All you need to know about biodegradable ...
Biodegradability is the natural process of decomposition of organic matter. There are 4 contributing elements: humidity, oxygen, temperature and micro-organisms.
The Process :
Bio-fragmentation: : Fragmentation of the material by biological means.
Bio-assimilation : reabsorption of molecules or molecular fragments through the metabolism of micro-organisms.
Mineralization : Transformation of the primary elements of the material into CO2 and/or CH4, H2O and new biomass.
This is how the material is reassimilated by and into the ecosystem.
Composting is the purposeful optimization of the biodegradation process. This consists in triggering and maintaining, in the most effective possible conditions, a process that happens spontaneously in nature.
Composting can happen at the industrial level in a composting station (OK Compost label), it can happen naturally (OK Biodegradable label) and it can happen at the level of the individual household (OK Home Compost label).
Biopolymers are a kind of polymers that exist within or that are synthesized by living organisms. Of particular interest are those that can be extracted from renewable resources (natural resources that can be replenished at the same rate as they are consumed) and used in the manufacture of bioplastics.
Bioplastics are a new class of materials derived from biopolymers found in renewable plant resources. Some but not all of these new materials are designed to biodegrade. When they are intended to be biodegradable, they need to meet strict quality and performance levels to be in conformity with the EN 13432 standard.
Biodegradability also confers upon the material the ability to be reclaimed or discarded in the same way as natural organic matter. Flexibility regarding the end of lifecycle disposal is made possible by the organic origin of the material's carbon component.
These properties make a critical difference regarding earth-bound and marine accumulation of discarded bags in the environment.
The potential for growth in the use of these materials is high but bioplastics are not at this time suitable for all applications and it remains unlikely that they will entirely replace conventional plastics in the foreseeable future.
A material is called biodegradable if, when it is degraded by microorganisms, the result is the output of water, of CO2 and CH, and eventually of by-products that are not toxic for the environment such as new biomass. This definition is found in at least 5 of the applicable standards (ISO, CEN). (ADAME 2005).
Biodegradable plastics are materials that conform with this definition and with the NF EN 13432 standard for bioplastics.
Not if they meet the NF EN 13432 standard of July 2000.
This standard defines the biodegradability and composting criteria applicable to packaging in Europe. All materials meeting the requirements of this standard are deemed biodegradable and compostable.
It is important to make a distinction between a material that is recyclable and one that is actually recycled. To be recycled, a recyclable material must first be collected and sorted. Consequently, most recyclable products are not currently recycled because of difficulties with post-use collection and sorting.
That said, bioplastic packaging materials meeting the NF EN 13432 are recyclable in addition to being biodegradable and compostable.
Typically, those plastics called oxo-degradable or even sometimes oxo-biodegradable are merely conventional plastics based on fossil fuels that have been laced with oxydating additives. While this augments the speed at which they breakdown in the environment, the process still releases the same toxic agents.
These plastics are not made of plant based materials and do not meet the requirements of the NF EN 13432 standard.
What the French Energy Transition Law say ?
From the 1st July 2016 : Plastic bags of plastic containers with a thickness of less than 50 microns, whether free or paid, are all prohibited (including biodegradable bags).
From the 1st January 2017 : the ban shall be extended to thin bags not recoverable by domestic composting (single-use plastic bags, less than 50 microns thick), intended for the packing of goods at the point of sale, other than carrier bags (in particular the bags distributed in supermarket shelves: fruits and vegetables area, delicatessen area, fish area, etc.).
The biosourced content of permitted compostable plastic bags of plant origin must increase progressively:
- 30 % in january 2017,
- 40 % in january 2018,
- 50 % in january 2020,
- 60 % in january 2025.
- Chemically degradable (biodegradation) and physically (disintegration)
non toxic (do not produce toxic elements by degrading)
- Non - toxic (do not produce toxic elements by degrading)
The best alternative for waste reduction is obviously reusable .
To replace carrier bags, reusable bags appear as a durable alternative because the material itself encourages the user to value, not throw away and reuse them. In addition, they are strong, light and can be washed.
BAGHERRA has developed a range of reusable bags such as pocket bags (polyester bags) or polypropylene bags. Do not hesitate to contact us for any personalized request.
Thicker plastic bags can also allow multiple uses due to improved strength. BAGHERRA offers a range of bags made of recycled plastic. 80% of the material used for production comes from post-consumer waste and internal production waste.
Finally, paper bags remain a viable alternative, although life cycle analysis shows a rather negative environmental impact.