The main problem with wells is the presence of iron, manganese and hydrogen sulfide. Therefore, systems are develop! in such a way as to effectively remove these harmful impurities:
Iron removers. Water entering the system passes through the structural elements, iron enters into a chemical reaction and precipitates.
If the unit fails to cope with the task, the device is additionally equipp! with a device that doses the oxidizer. This how to quickly “fit” crm into your work processes adds a special reagent to the liquid that oxidizes the iron, after which it is completely remov!.
A dosing station helps combat hydrogen sulfide
In this case, a special substance is also us! that oxidizes hydrogen sulfide, after which it is remov! from the water through a filter system.
Aeration is no less effective—creating excess pressure that helps displace light hydrogen sulfide.
Manufacturers also do not forget about the ne! to soften well water:
The most common option is a softener that works on ion exchange. The liquid entering the system passes through a special resin, as a result of which calcium and magnesium are replac! by sodium.
You can also consider reverse osmosis can today’s ai make art? equipment. A rarely us! variety. The reason is the high cost, while the device operates using a similar technology to a conventional liquid softener.May 10, 2021
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Health
The water bodies of our planet contain several thousand different microorganisms in america email waters, and not all of them can be dangerous to humans. Most of them perform many useful functions to maintain the normal functionality of the reservoir and clean it. They are conventionally classifi! as follows:
Cyanobacteria: are present in every body of water they account for more than half of all microorganisms;
Microorganisms: fully or partially pathogenic
Conditionally safe organisms: they can be found in water and not cause any diseases in humans.