Pressure boosting systems
5 Products
Since pressure is removed from the water during the reverse osmosis process, particularly large osmosis systems require additional pressure boosting systems that increase the pressure of the cleaned water. This is particularly important for further processing. In most cases it is also advisable to install a tank between the system and the pump as an intermediate storage facility.
You may also be interested in
Fittings/FaucetsErsatzfilter & Membrane
Storage tanks
Assembly & maintenance
Vorfilter-Sets
Latest Reviews
Latest Questions
Product: GUTZZI under-sink reverse osmosis system
Answer: Precisely because the system is very compact, changing the filter is relatively uncomplicated. You turn off the water and can then place the entire system on the sink or take it outside. Only the water that is in the hoses comes out.
Product: LOWARA small pressure booster system BGM 9/A
Answer: The pump can be used for this without any problems. We would be happy to advise you on this, including regarding storage tanks etc.
Product: ZIP reverse osmosis system
Answer: The question is not easy to answer, generally the ratio is 50/50. Since you don't have to empty the water (it collects back in the container) but only fill it up with new water, you can continue to process the other 50%. Only after the 10th run should you refill the basic tank.
Product: REOS Plug & Play reverse osmosis system with softening system
Answer: Basically, you can connect the system as it is delivered to the water, wastewater and electricity and produce water directly. We also offer various accessories such as storage tanks if necessary. That depends on your requirements. We would be happy to create an individual offer.
Product: REOS Plug & Play reverse osmosis system with softening system
Answer: This depends on the respective model. Here are a few calculations (under optimal conditions): The model with an output of 150 l / h needs almost 7 hours for 1 m³ of water with a power consumption of 0.5 kW. This corresponds to approximately 3.6 kWh per m³. The model with 300 l / h output therefore needs approx. 3.5 h for 1 m³ of water with a power consumption of 0.65 kW. This corresponds to approximately 2.16 kWh per m³. The model with 600 l / h output, on the other hand, needs less than 2 hours for 1 m³ of water with a power consumption of 2.2 kW. This corresponds to approximately 3.6 kW per m³.