BIOaccelerator – Maximized methane yield through optimal cell lysis

Before treatment with the BIOaccelerator
Before treatment with the BIOaccelerator
After treatment with the BIOaccelerator
After treatment with the BIOaccelerator

Whether by extrusion, compression, pressing, impact or temperature: the various types of the BIOaccelerator split the cell wall of the biomass in order to benefit from otherwise unused substrate ingredients, to break them down and to make the gas yield accessible. In addition, the BIOaccelerator is the ideal technology for the overhaul, "the re-powering" of existing plants.


  • BIOaccelerator r – Maximized methane recovery through optimal cell splitting using the impact reactor.

    BIOacceleratorr – Maximized methane recovery through optimal cell lysis using the impact reactor.


  • BIOaccelerator s – Maximized methane recovery through optimal cell splitting using the extruder

    BIOaccelerators – Maximized methane recovery through optimal cell lysis using the extruder.

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  • BIOaccelerator z – Maximized methane recovery through optimal cell splitting using the cross-flow shredder

    BIOacceleratorz – Maximized methane recovery through optimal cell lysis using the Impact-Crusher.

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The BIOaccelerator can process the most varied substrates. By breaking up the cell structure of the input material the surface area available for bacteria to act on increases, which enables hard to ferment materials to be used in biogas plants. This means increased flexibility when selecting input substrates and enables the operator to use inexpensive, seasonal products.

The methane yield is increased, saving biomass and allowing the Biogas power plant to be operated more economically. In addition, the storage period in the fermenter is shortened and the specific organic loading space is increased, the volumes of the containers are therefore designed to be smaller and investment costs can be reduced. By preparing the biomass, the formation of floating layers in the containers can be prevented, significantly reducing the agitation effort and the power consumption of the plant.


BTS Biogas plants achieve the highest biological benefits
1,0 MWelplant KTBL* B.T.S.** Difference
Input (t/a silage corn) 19,500 14,500 -5,000
η-BIO (in %) 61 82.5 +35

* KTBL = Association for Technology and Structures in Agriculture
** η - BIO = Biological performance

WITH A 1.0 MWel BTS BIOGAS PLANT, YOU CAN SAVE APPROX. 5,000 T/A SILAGE CORN!


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BIOaccelerator


BIOaccelerator

BIOaccelerator

New American Sharholders in BTS Biogas

US Investor Group Acquires Large Minority Stake
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