Life cycle inventory data for banana-fiber-based biocomposite lids.

This data article is related to the research article "Comparative life cycle assessment of coffee jar lids made from biocomposites containing poly (lactic acid) and banana fiber". The article reports the model parameters used to construct each stage and unit process inventory of the life cycle of coffee jar lids, and the subsequent inventories of the investigated system. It also contains details of calculations and descriptions of inventory uncertainties. Primary data were obtained from lab-scale and pilot-scale tests during product preparation. Secondary data collection was based on detailed review of related international and regional literature, databases and recognized web sites. The data presented here can be used by future life cycle assessment studies on natural fiber composites in packaging applications.

A literature review on life cycle tools fostering holistic sustainability assessment: An application in biocomposite materials.

Sustainability of products and services has become a compulsory requirement and an essential requirement for organizations, governments, markets and society in general. Among the various ways of measuring sustainability that have been developed, those based on life cycle thinking provide one of the frameworks for assessing the potential impacts of products and services. However, despite sustainability of triple bottom line parameters (ecological, financial and social), the life cycle assessment is the most mature and prominent available tool. In addition, integration methodologies have come up, like life cycle sustainability assessment (integrating the three sustainability dimensions) and life cycle engineering (including the technical or functional aspect). The application of these methodologies to emergent materials and technologies represents a huge challenge, because there is lack of proper indicators, lack of information and contradictory information is common. This is the case of biocomposites, built with nature-based materials harvested in a myriad of ways in several regions of the globe. So, this paper presents a systematic literature review about the research done on the realm of sustainability assessment methods application to biocomposites. It reveals knowledge and information gaps to apply these methodologies. The integration of the existing methodologies is proposed as a way to allow a holistic sustainability assessment of biocomposite materials.

Comparative life cycle assessment of coffee jar lids made from biocomposites containing poly(lactic acid) and banana fiber.

Composites containing bio-based materials, like banana fiber and poly(lactic acid) (PLA), are potential food-packaging materials. We carried out an environmental life cycle assessment (LCA) of coffee jar lids made from high density polyethylene (HDPE), PLA, and banana fiber to assess their environmental performance. We considered differences in the type of blend (content of PLA and banana fiber in the composite), origin of the banana fiber feedstock (considered as either biowaste or as a co-product from banana production) and banana fiber pretreatment conditions (either no pretreatment or pretreatment using chemicals). Irrespective of the scenario, a lid made from 40% banana fiber and equal amounts of HDPE and PLA performed significantly better in all 18 impact categories when compared to a lid made from 100% PLA. By contrast, the same lid performed significantly better in 3 impact categories only (climate change, photochemical oxidant formation and fossil depletion) when compared to a lid made from 100% HDPE. Thus, environmental performance of the biocomposite strongly depends on which polymer base is replaced by the banana fiber in the composite. Replacing PLA with banana fiber is generally expected to bring environmental benefits.