e.g. large sewer system cleaners, non-stop vacuum cleaners, small vehicles, etc.
As a pioneer of water recycling, Wiedemann has managed not to make any compromises, even with the 1-Tank System. The high demands on water quality from the proven filter-free, physical Wiedemann water recycling was implemented by flow zones specially developed for the 1-Tank System. The medium is accelerated or decelerated in zones/areas provided for this purpose. This creates a controllable and highly effective sedimentation effect. The system is completed with a high-performance cyclone system for multiple centrifugations. This is what makes the WIEDEMANN 1-Tank water recycler unique and ingenious. With its water recycling system that can be sealed off completely , it is the Generalist among recyclers, which can be used quickly and easily for all kinds of work without any effort.
Due to excellent water quality, the recycling water can also be used as operational water for Wiedemann liquid ring pumps. This ensures an even operating temperature all year round for maximum suction performance. A separate operational water tank, cooler and antifreeze can thus be dispensed with in favour of payload and environmental protection.
This is what the filterless original Wiedemann water recycling stands for. The physical principles of gravity separation and centrifugation are implemented here in a highly effective manner. The large, continuous, flat base of the separate water tank offers the prerequisite for maximum sedimentation. The built-in multi-chamber system accelerates the cleaning process via multiple sedimentation and exploits its high quality. High-performance cyclone systems are integrated into the cleaning cycle at several points and supplement the recycling process with multiple centrifugations. This ensures the excellent Wiedemann water recycling quality, which is unique on the market and does not show any greater wear than fresh water for the usability of the HP pump. Due to the excellent water quality, the recycling water can also be used as operational water for Wiedemann liquid ring pumps. This ensures an even operating temperature all year round for maximum suction performance. A separate operational water tank, cooler and antifreeze can thus be dispensed with in favour of payload and environmental protection.
The physical principles of gravity separation and centrifugation are most efficiently engineered in the Super 3000's two-tank, filter-less, auger-discharge water recycler. The large, continuous, flat base of the separate water tank offers the prerequisite for maximum sedimentation. The built-in multi-chamber system accelerates the cleaning process via multiple sedimentation and exploits its high quality. High-performance cyclone systems are integrated into the cleaning cycle at several points and supplement the recycling process with multiple centrifugations. This ensures the excellent Wiedemann water recycling quality, which is unique on the market and does not show any greater wear than fresh water for the usability of the HP pump. Due to the excellent water quality, the recycling water can also be used as operational water for Wiedemann liquid ring pumps. This ensures an even operating temperature all year round for maximum suction performance. A separate operational water tank, cooler and antifreeze can thus be dispensed with in favour of payload and environmental protection.
Due to the optimal use of space in the 2-Tank design, all components of the physical Wiedemann water recycling technology are compactly and effectively placed here. The multi-chamber system in the separate water tank, in connection with the multiple centrifugal separation in the cyclone systems, offers optimal recycling conditions for the best water quality. It is also particularly worthwhile here that the recycling water can also be used as operational water for the Wiedemann liquid ring pumps, so that the elimination of a separate operational water tank, cooler and antifreeze not only protects the environment, but also saves a considerable amount of weight in favour of the payload.