Total installed capacity of the project in Holíč is 117 kWp. An intelligent system comprising of 289 monocrystal photovoltaic panels Suntech, each with an output of 405 Wp, was installed on the roof of two buildings.
Total installed capacity of the project in Bratislava is 57 kWp. An intelligent system comprising of 140 monocrystal photovoltaic panels Suntech, each with an output of 405 Wp, was installed on the roof of the building.
Total installed capacity of the project in Bratislava is 95 kWp. An intelligent system comprising of 228 monocrystal photovoltaic panels Suntech, each with an output of 415 Wp, was installed on the roofs of two buildings.
Total installed capacity of the project in Kúty is 107 kWp. An intelligent system comprising of 264 monocrystal photovoltaic panels Suntech, each with an output of 405 Wp, was installed on the roof of the building.
Total installed capacity of the project in Bratislava is 60 kWp. An intelligent system comprising of 146 monocrystal photovoltaic panels Suntech, each with an output of 405 Wp, was installed on the roof of the building.
Total installed capacity of the project in Čab is 1 650 kWp. An intelligent system comprising of 3 976 monocrystal photovoltaic panels Suntech, each with an output of 415 Wp, was installed on the roof of the building.
Estimated annual production of electricity is 1 820 000 kWh. Producing electricity using the photovoltaic system saves 1 200 tons of CO2 emissions annually. System was launched in 2023. LSE BIA is our first project from the "LSE service" product line – the system is owned by our subsidiary green energy roofs, and our client rents it.
Total installed capacity of the project in Dudince is 65 kWp. An intelligent system comprising of 160 monocrystal photovoltaic panels Suntech, each with an output of 405 Wp, was installed on the roof of the building.
Total installed capacity of the project in Bratislava is 35 kWp. An intelligent system comprising of 84 monocrystal photovoltaic panels Suntech, each with an output of 415 Wp, was installed on the roof of the building.
Total installed capacity of the project in Nitra is 100 kWp. An intelligent system comprising of 246 monocrystal photovoltaic panels Suntech, each with an output of 405 Wp, was installed on the roof of the building.Estimated annual production of electricity is 120 000 kWh. Producing electricity using the photovoltaic system saves 80 tons of CO2 emissions annually.System was launched in 2023.
Total installed capacity of the project in Nitra is 120 kWp. An intelligent system comprising of 296 monocrystal photovoltaic panels Suntech, each with an output of 405 Wp, was installed on the roof of the building.Estimated annual production of electricity is 140 000 kWh. Producing electricity using the photovoltaic system saves 90 tons of CO2 emissions annually.System was launched in 2023.
Total installed capacity of the project in Bratislava is 400 kWp. An intelligent system comprising of 986 monocrystal photovoltaic panels Suntech, each with an output of 405 Wp, was installed on the roof of the building.
Total installed capacity of the project in Bratislava is 300 kWp (3×100 kWp). An intelligent system comprising of 3x246 monocrystal photovoltaic panels Suntech STP370S – B60/Vnh, each with an output of 405 Wp, was installed on the roof of the building.
Total installed capacity of the project in Nitra is 60 kWp. An intelligent system comprising of 148 monocrystal photovoltaic panels Suntech, each with an output of 405 Wp, was installed on the roof of the building.Estimated annual production of electricity is 70 000 kWh. Producing electricity using the photovoltaic system saves 45 tons of CO2 emissions annually.System was launched in 2023.
Total installed capacity of the project in Žiar nad Hronom is 502 kWp. An intelligent system comprising of 1320 monocrystal photovoltaic panels Longi, each with an output of 380 Wp, was installed on the roof of the building.Estimated annual production of electricity is 520 000 kWh. Producing electricity using the photovoltaic system saves 350 tons of CO2 emissions annually.System was launched in 2023.
Total installed capacity of the project in Veľký Krtíš is 200 kWp. An intelligent system comprising of 492 monocrystal photovoltaic panels Suntech, each with an output of 405 Wp, was installed on the roof of the building.Estimated annual production of electricity is 220 000 kWh. Producing electricity using the photovoltaic system saves 150 tons of CO2 emissions annually.System was launched in 2023.
Total installed capacity of the project in Lešť is 100 kWp. An intelligent system comprising of 246 monocrystal photovoltaic panels Suntech, each with an output of 405 Wp, was installed on the roof of the building.Estimated annual production of electricity is 110 000 kWh. Producing electricity using the photovoltaic system saves 75 tons of CO2 emissions annually.System was launched in 2023.
Total installed capacity of the project in Farná is 100 kWp. An intelligent system comprising of 246 monocrystal photovoltaic panels Suntech, each with an output of 405 Wp, was installed on the roof of the building.Estimated annual production of electricity is 110 000 kWh. Producing electricity using the photovoltaic system saves 75 tons of CO2 emissions annually.System was launched in 2023.
Total installed capacity of the project in Liptovský Hrádok is 50 kWp. An intelligent system comprising of 136 monocrystal photovoltaic panels Suntech, each with an output of 370 Wp, was installed on the roof of the building.Estimated annual production of electricity is 47 000 kWh. Producing electricity using the photovoltaic system saves 30 tons of CO2 emissions annually.System was launched in 2023.
Total installed capacity of the project in Martin is 80 kWp. An intelligent system comprising of 214 monocrystal photovoltaic panels Suntech, each with an output of 370 Wp, was installed on the roof of the bakery.Estimated annual production of electricity is 81 000 kWh. Producing electricity using the photovoltaic system saves 55 tons of CO2 emissions annually.System was launched in 2022.
About Bratislava solar energy
As the photovoltaic (PV) industry continues to evolve, advancements in Bratislava solar energy have become critical to optimizing the utilization of renewable energy sources. From innovative battery technologies to intelligent energy management systems, these solutions are transforming the way we store and distribute solar-generated electricity.
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