In larger public buildings – such as schools, hospitals and government offices – the domestic water, heating and cooling systems are like the hidden beating heart and circulatory system of a building. If the flow slows down, the performance starts to suffer.
Beneflow keeps pipes in good condition and water cleaner. In new buildings, Beneflow ensures that no harmful contaminants can build up in the system. In older buildings, Beneflow removes build-up, restores system performance and puts off electrical and plumbing repairs for years. This saves both energy and maintenance costs – and nature is grateful.
In a domestic water system,
Beneflow dissolves accumulated deposits in pipes, extending the life of domestic water piping and fixtures and significantly reducing the need for maintenance and repairs. The water flow remains stable and the system works as intended.
In a heating system, Beneflow improves heat transfer and ensures that heat is evenly distributed to all rooms. A clean system reduces energy consumption and extends the life of controls and heat exchangers. Underfloor heating distributes heat more efficiently and evenly, improving comfort.
In geothermal and air-to-water heating systems, Beneflow prevents precipitation build-up, which keeps the heating output at the designed level and prevents the need for expensive additional heating systems. System maintenance intervals are extended and service life is increased by keeping heat exchangers and pipework clean.
In a cooling system
The sediments and biofilm that form in cooling systems significantly increase energy consumption and provide a good breeding ground for bacteria. Through the air ducts, bacteria can then spread indoors, for example as a result of a small seal leak. Cooling towers, on the other hand, can spread legionella and other bacteria into the environment – a risk that should be taken seriously. Beneflow eliminates legionella and other common bacteria effectively and quickly. This helps to keep the system free of precipitation and biofilm, and there is no longer a breeding ground for bacteria. This keeps the problem under control, even before it gets started. You’ll also save up to tens of percent on cooling energy costs.
Precipitates cause blockages in piping, heat exchangers, hot water boilers, mixers, etc. in water equipment. Significantly increasing the need for maintenance and shortening the life cycle of systems.
Premature plumbing repairs will have to be carried out, sealing surfaces of water fixtures will be damaged, and the need for maintenance of household appliances will also increase significantly.
Precipitates are a very effective insulating layer. On clean heat transfer surfaces, heat is transferred as efficiently as designed, but on insulating layers due to precipitation, energy consumption can, in fact, double.
Corrosion and oxidation develop much faster underneath the precipitates than in clean pipes, so when the precipitates are dissolved out, the progression of corrosion and oxidation is halted, and water pressure, among other things, improves. The condition of the piping often also allows for years/decades of trouble-free operation.
The device dissolves precipitates and oxidation from radiators and valves. As a result, heat is distributed more evenly and radiator valves do not get stuck due to scale and oxidation.
Oxidation and precipitation prevent valves and thermostats from functioning properly. Thousands of valves are unnecessarily replaced every year, because in most cases cleaning them would be a sufficient solution.
Yes and no. Most of the water used is used for washing and other domestic purposes. On average, 2 litres of water per person is used for drinking and cooking. Precipitates are very fine mineral particles that dissolve and cannot be seen with the naked eye. These particles, dissolved in drinking water, but are formed from minerals naturally present in the water.
Yes, a lot of research has been done. International studies have shown that the technology changes the crystal structure of minerals and allows deposits to be removed from pipes through water use.
The new systems are not so much about generating savings, but keeping them clean to keep energy consumption at the level it was designed for. In a number of sites, the dissolution of precipitates in older systems has resulted in savings of 10-20%, and in the best cases, even more.
Very large. When calculating the life cycle carbon footprint of a building, the greatest carbon footprint reduction is due to the significantly longer life cycle of plumbing and water circulation systems. Calculating this, it can be said that one out of every three plumbing renovations is not carried out, which in itself is a very significant reduction in the lifetime carbon footprint of a building. Add to this the 10-20% reduction in energy consumption of water-loop systems and the reduced need for maintenance, and it is reasonable to assume that this is one of the most cost-effective ways to significantly reduce the carbon footprint of a property.
From us instructions received athe installation is done in a few hours per person. device. Installations are able to also to agree on times when the disruption will be fixed, andfor users of the service is minimised.
1. Significantly reduce maintenance and repair costs for water heating systems
2. Extend the life of pipelines by up to 20 years
3. Bacteria are effectively eliminated
4. Improved water flow and livability
5. 20% energy savings on average when cleaning the heat exchanger, both in heating and cooling systems
6. Radically reduce your carbon footprint
Go with the Flow and Take the Benefits
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