Our Showcase
Projects with a future
Selected locations and planning with foresight. We focus on long-term, profitable systems and the highest quality in planning and execution. In total, we have already installed around a gigawatt of power.
Diesen,
France
Construction time: 5 months
Performance: 17 MWp
CO2-savings: at least 8.500 t/p.a.
Kell am See,
Germany
Construction time: 4 months
Performance: 15 MWp
CO2-savings: at least 7.500 t/p.a.
Terril Wendel,
France
Construction time: 9 months
Performance: 17 MWp
CO2-savings: at least 8.500 t/p.a
Raststatt,
Germany
Construction time: 1 month
Performance: 17 MWp
CO2-savings: at least 1.240 t/p.a.
Delfzijl,
Netherlands
Construction time: 6 months
Performance: 30,8 MWp
CO2-savings: at least15.400 t/p.a.
Lerchenborg,
Denmark
Construction time: 9 months
Performance: 61 MWp
CO2-savings: at least 30.500 t/p.a.
Upper Wick,
England
Construction time: 3 months
Performance: 5 MWp
CO2-savings: at least 2.500 t/p.a.
Plütscheid,
Germany
Construction time: 4 months
Performance: 10 MWp
CO2-savings: at least 5.000 t/p.a.
Blechhammer,
Germany
Construction time: 4 months
Performance: 2 MWp
CO2-savings: at least 1.000 t/p.a.
Haselberg,
Germany
Construction time: 4 months
Perfomance: 4,5 MWp
CO2-savings: at least 2.250 t/p.a
Haupersweiler,
Germany
Construction time: 4 months
Performance: 4,5 MWp
CO2-savings: at least 2.250 t/p.a.
Sinsheim,
Germany
Construction time: 4 months
Performance: 2,4 MWp
CO2-savings: at least 1.000 t/p.a.
Mellin,
Germany
Construction time: 3 months
Performance: 8,8 MWp
CO2-savings: at least 2.250 t/p.a.
Velsen,
Germany
Construction time: 2 months
Performance: 1,2 MWp
CO2-savings: at least 600 t/p.a.
Nordband,
Germany
Construction time: 4 months
Performance: 4 MWp
CO2-savings: at least 2.000 t/p.a.
Dechen,
Germany
Construction time: 3 months
Performance: 1,5 MWp
CO2-savings: at least 750 t/p.a.
Brönnechsthal,
Germany
Construction time: 5 months
Performance: 7,8 MWp
CO2-savings: at least 3.900 t/p.a.
Wellesweiler,
Germany
Construction time: 3 months
Performance: 1,7 MWp
CO2-savings: at least 850 t/p.a.
Klüsserath,
Germany
Construction time: 4 months
Performance: 5,1 MWp
CO2-savings: at least 2.550 t/p.a.
Lohberg,
Germany
Construction time: 3 months
Performance: 1,8 MWp
CO2-savings: at least 900 t/p.a.
Quellenbusch,
Germany
Construction time: 2 months
Performance: 0,8 MWp
CO2-savings: at least 400 t/p.a.
How does STARVERT Energy GmbH calculate the CO2-saving of a solar park?
In calculating CO2 savings, WIRCON GmbH attaches great importance to traceability and transparency. Calculations are based on a CO2 avoidance of 500g per kWh. In general, CO2 savings can be lower or higher, depending on the composition of the electricity. In general, CO2 savings can be lower or higher, depending on the composition of the electricity.
Solar and wind energy are low in CO2, whereas lignite and hard coal in particular are high in CO2 emissions. Gas has yet another CO2 balance. Germany and other European countries provide an electricity mix made up of different energy sources with different weightings. By supplying renewable energies such as wind and solar power, the CO2 load decreases for every kilowatt hour consumed.
Based on the guide „Aktuelle Fakten zur Photovoltaik in Deutschland“ an avoidance of approx. 690 g CO2/kWh is estimated for photovoltaic electricity (page 50). A low value of 500g CO2 per kWh was deliberately used for the calculation. The CO2 savings are therefore likely higher.
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