Bactériométha

Bactériométha is mixed into the substrate before methanization directly into the manure under the animals, into the effluent collection pits, and into all types of substrates. Combining it with the substrates before methanization improves the accessibility of the organic material in the digester : it is primarily fungi that break down the long carbon chains.

Its use also significantly reduces smells thanks to the bacteria that quickly reorganize ammonia nitrogen into organic nitrogen thereby reducing ammonia emissions.

Bactériométha

Bactériométha® is an additive for methanation substrates containing natural minerals and a selection of natural plants composted with spontaneous micro-organisms selected on the composts from Marcel Mézy® technologies.

PRODUCT DESCRIPTION

Bactériométha® is an additive for methanation substrates containing natural minerals and a selection of natural plants composted with spontaneous micro-organisms selected on the composts from Marcel Mézy® technologies.

Bactériométha® acts throughout the different stages of the transformation process of the organic matter and in accordance with different modes of action. As such, combining it with substrates enables better accessibility for organic matter during the initial phases of biogas production. It also enables a significant reduction of losses of elements, through leaching or gas emanation, from manure and slurry and during storage of substrates in pits or on concrete. It also boosts the release, stabilisation and balance of the digestion process

BENEFITS

  • Increased energy production
  • Better transformation of organic matter thanks to an optimised preparation of fibres
  • Improved digestion process in the digester
  • Possible savings in raw materials
  • Less energy used and less wear
  • Fewer surface crusts
  • Improved intermixing
  • Fibrous substrates more easily handled
  • Increased production of biogas and therefore electricity credits
  • Possible savings in raw materials
  • Significant reduction in losses and smells before methanization by locking-in carbon and nitrogen in the substrate under the animals and in storage.