WATER ETECH SOLUTIONS
Frequently Asked Questions
How can WTS solve such an odor issue?
Cationized water by WTS can make such tiny flocks into a mass of flocks without using flocculation agent since WTS water is positively charged so that it can absorb tiny flock which is negatively charged efficiently. To remove bad odors, such a mass of flock needs to be removed ideally by a clarifier or a charcoal filter which should be installed after WTS device. Thus, a mass of flock can be removed so that bad odor should be able to be eliminated.
How can WTS remove ammonia odor?
WTS treated water is cationized water (positively charged) and therefore, it can absorb Oxygen so easily and as a result of it, DO (dissolved oxygen) can increase which could lead to the proliferation of aerobic bacteria. Increased number of aerobic bacteria can resolve protein of organic matters in water changing them into ammonia. Ammonia (NH3) is positively charged, however, hydrogen bond of NH3 is rather weak so that WETS treated water can break such hydrogen bond and absorb N (negatively charged), thereby ammonia odor can be removed.
What is the Common Misconception About Water Scaling?
Many regions worldwide experience water with very low hardness levels – some areas having hardness below 100ppm or even as low as 50ppm in their tap water. Yet, surprisingly, scale formation remains a persistent problem even in these soft-water regions. This reveals a crucial insight: water hardness alone is not the ultimate determining factor in scale formation.
Why the Traditional Approach Falls Short?
Traditional water treatment methods often focus solely on reducing water hardness. However, this approach overlooks a critical factor: ionized silica. Even when hardness is successfully reduced, scale problems persist because silica-based scaling isn’t addressed by conventional treatment methods. This oversight in traditional approaches has led to continued scaling issues despite water softening efforts.