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Digester gas/biogas is effectively treated before recovery
Sludge thickening / sludge dewatering / sludge drying
To increase energy efficiency and reduce the quantity of sludge
By intelligently coupling several double-pipe heat exchangers, the waste heat of the digested sludge and biogas in digester gas plants is used to preheat the raw sludge
Effective dosing technology in accordance with waterpurification plant requirements
Chemical deacidification is carried out by means of a filtration process using filter material that is consumed during the process, e.g. Juraperle (calcium carbonate)
Mechanical deacidification is achieved by blowing air through flatbed aerators
Effective cleaning or softening of different qualities of water from different sources
Installation of UV units for chemical-free disinfection of drinking water
Installation and commissioning of ion exchangers for the removal of heavy metals in water purification plants, charging and converting resins from Na-form to Ca-form
Intelligent, dynamic, wastewater load and quantity-controlled SBR technology
Achieving the required treatment targets with minimum consumption through intelligent linking of mechanical engineering and automation
Highly effective membrane filtration process as an alternative to the conventional activated sludge process
Process and energy-optimised activated sludge process with dynamic process controls resulting in maximum elimination rates with minimised operating costs
Eco-effective phosphorous recycling of wastewater containing phosphorous for cost-effective use of the nutrients in agriculture
Salt load reduction of highly saline industrial wastewater by using the innovative electrodialysis process
Application-optimised anaerobic wastewater treatment and energy recovery with efficient pre and post-treatment
Filter units are often the main component of water treatment plants and fulfil various treatment functions