Abstract
Lignocellulosic biomass has been widely investigated as a natural renewable source of feedstocks to produce high value added products which can replace energy and materials obtained from non-renewable sources. Polymers are products largely employed in industry in many different applications, which nowadays are mostly produced from petrochemical derivatives, generating huge amounts of waste of difficult treatment prior to disposal. In order to replace these polymers derived from petroleum, efforts have been made in the development of biopolymers, in the biorefinery context, derived from biomass possessing physicochemical properties similar to those derived from petroleum so that they can successfully replace these materials. A review on the different types of biopolymers obtained from biomass, as polysaccharides, lipids, proteins, polyesters produced by plants and microorganisms, and other assorted biopolymers is accomplished. An evaluation of physicochemical properties and applications of different types of biopolymers is approached. It is also discussed about the degradability of biopolymers differentiating oxo-degradability and biodegradability. A brief historic background about biopolymers is also exposed.
Highlights
Energy improves the life condition and its consumption is directly related to the growth of any nation
It is estimated that 10% of total global waste is plastic, which is relevant regarding the world plastics production that has grown from 1.9 tons to approximately 330 million tons between 19502013 (SELTENRICH, 2015)
As reported by BBC RESEARCH (2014), the worldwide usage of bioplastics is expected to grow at a 41.4% compound annual growth rate (CAGR) from 2010 through 2015, reaching 3.2 million metric tons
Summary
Energy improves the life condition and its consumption is directly related to the growth of any nation. Biomass is a promise for renewable and infinite resource for chemicals, generally without competition with food industries compared to starch or vegetable oils (LAURICHESSE & AVÉROUS, 2014) By this perspective, biorefineries appear to be a solution, considering that they can be a facility, a plant, a cluster of facilities, or a process which can convert biomass into a range of products (DE JONG & JUNGMEIER, 2015). Biorefineries appear to be a solution, considering that they can be a facility, a plant, a cluster of facilities, or a process which can convert biomass into a range of products (DE JONG & JUNGMEIER, 2015) In this paper, it will be presented an overview of biopolymers made from renewable resources. The review will focus on biomass and biorefineries sources, properties and trend applications for biobased polymers using renewable resources that can replace petroleum-based polymers, such as polyester, polylactic acids, and other natural bio-based polymers
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