Life Cycle Management of Bioplastics for a Sustainable Future in Thailand: Sa-med Island Model

Life Cycle Management of Bioplastics for a Sustainable Future in Thailand: Sa-med Island Model

This research aimed to evaluate the environmental performance of selected bioplastic product produced from polylactic acid (PLA) and polybutylene succinate (PBS) based on life cycle approach. Raw materials used to produce bioplastic were cassava and sugarcane and garbage bag was selected as a model...

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Main Authors: S. Petchprayul, P. Malakul, M. Nithitanakul, S. Papong, P. Wenunun, W. Likitsupin, T. Chom-in, R. Trungkavashirakun, E. Sarobol
Format: Article
Language:English
Published: AIDIC Servizi S.r.l. 2012-09-01
Series:Chemical Engineering Transactions
Online Access:https://www.cetjournal.it/index.php/cet/article/view/7041
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spelling doaj-4e96d07a3d774ff79c9fb8e60301f2902021-02-22T21:05:14ZengAIDIC Servizi S.r.l.Chemical Engineering Transactions2283-92162012-09-012910.3303/CET1229045Life Cycle Management of Bioplastics for a Sustainable Future in Thailand: Sa-med Island ModelS. PetchprayulP. MalakulM. NithitanakulS. PapongP. WenununW. LikitsupinT. Chom-inR. TrungkavashirakunE. SarobolThis research aimed to evaluate the environmental performance of selected bioplastic product produced from polylactic acid (PLA) and polybutylene succinate (PBS) based on life cycle approach. Raw materials used to produce bioplastic were cassava and sugarcane and garbage bag was selected as a model product to study. The environmental performance was then compared with the same product produced from conventional plastics (HDPE, LDPE, LLDPE). The scope of the study covered the entire life cycle of the bioplastic product, including plantation, harvesting, resin production, plastic processing, product use and disposal of the bioplastic product in Thailand. Initiated as the National Innovation Agency (NIA) pilot project, Sa-med island was selected as a model to study the use and disposal of bioplastic product by composting. The functional units were 1 kg bioplastic resin and 1 kg bioplastic product. The data were compiled and analyzed using SimaPro 7.0 with the CML baseline 2000 and the Eco-Indicator 95 methods to identify the environmental burdens with a focus on global warming potential (GWP). The cradle-to-gate results showed that GWP of PLA resin was lower than GWP of conventional plastic while the GWP of PBS was higher than GWP of conventional plastic resins, but it could potentially be reduced by applying practical improvement option. When the whole life cycle environmental impact of bioplastic was considered (cradle-to-grave), the results obtained using Sa-med island as an experimental site show that the performance of bioplastic in term of GWP is better than conventional plastics and composting is an appropriate waste management to gain highest environmental benefits from bioplastics.https://www.cetjournal.it/index.php/cet/article/view/7041
collection DOAJ
language English
format Article
sources DOAJ
author S. Petchprayul
P. Malakul
M. Nithitanakul
S. Papong
P. Wenunun
W. Likitsupin
T. Chom-in
R. Trungkavashirakun
E. Sarobol
spellingShingle S. Petchprayul
P. Malakul
M. Nithitanakul
S. Papong
P. Wenunun
W. Likitsupin
T. Chom-in
R. Trungkavashirakun
E. Sarobol
Life Cycle Management of Bioplastics for a Sustainable Future in Thailand: Sa-med Island Model
Chemical Engineering Transactions
author_facet S. Petchprayul
P. Malakul
M. Nithitanakul
S. Papong
P. Wenunun
W. Likitsupin
T. Chom-in
R. Trungkavashirakun
E. Sarobol
author_sort S. Petchprayul
title Life Cycle Management of Bioplastics for a Sustainable Future in Thailand: Sa-med Island Model
title_short Life Cycle Management of Bioplastics for a Sustainable Future in Thailand: Sa-med Island Model
title_full Life Cycle Management of Bioplastics for a Sustainable Future in Thailand: Sa-med Island Model
title_fullStr Life Cycle Management of Bioplastics for a Sustainable Future in Thailand: Sa-med Island Model
title_full_unstemmed Life Cycle Management of Bioplastics for a Sustainable Future in Thailand: Sa-med Island Model
title_sort life cycle management of bioplastics for a sustainable future in thailand: sa-med island model
publisher AIDIC Servizi S.r.l.
series Chemical Engineering Transactions
issn 2283-9216
publishDate 2012-09-01
description This research aimed to evaluate the environmental performance of selected bioplastic product produced from polylactic acid (PLA) and polybutylene succinate (PBS) based on life cycle approach. Raw materials used to produce bioplastic were cassava and sugarcane and garbage bag was selected as a model product to study. The environmental performance was then compared with the same product produced from conventional plastics (HDPE, LDPE, LLDPE). The scope of the study covered the entire life cycle of the bioplastic product, including plantation, harvesting, resin production, plastic processing, product use and disposal of the bioplastic product in Thailand. Initiated as the National Innovation Agency (NIA) pilot project, Sa-med island was selected as a model to study the use and disposal of bioplastic product by composting. The functional units were 1 kg bioplastic resin and 1 kg bioplastic product. The data were compiled and analyzed using SimaPro 7.0 with the CML baseline 2000 and the Eco-Indicator 95 methods to identify the environmental burdens with a focus on global warming potential (GWP). The cradle-to-gate results showed that GWP of PLA resin was lower than GWP of conventional plastic while the GWP of PBS was higher than GWP of conventional plastic resins, but it could potentially be reduced by applying practical improvement option. When the whole life cycle environmental impact of bioplastic was considered (cradle-to-grave), the results obtained using Sa-med island as an experimental site show that the performance of bioplastic in term of GWP is better than conventional plastics and composting is an appropriate waste management to gain highest environmental benefits from bioplastics.
url https://www.cetjournal.it/index.php/cet/article/view/7041
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