Improvement of an Agricultural Biogas Plant
Gera, Germany
By modifying the connections of the primary and secondary fermenter as two parallel working fermenters, together with the improvement and expansion of the hydrolysis stage, the degradation efficiency and the biogas quality were significantly improved. The utilization of the CHP increased from about 50% to >97%.
Improvement of an Agricultural Biogas Plant
Parkstetten, Germany
By improving the hydrolysis stage, the degradation efficiency and the biogas quality were significantly improved. The utilization of the CHP increased from 62% to >98%. The biogas plant now works without practically any disturbances.
Optimization of Organic and Food Waste Fermentation
Erkheim, Germany
With ongoing improvements and optimization measures, the operation of the biogas plant has become stable. The CHP plant now runs smoothly at 98% full load and the operating costs were significantly reduced. All reconstruction measures were implemented and will continue without interruption of operation.
Integrated Waste Management Using Fruit Waste
Jain Irrigation Systems, Jalgaon, India
This biogas plant takes advantage of all residues obtained from their own fruit processing plant, and uses them to generate renewable energy and valuable fertilizer. This biogas plant was part of a know-how transfer project.
Biogas Plant for Herb Rests and Industrial Waste treatment
Hamlar, Bavaria, Germany
This biogas plant was built for the waste disposal of an industrial herb-drying plant. The CHPs supply heat for the drying step and the generated electricity from biogas production is fed into the grid.
Digestion of Stillage as Mono-substrate
Altheim, Bavaria, Germany
This environmentally friendly project demonstrates a future-oriented energy concept for a distillery. By using the production waste, the distiller`s wash and agricultural materials, this plant fits perfectly to the idea of recycling management. This plant was in operation from 1998 until 2012, when the distillery closed
Organic Waste and Food Waste Fermentation
Erkheim, Bavaria, Germany
The organic waste digestion plant was built in 1998 as a supplement to the existing composting facility. In recent years the operation of the plant has been steadily improved, optimized and pushed forward.
Biogas Plant for Waste from Poultry Farms and Slaughterhouses
Saxony-Anhalt, Germany
Technological highlights of this biogas plant are the sanitation stage, a separated hydrolyzation stage, separation of non-fermentable and recalcitrant components like sand and wood, the high-performance fermenter and the efficient biogas treatment system.
Agricultural Energy Crops feeding a 716 kWel Biogas Plant
Lower-Saxony, Germany
This NaWaRo (renewable ressources) biogas plant was designed and planned in cooperation with our North-German partner Energie + Konzept, Hamburg.
The biogas plant was built on arable land within a water protection area at the periphery of the village Wohlsdorf. Therefore, a development and land use plan was first created. The location was chosen for its close vicinity to the fields in order to avoid long transport distances of the field crops used as input material for the biogas plant.
Agricultural Biogas Plant
Hokkaido, Japan
This agricultural biogas plant, incorporated into a dairy farm in Kushiro, Hokkaido in northern Japan, was built by our licensees as part of a know-how transfer agreement. The biogas plant was designed, constructed and put into operation in close collaboration with our partner.
Semi-mobile Small Biogas Plant
Kyushu, Japan
The educational purpose of this biogas plant as a test and demonstration plant allows it to be assembled and dismantled within one day and can be transported on a trailer to the respective workplace.
Practical Experience with a Waste Biogas Plant
Erkheim, Bavaria, Germany
This biogas plant in Erkheim is an example of an optimized processing plant, operating with for organic waste with food leftovers.