posted on 2022-09-23, 21:29authored byHyunjoo Hong, Florian Part, Bernd Nowack
As industrial demand for graphene-based materials (GBMs)
grows,
more attention falls on potential environmental risks. The present
article describes a first assessment of the environmental releases
of GBMs using dynamic probabilistic material flow analysis. The model
considered all current or expected uses of GBMs from 2004 to 2030,
during which time there have already been significant changes in how
the graphene mass produced is distributed to different product categories.
Although the volume of GBM production is expected to grow exponentially
in the coming years, outflow from the consumption of products containing
GBMs shows only a slightly positive trend due to their long lifetimes
and the large in-use stock of some applications (e.g., GBM composites
used in wind turbine blades). From consumption and end-of-life phase
GBM mass flows in 2030, estimates suggest that more than 50% will
be incinerated and oxidized in waste plants, 16% will be landfilled,
12% will be exported out of Europe, and 1.4% of the annual production
will flow to the environment. Predicted release concentrations for
2030 are 1.4 ng/L in surface water and 20 μg/kg in sludge-treated
soil. This study’s results could be used for prospective environmental
risk assessments and as input for environmental fate models.