| Abstract |
The transformation of the fossil-fuel-based energy system into a new Net-Zero-CO2 all-electric systemwill rely on a massive extension of the electric grid infrastructure and a massive installation of powerelectronic converters and energy storage systems. However, assuming a typ. 20 years lifetime, converter systems installed today will need to be replaced already by 2050, i.e., at the commonly accepted date for reaching the Net-Zero-CO2 target. Given the scale of the future Internet of Energy,the maintenance or replacement effort at some point will potentially run into depletion of scarce rawmaterials and large volumes of waste and associated environmental problems. This clearly indicatesthat 'Net-Zero-CO2 by 2050 is NOT Enough' and underlines the urgency of a transition from a LinearEconomy to a Circular Economy, which ensures that the Net-Zero-CO2 target is reached on a sustainable basis, i.e., with minimized environmental impact in all aspects. The talk will first introducemetrics for measuring the environmental impact of power electronic converters and explain theconcepts of Life Cycle Analysis of systems and of a Circular Economy in contrast to the Linear Economy dominating today. Next, the utilization of degrees of freedom of the design of power electronic converters for maximizing repairability, reusability, and recyclability while minimizing the use of critical materials, toxic substances, and ultimately waste will be shown at the example of EV chargers and PV inverters employing different power semiconductor technologies and circuit topologies. Finally, a roadmap for the introduction of environmental awareness into the power electronics design process will be proposed in order to ensure that power electronics as the main enabler of a Net-Zero-CO2 society reaches full compatibility with a Circular Economy at the earliest point in time possible. |
