Journal
MATERIALS
Volume 16, Issue 7, Pages -Publisher
MDPI
DOI: 10.3390/ma16072693
Keywords
PHA recycling; hydrolysis; anaerobic fermentation; PHBV; carboxylates
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This study presents the initial steps of a potential PHA recycling route by fermenting hydrolyzed PHA-based bioplastics into carboxylates acetate and butyrate. The alkaline pretreatment showed the highest hydrolysate yield. After filtration and mixed culture fermentation, acetate and butyrate were produced from the hydrolyzed PHA. The overall yields of the combined processes were calculated.
Polyhydroxyalkanoates (PHA) polymers are emerging within biobased biodegradable plastic products. To build a circular economy, effective recycling routes should be established for these and other end-of-life bioplastics. This study presents the first steps of a potential PHA recycling route by fermenting hydrolyzed PHA-based bioplastics (Tianan ENMATTM Y1000P; PHBV (poly(3-hydroxybutyrate-co-3-hydroxyvalerate)) into carboxylates acetate and butyrate. First, three different hydrolysis pretreatment methods under acid, base, and neutral pH conditions were tested. The highest 10% (from 158.8 g COD/L to 16.3 g COD/L) of hydrolysate yield was obtained with the alkaline pretreatment. After filtration to remove the remaining solid materials, 4 g COD/L of the hydrolyzed PHA was used as the substrate with the addition of microbial nutrients for mixed culture fermentation. Due to microbial conversion, 1.71 g/L acetate and 1.20 g/L butyrate were produced. An apparent complete bioconversion from intermediates such as 3-hydroxybutyrate (3-HB) and/or crotonate into carboxylates was found. The overall yields of the combined processes were calculated as 0.07 g acetate/g PHA and 0.049 g butyrate/g PHA. These produced carboxylates can theoretically be used to reproduce PHA or serve many other applications as part of the so-called carboxylate platform.
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