Recycling & Waste management of Biopolymers
Biobased biopolymers offer advantages not only on the raw materials side but also on the disposal side through certain promising end-of-life (EOL) options. Especially waste disposal with energy recovery has an added benefit, which lies in gaining carbon neutral energy while allowing multiple uses after possible recycling. The Commission said that all of the composts containing biodegradable polymer materials could be classified using a risk assessment system at a higher toxicity level. Biodegradable biopolymer waste can be treated by aerobic degradation, composting, or anaerobic digestion .When biopolymers are composted or digested, their individual elements are recycled naturally, in particular their carbon and hydrogen content. The largest segment of the market, packaging, is expected to reach nearly 1.7 billion pounds in 2016. The market in 2011 is estimated at 656 million pounds, making the five-year CAGR 20.5%. The second-largest segment, made up of fibers/fabrics, is expected to increase in volume from an estimated 134 million pounds in 2011 to 435 million pounds in 2016, for a five-year CAGR of 26.6%.
- Biopolymers in plastic recycling stream
- Chemical recycling using Dry –Heat Depolymerization
- Biopolymer packing to lower carbon impact
- Environment aspects of Biopolymers
- Biopolymers in waste management
Related Conference of Recycling & Waste management of Biopolymers
Recycling & Waste management of Biopolymers Conference Speakers
Recommended Sessions
- Advanced Biopolymers
- Biodegradable polymers
- Bioinformatics
- Bioplastics
- Biopolymer Applications
- Biopolymer Companies & Market
- Biopolymers as Materials
- Biopolymers for Tissue Engineering and Regenerative Medicine
- Biopolymers in Biofibers & Microbial Cellulose
- Biopolymers in Biomedical Applications
- Future & Scope of Biopolymers
- Green Composites in Biopolymers
- Natural Polymers
- Recycling & Waste management of Biopolymers