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Water which goes through LTIWET device can be cationized (positively-charged). Treated water (positively-charged) can absorb O2(negatively-charged) in the air and such water goes into the water zone (pond or lake) with increased amount of O2 and thereby the amount of dissolved oxygen (DO) in such water zone will increase.
Biochemical oxygen demand (also known as BOD or biological oxygen demand) is an analytical parameter representing the amount of DO consumed by aerobic bacteria growing on the organic material present in a water sample at a specific temperature over a specific time period.
As the amount of DO increases, the amount of aerobic bacteria can increase and they can become so active that aerobic bacteria can consume more organic materials, and thereby BOD can decrease. And eventually, sludge and methane gas which is created by anti-aerobic bacteria can be removed significantly.
It is recommended that DO in A and B can be measured by dissolved oxygen meter.
An ejector can be replaced by any other aeration device including an aeration fan or pump, and it is to be noted that as more air (oxygen) is absorbed by treated water, the effects should be more significant. Also, it is recommendable that treated water should go into the water zone from higher place so that treated water can absorb more oxygen.
Relevant effects which LTIWET can deliver for the combination with RO : One of the significant effects of LTIWET is to change ionized minerals like Si, Ca, Mg and Na into the totally different particles, i.e. tiny soft colloids.
This can happen in any level of water hardness and TDS as proved in the test on three times’ RO rejected water.