Quantity | 100000 - 9999999 |
Price | Customized Quotation |
MOQ | 100000 pcs |
Port | shanghai |
Packaging | carton |
Lead Time | 25-35day |
Biodegradable | yes |
What is anaerobic
biodegradation technology?
Anaerobic Biodegradable Technology (ABT for short) Based on
polymer material science, we have designed an anaerobic
biodegradable "yeast" composite system by integrating the
classical technologies of microbiology, biochemistry,
electrochemistry, and Chinese medicine. system. Starting from the
creation of symbiotic effect between plastics and anaerobic
microorganisms in an open environment, we constructed an
anaerobic facilitator system composed of multi-species probiotic
materials that can rapidly enrich microorganisms and provide a
suitable environment for their survival, and at the same time,
formed a complete anaerobic biodegradation ecosystem with an
electron donor, a carbon source, a nitrogen source, a source of
energy, inorganic salts, and water. In the production process of
plastics, the degradation "yeast" composite system is implanted
into the material structure or molecular structure of plastics to
complete the degradation transformation of plastics.
Definition of anaerobic biodegradation: the microbial
transformation process that converts the main components of
plastics into methane, carbon dioxide, a small amount of ammonia
(e.g., nitrogen) and mineralized inorganic salts, etc., under
anoxic or anaerobic conditions.
Advantages of Anaerobic Biodegradation Technology:
It is a kind of technology to modify traditional plastics
(PE/PP/PET/PA/PVC) into anaerobic biodegradation technology,
which caters to the strategy of "white pollution" control of
traditional plastics by the plastic ban;
1,It has the mechanical properties and application scenarios that
are basically the same as those of traditional plastics, and it
has the absolute cost advantage over PLA/PBAT;
2,Directly apply the production process and equipment of
traditional plastics without additional investment;
3, meet the technical requirements of the European Community
(SAM) for biodegradation in the open environment of nature; 4, is
leading the development of group standards for anaerobic
biodegradation of industrial, postal fast packaging, FMCG and
mulch to fill the gap.
The most ideal degradation state: municipal landfill.
Building 1, No.199 Hongxi Road, Wujin District, Changzhou City, Jiangsu Province, China