TY - JOUR
T1 - Degradation of common polymers in sewage sludge purification process developed for microplastic analysis
AU - Lessa Belone, Maria Clara
AU - Kokko, Marika
AU - Sarlin, Essi
N1 - Funding Information:
This work was supported by the Finnish Cultural Foundation , Pirkanmaa Regional Fund. We thank Dr. Minna Poikelispää for the contribution given on the discussion section and Elina Yli-Rantala for her revision and comments that contributed for the development of the manuscript.
Publisher Copyright:
© 2020 The Authors
Copyright:
Copyright 2020 Elsevier B.V., All rights reserved.
PY - 2021/1/15
Y1 - 2021/1/15
N2 - To enable and/or facilitate analysis of microplastics from environmental
samples, a purification process is required to reduce the organic
matter content. The development of such process has as one main concern,
besides achieving efficient organic matter reduction, the preservation
of the microplastics. In this study, a three-step method for sewage
sludge purification was proposed employing sodium dodecyl sulfate and
hydrogen peroxide. The effects of the purification method on seven
polymers (LLDPE, HDPE, PP, PS, PET, PA66 and SBR) were evaluated in
terms of mass change, surface characteristics, mechanical properties,
thermal properties and functional groups change. It was also assessed
how the polymers were affected by the purification chemicals without the
presence of sewage sludge. The purification process led to changes in
all tested plastics, but in different intensities. LLDPE, HDPE, PP, PS
and PET did not suffer considerable degradation. PET was more affected
by hydrolysis than oxidation. On the other hand, the integrities of PA66
and SBR were noticeably affected. The effects of the purification
process were considered to be due to the plasticizer behavior of water
and oxidation on PA66 and loss of filler and oxidation on SBR. For both
polymers there was a reduction on the tensile strength of around 50–60%
after the purification, indicating they could be prone to fragmentate
into smaller pieces along the process. After purification, PA66 also
started to decompose at a temperature around 10 °C lower comparing to
virgin samples. Except for SBR, the presence of sewage sludge and its
oxidation was more harmful to the polymers than the purification
chemicals without the presence of sewage sludge. This study serves as an
evaluation of the effects of the purification process on the
degradation of microplastics and a methodology for such assessment when
designing a purification process.
AB - To enable and/or facilitate analysis of microplastics from environmental
samples, a purification process is required to reduce the organic
matter content. The development of such process has as one main concern,
besides achieving efficient organic matter reduction, the preservation
of the microplastics. In this study, a three-step method for sewage
sludge purification was proposed employing sodium dodecyl sulfate and
hydrogen peroxide. The effects of the purification method on seven
polymers (LLDPE, HDPE, PP, PS, PET, PA66 and SBR) were evaluated in
terms of mass change, surface characteristics, mechanical properties,
thermal properties and functional groups change. It was also assessed
how the polymers were affected by the purification chemicals without the
presence of sewage sludge. The purification process led to changes in
all tested plastics, but in different intensities. LLDPE, HDPE, PP, PS
and PET did not suffer considerable degradation. PET was more affected
by hydrolysis than oxidation. On the other hand, the integrities of PA66
and SBR were noticeably affected. The effects of the purification
process were considered to be due to the plasticizer behavior of water
and oxidation on PA66 and loss of filler and oxidation on SBR. For both
polymers there was a reduction on the tensile strength of around 50–60%
after the purification, indicating they could be prone to fragmentate
into smaller pieces along the process. After purification, PA66 also
started to decompose at a temperature around 10 °C lower comparing to
virgin samples. Except for SBR, the presence of sewage sludge and its
oxidation was more harmful to the polymers than the purification
chemicals without the presence of sewage sludge. This study serves as an
evaluation of the effects of the purification process on the
degradation of microplastics and a methodology for such assessment when
designing a purification process.
KW - Microplastics
KW - Polymer degradation
KW - Purification process
KW - Sewage sludge
U2 - 10.1016/j.envpol.2020.116235
DO - 10.1016/j.envpol.2020.116235
M3 - Article
AN - SCOPUS:85097752313
SN - 0269-7491
VL - 269
JO - Environmental Pollution
JF - Environmental Pollution
M1 - 116235
ER -