posted on 2024-05-31, 15:12authored byBo-Xun Wang, Yoel Cortes-Peña, Brian P. Grady, George W. Huber, Victor M. Zavala
Poly(butylene-adipate terephthalate) (PBAT) is a polyaliphatic–polyaromatic
polyester that is biodegradable and has found application in several
markets, making it a widely produced biodegradable polymer worldwide.
However, the production of PBAT is carbon-intensive, as it relies
on the use of petroleum-based monomers. There is, thus, significant
interest in identifying polyesters that are biodegradable and less
carbon-intensive (e.g., use of biomass-derived monomers). In this
work, we develop a detailed process model (and an associated database)
for the production of polyaliphatic–polyaromatic polyesters
including petroleum-based PBAT and biomass-derived alternatives including
poly(pentylene-adipate terephthalate) and poly(pentylene-adipate furandicarboxylate).
Techno-economic analysis (TEA) reveals that the production costs of
these polyesters strongly depend on monomer costs (accounting for
over 90% of the total production cost) and identifies market conditions
under which biomass-based polyesters can be cost-competitive to petroleum-based
PBAT. Life cycle assessment (LCA) shows that biomass-derived polyesters
can reduce the global warming impact of PBAT by half. Overall, the
proposed TEA/LCA model aims to provide guidance into polyesters that
are most promising and help assess their overall economic and environmental
performance.