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2. NO CHEMICALS 
3. NO ELECTRICITY 
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WHY CHOOSE US?


The main advantage of our filters over other filtration systems is the Self-Cleaning string-membrane filter element. It has the most efficient and reliable design for practical water purification: a body of the filter cartridge is coated with pure nano silver then on the body we use an ultrathin stainless steel string that goes around the filter cartridge frame in a special way on the body of the filter element and a biomagnetic water structurer that is inside of the filter element.
SERUS water filtration systems for water purification has 4 types of cleaning in one filter housing:
1.Mechanical cleaning
2.Bactericidal cleaning
3.Sorption water purification
4.Biomagnetic water treatment


Suitable for following Industries.


|| Oil Refinery || Pivot Irrigation || Landfill - Leachate || Artificial Snow || Mining Industry || Agricultural Irrigation || Power Generation and Hydroelectric Dams || Landscaping & Golf Course Irrigation || || || Fish Farms || Paper Industry || HVAC Systems || Grey Water Applications || Sea Water Filtration || || Cooling Towers; Side Stream and Full Flow Applications || UF and Reverse Osmosis Protection || || Ballast Water Filtration || Oil Industry || || Surface Water Filtration || Well Water Filtration || Steel Industry || Nozzle Protection || Heat Exchanger Protection || Plastics Industry || || Automotive Industry || Washing & Recirculation || Water & Wastewater Treatment Plants || Textile Industry || Food Industry || Chemical Industry || Koi Pond

Domestic Water

Agriculture Water

Animal Farming Water

Industrial Water





UPDATES ARCHIVE


Clean filtered water with nanotechnology water filter system for home,commercial & Industrial use.


Terrestrial water storage TWS

Terrestrial water storage TWS includes all phases of water over land in example surface and groundwater, snow, etc.) and comprises an important freshwater resource. It is a critical component of the terrestrial water cycle, so reliable TWS decadal prediction would be beneficial for a sustainable water resources management, especially in a changing climate.Hydrological predictability mainly comes from two sources: The memory in initial hydrological conditions and the predictability of boundary meteorological forcings." says Prof. Xing Yuan from Institute of Atmospheric Physics at Chinese Academy of Sciences. "Scientists have been debating whether more efforts should be devoted to improving the accuracy of initial hydrological conditions or to decadal climate forecasts. And we still don't know the TWS baseline forecast skill that considers the dynamical forecast skill from the state-of-the-art climate models."Yuan and his Ph.D. student Enda Zhu provide a new perspective to tackle these issues, now published in Nature Communications. They find that incorporating the current decadal climate prediction would significantly improve the baseline skill of TWS prediction over more than 25 percent of global river basins at one to four years lead time, and up to 47 percent for river basins at seven to 10 years lead time.They performed 2,200-year global land surface hydrological ensemble simulations, and used a skill elasticity framework to analyze the impacts of two predictability sources with various degrees of uncertainties to the TWS decadal predictability over 32 global major river basins. Furthermore, they obtained a new TWS benchmark skill by considering decadal climate prediction skill with the elasticity framework, which is "a new norm to assess whether different strategies for future upgrades in the climate-hydrology approach are beneficial for decadal hydrological prediction," according to one of reviewers.The result suggests that improving observation to reduce the uncertainty of initial hydrological conditions is an effective way to improve TWS prediction over arid and semiarid regions at one to four years lead. However, with the growth of lead time, improving the accuracy of boundary conditions gradually plays a key role in the improvement of TWS decadal prediction. Compared with the skill from the traditional hydrological forecast that is based on the initial memory, the new benchmark skill is significant higher over 25 percent basins at one to four years lead, and up to 47 percent basins at seven to 10 years lead."The benchmark skill estimated in our study can be regarded as a new reference for verifying the usefulness of decadal hydrological forecasts, regardless of using complicated dynamical or statistical downscaling approaches. This paper analyzed TWS decadal predictability and benchmark skill, but it can be applied to other hydrological variables (e.g., streamflow, soil moisture) from sub-seasonal to decadal time scales." says Yuan.

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Salt Free And Chemical Free Anti Scale System

The water treated by the magnetic field does not acquire any side-effects that are harmful to human health and do not significantly change the salt composition, preserving the quality of drinking water. The use of other methods and technologies of water treatment is associated with an increase in material costs and problems with utilization of chemical reagents used in the course of water treatment (most often acids). In this case, often it is necessary to invest additional material costs, change the operating mode of heat devices, apply special chemical reagents, change the salt composition of the treated water, etc.Ion-exchange water softeners use Na + cation exchangers, which are regenerated after cationing with a solution of sodium chloride (NaCl). This creates problems for the environment due to the need to recycle washing water with a high content of sodium salts. Water is softened also with the help of reverse osmosis membrane filters, conducting its deep desalination. However, this method is less common because of the high cost of reverse-osmosis installations and the limited resource of their operation. Magnetic treatment of water is devoid of the above disadvantages and is effective in the treatment of calcium-carbonate waters, which constitute about 80% of all waters of Russia and the CIS. The fields of application of magnetic water treatment in heat power engineering cover steam boilers, heat exchangers, boilers, compressor equipment, engine and generator cooling systems, steam generators, hot and cold water supply networks, centralized heating systems, pipelines and other heat exchange equipment. Taking into account all these trends and prospects for the use of structured magnetic water treatment in many industries, it is currently relevant and promising to develop new and improve existing technologies for magnetic water treatment to achieve higher efficiency and operation of magnetic water treatment devices in order to more fully extract the hardness salts from water and increase the resources of their work.Visit our products page to learm more about magnetic water structurer systems, contact us anytime with any questions!

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Water Softening Without RO or Ion Exchange Alternative

  The high content of salts of hardness makes water unsuitable for household needs, and untimely cleaning of heat exchangers and pipes from scale in the form of carbonate, chloride and sulfate salts Ca2 +, Mg2 + and Fe3 + leads to a reduction in the diameter of the pipeline, which leads to increased hydraulic resistance. The reduction of resistance negatively affects the operation of heat exchange equipment.Scale has a coefficient of thermal conductivity is much lower than the metal from which the heating elements are made, so more time is spent on heating the water. Over time, energy losses can make the heat exchanger work on such water ineffective or completely impossible and can lead to an accident. With a large thickness of the inner layer of scale, water circulation is disturbed.In boiler plants this can lead to overheating of the metal, and, ultimately, to its destruction. All these factors lead to the need for repair work, replacement of pipelines and sanitary equipment and requires significant capital investments and additional cash costs for cleaning heat exchangers.   The high content of salts of hardness makes water unsuitable for household needs, and untimely cleaning of heat exchangers and pipes from scale in the form of carbonate, chloride and sulfate salts Ca2 +, Mg2 + and Fe3 + leads to a reduction in the diameter of the pipeline, which leads to increased hydraulic resistance. The reduction of resistance negatively affects the operation of heat exchange equipment. Scale has a coefficient of thermal conductivity is much lower than the metal from which the heating elements are made, so more time is spent on heating the water. Over time, energy losses can make the heat exchanger work on such water ineffective or completely impossible and can lead to an accident.   With a large thickness of the inner layer of scale, water circulation is disturbed; in boiler plants this can lead to overheating of the metal, and, ultimately, to its destruction. All these factors lead to the need for repair work, replacement of pipelines and sanitary equipment and requires significant capital investments and additional cash costs for cleaning heat exchangers.   In general, magnetic treatment of water reduces the corrosion of steel pipes and equipment by 30-50% (depending on the composition of the water), which makes it possible to extend the life of heat energy equipment, water pipes and steam pipelines and significantly reduce the accident rate.   Magnetic treatment of water in comparison with traditional methods of water softening by ion exchange and reverse osmosis is technologically simple, economical and environmentally safe.Magnetic treatment of water reduces the corrosion of steel pipes and equipment by 30-50% (depending on the composition of the water), which makes it possible to extend the life of heat energy equipment, water pipes and steam pipelines and significantly reduce the accident rate. Magnetic treatment of water in comparison with traditional methods of water softening by ion exchange and reverse osmosis is technologically simple, economical and environmentally safe.

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scale prevention in cooling towers

Structured Water Treatment:The physical effect of the magnetic field on the structure of water and cations of hardness salts opens up wide opportunities for the use of structured magnetic water treatment. Structured magnetic treatment of water is widely used for many years in various industries, agriculture and medicine. The great prospects for using magnetic treatment and in water treatment for water softening, as the acceleration of the process of crystallization of scale-forming salts in water under magnetic treatment, leads to a significant decrease in the concentrations of Ca2 + and Mg2 + cations dissolved in water due to the crystallization process and the reduction in the size of crystals precipitated from heated water, subjected to magnetic treatment. To remove from the water difficultly deposited thin suspensions (turbidity), the ability of structured magnetized water to accelerate coagulation (clumping and precipitation) of suspended particles with subsequent formation of a fine sediment is used, which facilitates the extraction of various kinds of suspensions from the water. Magnetization of water can be used at waterworks with significant turbidity of natural waters; similar magnetic treatment of industrial wastewater allows quickly and efficiently precipitate fine impurities.Magnetic treatment of water helps not only to prevent the precipitation of scale-forming salts from water, but also to significantly reduce the deposits of organic substances, for example, paraffins. Such treatment is useful in the oil industry in the production of high paraffin oil, and the effects of the magnetic field increase if oil contains water. The most demanded and effective magnetic treatment of water was in heat exchangers and systems sensitive to scale - in the form of steam boilers, heat exchangers and other heat exchangers of solid hydrocarbonate deposits (calcium carbonate Ca (HCO3) 2 and magnesium Mg (HCO3), formed on internal walls of pipes) ) 2 with the heating of water decomposing to CaCO3 and Mg (OH) 2 with the release of CO2), sulfate (CaSO4, MgSO4), chloride (MgSO4, MgCl2) and to a lesser extent silicate (SiO3 2-) salts of calcium, magnesium and iron.VISIT OUR PRODUCTS PAGE ON MAGNETIC WATER STRUCTURERS TO LEARN MORE!Please visit aterfilter.com/Structured-Water-Devices/12

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What do doctors, scientists and professors around the world have to say about structured water treatment?


Clean filtered water with nanotechnology water filter system for home,commercial & Industrial use.


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