning gas sensor arrays
- Exploration of sustainability potentials by use of sensor-based technologies and integrated assessment models in the production chain of plant related food Details of Exploration of sustainability potentials by use of sensor-based technologies and integrated assessment models in the production chain of plant related food
Head of department for research programmes:
- Dynamic regulation of processes for the fermentation of renewable raw materials using a propionic discerning gas sensor arrays
Dynamic regulation of processes for the fermentation of renewable raw materials using a propionic discerning gas sensor arrays Details of Dynamic regulation of processes for the fermentation of renewable raw materials using a propionic discerning gas sensor arrays - Sensor-based technologies and integrated assessment models in food production chains - Towards enhanced exploration of sustainability potentials
Exploration of sustainability potentials by use of sensor-based technologies and integrated assessment models in the production chain of plant related food Details of Exploration of sustainability potentials by use of sensor-based technologies and integrated assessment models in the production chain of plant related food