Integrated steam drying and pyrolysis of sludge
With AquaGreen’s patented, groundbreaking technology you dry and pyrolyse your sludge or wet biomass by using the energy of the biomass itself. This is possible due to the unique integration of steam drying and pyrolysis. Hence you turn your wet biomass into a resource.
As the process is continuous and fully automated, you need minimal manpower for operation. The technology is developed and patented in close collaboration with DTU, Technical University of Denmark.
As the process is continuous and fully automated, you need minimal manpower for operation. The technology is developed and patented in close collaboration with DTU, Technical University of Denmark.
Innovations & solutions
AquaGreen
Our unique patented steam drying & pyrolysis technology up-cycles biomass, like sewage sludge or manure, into renewable thermal energy, soil improving biochar or activated carbon. The process eliminates all organic pollutants, captures atmospheric carbon in biochar and stop greenhouse gas emissions from the biomass, thereby helping protect our climate. The solution treats sludge from 50.000 PE.
Category: Innovation not to market yet
Products
HECLA® Setores 1.000
Integrated steam drying and pyrolysis
Integrated steam drying and pyrolysis
Capacity and size :
HECLA® Setores 1.000 treats ca. 1.000 tons of sludge per year (on dry matter basis). The largest single component measures approx. 3.5 x 10,5 m.
The total size is 15 x 11 x 4.3 m (L x W x H) excluding feeding and receiving systems.
Operating parameters (example):
The system’s capacity depends on the energy content and the dry matter content of the biomass.
With a feed rate of 650kg/hour the annual feed is 5.200 ton. At 22% dry matter this is equivalent to 1.100 tons dry matter/year at
HECLA® Setores 1.000 treats ca. 1.000 tons of sludge per year (on dry matter basis). The largest single component measures approx. 3.5 x 10,5 m.
The total size is 15 x 11 x 4.3 m (L x W x H) excluding feeding and receiving systems.
Operating parameters (example):
The system’s capacity depends on the energy content and the dry matter content of the biomass.
With a feed rate of 650kg/hour the annual feed is 5.200 ton. At 22% dry matter this is equivalent to 1.100 tons dry matter/year at
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