a selection of our
REFERENCES

385 MWp German projects

Solar park Nienburg

Project Description: The completed 4 MWp solar plant in Nienburg now contributes to the local and regional energy supply, significantly advancing the use of renewable energy and reducing CO₂ emissions.

Site Selection: Nienburg was chosen for it’s good accessibility, and available open spaces. The plant is located on previously fallow land.

Technical Specifications:

  • Total Capacity: 4 MWp
  • Solar Modules: Approximately 10,000 high-performance photovoltaic modules with 400 Wp each.
  • Inverters: Efficient string inverters with over 98% efficiency.
  • Substructure: Durable aluminum and steel structures.
  • Grid Connection: Connected to the local medium-voltage grid with an on-site transformer station.

Construction Phases: The construction included site preparation, substructure erection, module installation, electrical work, and a commissioning and testing phase.

Environmental Impact: The project has no significant negative effects on local flora and fauna and contributes positively to climate protection. Measures such as planting hedges and trees promote biodiversity.

Economic Benefits: The plant produces clean energy for about 1,200 households, creating jobs during construction and operation. It helps stabilize electricity prices and reduces dependence on fossil fuels.

Conclusion: The 4 MWp solar plant in Nienburg is a milestone in the regional energy transition, combining advanced technology with ecological and economic responsibility.

Solar park Magdeburg

Project Description: The constructed solar park in Magdeburg now makes a significant contribution to local and regional energy supply. This project promotes the use of renewable energy and sustainably reduces CO₂ emissions.

Site Selection: The site in Magdeburg was chosen for its excellent solar radiation values, good accessibility, and available open spaces. The plant is located on previously unused land.

Technical Specifications:

  • Solar Modules:  high-performance photovoltaic modules.
  • Inverters: Efficient string inverters with over 98% efficiency.
  • Substructure: Durable aluminum and steel structures.
  • Grid Connection: Connected to the local medium-voltage grid via an on-site transformer station.

Construction Phases: The construction was completed in several phases: site preparation, erection of the substructure, module installation, electrical work, and a commissioning and testing phase.

Environmental Impact: The environmental impact assessment showed no significant negative effects on local flora and fauna. The plant contributes positively to climate protection by reducing greenhouse gases. Compensation measures such as planting hedges and trees promote biodiversity.

Economic Benefits: The solar park produces clean energy for about 1,200 households and created jobs during construction and for ongoing operations. In the long term, the plant helps stabilize electricity prices and reduces dependence on fossil fuels.

Conclusion: The solar park in Magdeburg is a forward-looking project that promotes renewable energy and contributes to sustainable energy supply. It combines cutting-edge technology with ecological and economic responsibility and represents a milestone in the regional energy transition.

Solar park Bückeburg

Project Description: The constructed solar park in Bückeburg now significantly contributes to the local and regional energy supply. This project promotes the use of renewable energy and sustainably reduces CO₂ emissions.

Site Selection: The site in Bückeburg was chosen for its excellent solar radiation values, good accessibility, and available open spaces. The plant is located on previously unused land.

Technical Specifications:

  • Solar Modules:  high-performance photovoltaic modules.
  • Inverters: Efficient string inverters with over 98% efficiency.
  • Substructure: Durable aluminum and steel structures.
  • Grid Connection: Connected to the local medium-voltage grid via an on-site transformer station.

Construction Phases: The construction was completed in several phases: site preparation, erection of the substructure, module installation, electrical work, and a commissioning and testing phase.

Environmental Impact: The environmental impact assessment showed no significant negative effects on local flora and fauna. The plant contributes positively to climate protection by reducing greenhouse gases. Compensation measures such as planting hedges and trees promote biodiversity.

Economic Benefits: The solar park produces clean energy for numerous households and created jobs during construction and for ongoing operations. In the long term, the plant helps stabilize electricity prices and reduces dependence on fossil fuels.

Conclusion: The solar park in Bückeburg is a forward-looking project that promotes renewable energy and contributes to a sustainable energy supply. It combines cutting-edge technology with ecological and economic responsibility and represents a milestone in the regional energy transition.

1000 MWp Dominican republic projects

675 MWp Bonao

The largest Solar + Storage project in the Caribbean, located in the Dominican Republic, designed to reduce fossil fuel reliance and offer strong returns through long-term Feed-in Tariffs.

Project Overview
– Project Name: Parque Solar Bonao
– Location: Bonao, Dominican Republic
– Capacity: Up to 600 MW with 120 MWh battery storage per 100 MWac
– Land Size: 5,200,000.00 m²
– Irradiation: 1,595.00 kWh/kWp

375 MWp Monte Cristi

The “Laguna Verde” solar project in the Monte Cristi region has a capacity of up to 400 MWac, spread across three land plots totaling 3,000,000 m², and offers strong solar irradiation of 1,775 kWh/kWp.

Project Overview
– Project Name – Parque Solar Laguna Verde
– 3 land plots, total 3,000,000.00 m² Land size
– Initial capacity – 200 MWac in tranches of 100MWac
– Batteries – 120 MWh per 100 MWac
– Irradiation- 1,775.00 kWh/kWp

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