Bio - Degradable Additive : BIOSPHERE
What is Biosphere?
Bio-Degradeable additive 100% active ingredient imported from USA
How does it works?
- Work in most resin (PP PE PS PET BOPP and etc.)
- add only 1% of to the batch
- no need to change the production formula
| ADDITIVEPROCESSING | PROCESSING | END PRODUCT |
| Works in most resins PE PP PS PET BOPP AND ETC |
works in most epuipment extrusion and injection |
not brake down to little pieces no microplastic |
| 100% active ingredient | not require change production process | food safe and highly stable |
| Easy to used (pallet form) | simple to use | no effect on shelf life |
| no special storage required | no need UV inhibitors | compatible in recycling |
| food contact safe | no need UV inhibitors | Certificate approve |
Grade of BIOSPHERE
- BIOSPHERE 201 J : All resin (PP PE PS PET)
- BIOSPHERE 202 : PET Thermoforming
- BIOSPHERE 203 : PET Bottle
MSDS-BioSphere-Pellet-Additive TDS-biosphere 201J
202
MSDS-BioSphere-Pellet-Additive TDS-biosphere 202
203
MSDS-BioSphere-Pellet-Additive TDS-biosphere 203
Standard & Certificate
BioSphere 201J TDS BioSphere 202 TDS BioSphere 203 TDS Biosphere Brochure Biosphere Drying Instructions BioSphere Process Guidelines for Pellet Additives FDA Compliance Letter BioSphere MSDS BioSphere Liquid 302 Additive MSDS BioSphere Pellet Additive
how biosphere works
The BioSphere Biodegradation Process
Hydrolysis, acidogenesis, acetogenesis, and methanogenesis play key roles in BioSphere’s biodegradation process. Here’s how it all works.
Hydrolysis
- In hydrolysis, the first step of the biodegradation process, water is added to break the covalent bond between the monomers that form polymers. In condensation, water is removed to bond monomers together. Because it takes energy to bond monomers into polymers, condensation reactions store energy, whereas hydrolysis releases it. Typically, reactions take this form: R1 – R2 + H2O __ R1 – O + R2 – H+
- Acidogenesis is the next step of anaerobic digestion, during which fermentative bacteria produce an acidic environment while creating ammonia, H2, CO2, H2S, shorter volatile fatty acids, carbonic acids, and alcohols, as well as trace amounts of other byproducts.
- While acidogenic bacteria consume organic matter, the resulting biomass is still too large and unusable for the ultimate goal of methane production.
- Acetogenesis is the creation of acetate, a derivative of acetic acid from carbon and energy sources created by acetogens.
- These microorganisms catabolize many of the products created in acidogenesis into acetic acid, CO2 and H2.
- Acetogens break down the biomass to the point that methanogens can step in.
- Methanogenesis is the final stage of anaerobic digestion in which methanogens use acetic acid and carbon dioxide—the main
- byproducts of the first three steps of anaerobic biodegradation—to create methane.
- This reaction can look like CO2 + 4 H2 _ CH4 + 2H2O or CH3COOH _ CH4 + CO2, but the primary methane pathway involves acetic acid.
