Fronius Tauro Life Cycle Assessment – Part 2: Superb performance and sustainability

The environmental performance of the Fronius Tauro ECO 100

Based on the data collected, the following statements can be made about the carbon footprint and benefits of the Tauro ECO 100:

Carbon footprint

Electricity from a PV system with the Fronius Tauro ECO 100 has a carbon footprint of approx. 15 to 80 g CO2e/kWh, whereas the carbon footprint of electricity from the grid is approx. 100 to 1,200 g CO2e/kWh, depending on the scenario and country.

More than a quarter of the total carbon footprint of the Fronius Tauro ECO 100 is accounted for in the component production phase.

The total carbon footprint of the Tauro ECO 100-D is 4,247.8 kg CO2e* (4,362.7 kg CO2e with an environmental “credit” of -114.9 kg CO2e from waste management).

*Depending on the respective LCA scenario

For the Fronius Tauro ECO 100-D, the carbon payback period – the time it takes for the avoided carbon emissions to offset the product’s carbon emissions – ranges from 0.4 to 1.9 years, depending on the scenario. After this time, operators of the Tauro ECO 100 save carbon emissions and create a positive environmental impact.

If a Tauro ECO 100 inverter is used for 20 years, the total amount of avoided carbon dioxide equivalent (CO2e) emissions can be up to 52.9 times higher than the carbon emissions generated during the entire life cycle of the device. Similar values are obtained for the energy payback period – it is within the range of 0.3 to 0.8 years. If a Tauro ECO 100 inverter is used for 20 years, the total energy generated can be up to 62.7 times higher than the energy expended in the entire life cycle of the device.

So much for the hard facts on the environmental benefits and advantages of our inverter. You will soon find out in the third and final part of our news series what the life cycle assessment and the results mean for customers and installers.