- Hydrolysis: Inside the process module fresh waste is sprayed with degasified percolate drawn from the biogas reactor. This induces bacterial hydrolysis, leaching out fatty acids. Percolate is drained from the bottom of the process module, effectively separating the waste into dry and wet fractions.
- Methane production: The wet fraction (the percolate), with its content of fatty acids, is pumped back to the biogas reactor where methane production takes place, physically separated from the solid waste fraction. Steps 1 and 2 are continued as long as the percolate has potential for methane production.
- Composting: When the potential for methane production has decreased, the process module switches to forced ventilation (negative aeration) of the remaining solid waste. Aeration rapidly initiates a highly effective composting process. Heat from the composting ensures complete sanitization and evaporation of excess humidity.
During all 3 steps, the process module remains closed. No solid waste is moved, with only fluids and air circulating between the process module and the gas reactor in a closed system. The system design ensures that the processes of hydrolysis, percolation, methane generation and composting are separate and occur rapidly and extremely efficiently. There is no need for inoculation using earlier processed material to start fresh batches. This insures full traceability. The process is self-sustaining and there is no need for heating to start the process.
Aikan Technology optimizes transformation processes that occur naturally in the decomposition of biological waste and makes sure that the outputs can be captured, upgraded and turned into valuable resources that can be recycled. The unique design of the Aikan process allows for the use of reliable and readily available standard technology.
The term “Dry AD” can be a little confusing as the process as such is not dry. “Dry AD” means that the solid waste is handled in solid form whereas “Wet AD” means that the waste is made into a pulp. For further information on “dry” and “wet” anaerobic digestion, please consult this comparison.