Agriversa. Future Barn. ANMS 4.0.
Sustainable, regenerative agriculture for the future. Agriversa presents a holistic, innovative agricultural project, the Agriversa. ZERO Emission Dairy Cow Barn 4.0. (ANMS 4.0). It revolutionizes the agricultural and dairy industry through sustainability, environmental and animal welfare, as well as maximum efficiency!

by AGRIVERSA INTERNATIONAL PLC

Agenda

1

Agriversa. Future Barn
Highly efficient, environmentally and animal-friendly food production through consistent circular economy and autonomous, regenerative energy management.

2

Private Photovoltaics
52,000 private households will be equipped with roof-mounted photovoltaic systems that produce 30 MW of electricity.

3

Commercial Photovoltaics
500 hectares of photovoltaic systems produce 285 MW of electricity, which is used to produce green hydrogen.

4

Wind Power
Installation of 66 MW of capacity as an optimal supplement in the production of 600,000 tons of green hydrogen.
THE FUTURE COMES FROM BLANKENFELDE
The 1st Prototype of the "Future Barn ANMS 4.0"
For more environmentally, climate and animal-friendly as well as efficient dairy cow farming, a prototype with 2,000 stalls with all necessary additional companies is now being built.
  • Arable and crop farming on approx. 5,250 ha of agricultural land
  • Modern greenhouse production 4.0
  • Processing plants for all harvested crops
  • Biogas plant plus 4.0 with catalytic CO2 methanation and H2 plasma pyrolysis
  • Regenerative solar and wind power plants, plus energy storage and H2 PEM electrolyzers.
Stadtgut Berlin SÜD Vrieling KG, Trebbiner Damm 81, 15831 Blankenfelde
The Problem with Traditional Dairy Farming

1

Low Profitability
A German dairy farmer currently earns an average of €3,492 per dairy cow per year, with a profit of around 20%, so €698.40 per cow.

2

Environmental Impact
In Germany, 3.8 million cows produce 5.97 billion Nm³ of environmentally harmful biogas annually.

3

Not Environmentally and Animal-Friendly
Tie-stall housing, lack of pasture access, open barns, missing environmental and animal welfare standards.

4

Untapped Potential
Only 18.2% of dairy farms have a biogas plant. 81.85% of farms do not utilize the around 4.89 billion Nm³ of biogas.
Introduction
Innovation
ANMS 4.0: An emission-free, fully automated dairy barn of the future.
Efficiency
An environmentally and animal-friendly barn with maximum cow comfort and high economic efficiency
Forward-looking
A concept that will sustainably transform agriculture.
Challenges in Agriculture
Reducing Emissions
Strict requirements to reduce greenhouse gas emissions in agriculture.
Animal Welfare
Growing expectations for species-appropriate livestock farming and environmental justice.
Innovation
Need for forward-looking solutions for sustainable agriculture.
The Principle of ANMS 4.0

1

Alpine-like Conditions
A closed barn system that mimics the climatic conditions of mountain grazing areas.

2

Optimal Livestock Farming
Adaptation of high-altitude air, temperature, humidity, UV light and movement opportunities to the natural living conditions of the cows.

3

Emission Control
No odor nuisance, no disease-transmitting pests, and complete utilization of greenhouse gas emissions.
ANMS 4.0
The Concept
1
Modular
Flexible structure for different farm sizes and climate zones.
2
Fully Automated
Efficient processes through state-of-the-art technology.
3
Animal-Friendly
Optimal conditions for high milk production and excellent animal health.
Circular Economy

1

Integration
Optimal connection of arable farming and livestock farming in a closed system.

2

Resource Utilization
Maximum use of all available natural resources.

3

Waste Minimization
Reduction of waste through efficient recycling.
Crop Cultivation and Feed Production
Cultivation
Cultivation of high-quality, energy-rich plants with maximum CO2 absorption.
Processing
All plants are processed into high-quality feed and animal feed.
Biosubstrates
Waste and existing high-quality biosubstrates are upgraded to biomethane and turquoise hydrogen.
Autonomous
Energy Management
Biomethane
Greenhouse gases and organic waste are utilized to produce biomethane, green hydrogen, as well as heat and cold.
Thermal Energy
Efficient utilization of waste heat from the barn.
Energy Autonomy
All production processes are organized to be energy-autonomous based on renewable energies. No fossil raw materials are used.
CO2 Reduction and Sustainability
1
Reduction of Greenhouse Gas Emissions
Significant reduction of CO2 emissions in milk production. Utilization of greenhouse gases and organic waste.
2
CO2 Certificates
The CO2 savings achieved in the production steps are recorded. Trading in environmental certificates is an additional source of income.
3
Environmental Protection
Active contribution to climate protection through sustainable agriculture. Consistent compliance with nature and environmental protection standards.
The Future of Green Energy: CO2 Reduction through Dual Use
Ecological Efficiency
The generation of green electricity, biomethane and green hydrogen significantly reduces CO2 emissions. The dual use of land for solar energy and agricultural production maximizes land efficiency.
Rooftop Solar Systems
The integration of photovoltaic systems into existing infrastructure like roofs enables efficient power generation without additional land consumption.
Agri-Photovoltaics
Agri-photovoltaic systems combine agriculture and power production on the same area. The plants benefit from the shade of the PV modules, while the electricity is generated renewably.
Economic Benefit
The dual use of land increases profitability and enables funding programs. Additionally, the costs for soil sealing and land development are reduced.
The Future of Energy Supply: Renewable Resources
The transition from fossil fuels to renewable resources is in full swing. Solar energy and wind power are at the forefront of this transformation. Agri-photovoltaics combines agriculture with solar power generation.
Geothermal energy uses the earth's heat as a sustainable energy source. Biomethane and methanol offer baseload-capable alternatives to fossil fuels. Turquoise and green hydrogen promise an emission-free future.
These technologies are gradually replacing gas, oil and coal. They ensure a sustainable and independent energy supply for future generations.
Biogas Plant Plus 4.0 Turquoise Hydrogen
Biomethane Production
Efficient use of organic waste and greenhouse gases for energy generation.
Turquoise Hydrogen
Highly efficient and cost-effective turquoise hydrogen is produced from biomethane through plasmolysis.
Sustainable Energy Transition
Through the use of renewable solar and wind energy, as well as sustainable turquoise hydrogen, a radical energy transition is taking place in agriculture.
Autonomous energy management
A key element of ANMS 4.0 is autonomous energy management. The generation of renewable energy through photovoltaic (agricultural) systems and wind turbines secures the future energy supply. This contributes significantly to the sustainability and efficiency of the entire complex.
Solar energy
Agri-photovoltaic and roof systems
Wind energy
Modern wind turbines
Energy storage
Efficient electricity storage systems
Climate Neutrality for Berlin and Brandenburg
The goal is the annual production of 100,000 tons of green hydrogen in Berlin and 600,000 tons in Brandenburg from 2030 onwards. For this, around 38.5 billion kWh of renewable electricity per year is required. Through economic cooperation and profit participation with citizens and municipalities, Stadtgut Berlin Süd Vrieling KG will make an important contribution to the climate neutrality of Berlin and Brandenburg.
Photovoltaics
285 Megawatt (agri-)photovoltaic and rooftop systems
Wind Energy
66 Megawatt wind turbines
Rooftop Photovoltaics
30 Megawatt photovoltaic systems on residential buildings
Investment
Total investment of approx. 311.0 million euros
Invest Now!
The "Energiewende-Blankenfelde" project is an innovative solution that integrates agriculture and energy production.
By combining biogas plants, photovoltaic and wind power systems, as well as agricultural land, significant revenue is generated from both electricity and agricultural products.
Profitability
  • High profitability through dual revenue streams
  • Reduced costs for land use and management
  • Possibility of funding support
The AGRIVERSA Solution
The AGRIVERSA Team
1
CEO - Priv.-Doz. Dr.agr.habil Werner Baumgart
Author, developer, project manager, farmer and scientist with extensive practical experience.
2
CEO/CFO - Harald de Vries
Responsible for investor relations, finance, marketing and press work.
3
COO - Steffen Baumgaertel
Initiator, developer, project manager, project developer
4
CPO - Christopher Baumgart
Business and project manager, engineer and economist.
5
CDO - Dipl. archi. Robert Patzschke
International architect, managing director of Patzschke Planungsgesellschaft mbH.
Market and Expansion Strategy

1

D-A-CH
Expansion in Germany, Austria and Switzerland.

2

International
Development of new markets worldwide.

3

Investments
Opportunities for investors to participate in international projects.
Investments and Expansion
Total Financing
€477.0 million for ANMS 4.0 with 2,000 barns, Agriversa BGA.Plus 4.0, methane plasma electrolysis and renewable energy plants in Brandenburg.
International Expansion
Agriversa International PLC offers participation in global expansion from €1.0 million.
Orders and Letters of Intent
10 orders/letters of intent in Germany, 7 international orders/letters of intent in India, Morocco, Qatar and Egypt with partial state participation.
Projections and outlook
Sales forecast
Expected increase in sales in the coming years.
CO2 savings
Forecasted increase in CO2 savings through ANMS 4.0.
Vision of the future
Long-term perspective for sustainable agriculture.
Summary

1

Sustainable Solution
ANMS 4.0 offers a response to the challenges of modern agriculture.

2

Economic Efficiency
High profit potential with environmentally friendly production at the same time.

3

Future Investment
Participation in the future of agriculture through innovative technologies.
Cooperation Partners of the Future Barn ANMS 4.0 Project
The ANMS 4.0 Future Barn project of Agriversa GmbH brings together leading experts from science and industry to develop innovative solutions for the agriculture of the future. This unique collaboration aims to research and implement modern barn technologies that improve animal health, sustainability and efficiency in agricultural production.
The cooperation includes renowned scientific institutions such as the Veterinary Faculties of several universities as well as specialized institutes for agricultural technology and bioeconomics. At the same time, industrial partners from various fields such as barn construction technology, plant engineering and energy technology contribute their practical know-how. This synergy enables the direct implementation of theoretical knowledge into practical solutions.
Scientific Partners
  • Veterinary Faculty of the Free University of Berlin,
  • Faculty of Life Sciences of the Albrecht Daniel Thaer Institute for Agricultural and Horticultural Sciences at the Humboldt University of Berlin,
  • University of Veterinary Medicine Hannover Foundation,
  • Leibniz Institute for Agricultural Engineering and Bioeconomy (ATB) in Potsdam-Bornim,
  • Veterinary Faculty of the University of Leipzig,
  • Institute for Air and Refrigeration Technology (ILK) in Dresden,
  • State Research Institute for Agriculture and Fisheries Mecklenburg-Western Pomerania, Dummerstorf,
  • Science Center for Nutrition, Land Use and Environment, Weihenstephan, Munich,
  • University of Veterinary Medicine Hannover Foundation
Industrial Partners
The industrial partners cover a broad spectrum, from barn construction and technology to innovative energy solutions.
  • Anders Beton, Hoogstraten-Meer, Belgium
  • GEA GmbH Boenen, in connection with Duräumat Stalltechnik GmbH
  • Lab Anlagenbau Leuteritz GmbH Peiting
  • Patzschke Planungsgesellschaft mbH Berlin
  • Matthias Thorwirth Planning Office, Bergholz-Rehbrücke
  • R+L Energie GmbH, Dresden
  • Siemens AG Berlin
  • Vector Foiltech GmbH Bremen
  • Blackcore UK Limited Company, London
  • KMU.Network, Berlin, London
Contact and Further Information
1
Contact
Dr. Werner Baumgart, Harald de Vries, Uwe Rosenkranz, available via LinkedIn or by email at [email protected]
Website: agriversa.org/english
2
Phone
Germany:
+49 30 62932542 International:
+44 845 891 0560
3
Schedule Appointments
Google Meet, Zoom or Phone: https://cal.com/invest
4
Address
AGRIVERSA eG, Bürgerheimstraße 23, 10365 Berlin Germany