FAQ

Only higher temperatures in combination with high humidity rates will lead to a quick composting. These conditions are present in industrial composting and specific municipal facilities.

In normal European weather conditions degradation will take a long time and will largely depend on the presence of heat and moisture and microorganism. If one of this 3 elements is not present the degradation will go substantially slower.

European regulations concerning biodegradation and composting: the sole reference is the European standard EN 13432, requirements made for biodegradable packing materials but commonly accepted for other types of bioplastics.

Some BIOCOVERS® qualities are tested and have the OK Compost Industrial label (TÜV AUSTRIA (formerly Vinçotte) - a certification body authorised by European Bioplastics )

These qualities were undergoing 4 different tests:

1. test on biodegradation (chemical break down of the biopolymer into carbon dioxide, water and biomass)
2. test on disintegration (physically falling apart of the product in small fragments)
3. test on ecotoxicity (test if the composted product does not exert any negative effect on plants)
4. test on heavy metals content

"Biodegradable" and "compostable" do not mean the same thing: biodegradable product may be broken down by microorganisms, but this does not necessarily imply that the product will biodegrade into good quality compost. In this way a compostable product can be more useful than a biodegradable product.

Compostability relies heavily on the environment where the product is broken down. As each environment (compost, soil, water, …) has different temperatures and microorganisms, the speed of the biodegradation process may vary from one site to another. Also the density of the different natural materials will lead to completely different life times.

- For example in our garden some vegetal plant or tree material might stay present for 10 or 20 years or more.
- The same vegetal material will compost/biodegrade quickly in in a well kept municipal compost site (temperature > 55-60°C + sufficient humidity) or industrial composting plants. Given the success of bioplastics  the development of such facilities is growing internationally.

As our biomats are requested for long term use and not for ‘shorter’ periods like 1 or 2 seasons, they are not developed to get OK compost home (disintegration of 90% of the material within 6 months) or OK biodegradable soil (disintegration of minimum 90% of the material within a period of 24  months).

The qualities with the label OK compost have a label + number.

- For the production of PLA granulate no other raw material than natural vegetal material and energy is needed
- The underlaying idea of biogranulate is ‘It comes from nature and it goes back to nature‘ :

•  For the production of PLA staple fibres and PLA nonwoven mats only energy, biobased colour additives, steam and water are needed. The main energy is electricity from own windmills.
• Biofibres and biomats can be produced on the same production lines as the ones needed for PP/PET/PA/PE… There is a low transition cost to switch the production from non-biobased to biobased products.
• In quite some cases using biofibres and biomats means a responsible material choice and is mostly a step forward in the direction of a circular economy (cradle to cradle)