Título
Circular Power Electronics: Exploring the Scope and Suitability of Ecodesign Criteria for the Power Electronics IndustryAutor-a
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IkerbasqueVersión
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© Fraunhofer IZMAcceso
Acceso embargadoVersión del editor
https://doi.org/10.23919/EGG62010.2024.10631184Publicado en
Electronics Goes Green (EGG) Berlin, Germany. 18-20 junio, 2024Editor
Fraunhofer IZMPalabras clave
Power electronicscircular economy
eco-design
Materia (Tesauro UNESCO)
Industria electrónicaResumen
Renewable energies play a key role in achieving
climate neutrality by 2050. However, although their
environmental impact is generally lower compared to
conventional energy sources, it is crucial to ... [+]
Renewable energies play a key role in achieving
climate neutrality by 2050. However, although their
environmental impact is generally lower compared to
conventional energy sources, it is crucial to focus attention on
the d esign a nd l ife c ycle m anagement ( LCM) o f t he
components and equipment of these technology systems to
further mitigate potential negative effects on the
environment. Power electronics plays a crucial role in the
production o f r enewable e nergy ( RE) d ue t o i ts r ole i n t he
conversion, control and distribution of electrical energy
generated by renewable sources, such as solar or wind.
Nevertheless, there is a lack of information available in the
literature on the ecodesign performance of these products.
This article explores the applicability of ecodesign criteria in
the power electronics (PE) industry. For this purpose, a
database of ecodesign criteria, based on the specifications
from the EU Ecodesign Directive, was developed and tested
with different industrial actors to gather the perception from
the industry on the actual applicability of these ecodesign
criteria in the design and LCM of PEs. The results indicate
that the most important ecodesign criteria are those related to
the Installation/Use/Maintenance life cycle stage of power
converters, focusing on improving equipment efficiency by
minimizing energy losses and ensuring optimal operation
through proper maintenance. In contrast, end-of-life aspects
of the converter are the least addressed by the industry.
Differences in the implementation of ecodesign criteria
between institutions have been analysed, while the ecodesign
aspects of the directive have been compared with the actual
perception of the PE industry. This includes an analysis of the
criteria with the lowest circularity potential versus the highest
rated criteria according to life cycle stage. [-]
Financiador
Comision EuropeaPrograma
HORIZON-CL5Número
101075496URI de la ayuda
https://doi.org/10.3030/101075496Proyecto
Next generation modular SIC-based advanced power electronics converters FOR enhanced renewables integration into the GRID (SiC4GRID)Colecciones
- Congresos - Ingeniería [374]