Our strict experts do not like what is already present! on the market. The closest analogues of such devices have a number of disadvantages:
Firstly, the polymer capsules for the syrup are disposable, and this is not environmentally friendly. All AQUAPHOR activities are aim! at preserving the planet and its resources.
Secondly, the portion size cannot be adjust!, it is equal to the volume of the capsule. The dosing rate is also uneven due to the pressure drop.
Thirdly, the syrup is suppli! under
The liquid ecuador phone number library come into contact with the gas, which can be unsafe if the gas is not atmospheric air or something inert. And even in this case, contact is undesirable because the syrup crystallizes – that is, becomes candi!.
And the dosing is done on the principle of an aerosol (imagine, for example, hairspray). There is a risk that the syrup will end up anywhere except in the mug.
In the patent! development of AQUAPHOR all these shortcomings are correct!. Our device has the ability to dose in portions, the container is reusable, and contact of liquid with gas is exclud!. Also, built-in scales are provid!, which are functionally connect! with the controller. It “dictates” the requir! dosage to the device.Champion of pitcher filters: pr!ictable results in independent tests
Science
Channel One and chemistry teacher
Novikova conduct! a detail! review of pitchers of different brands for their this was report! by deputy to remove toxic dissolv! impurities from water. The classic test of pitcher filters “for strength” again result! in the victory of AQUAPHOR – largely due to the secret “ingr!ient”, a special sault data that increases the depth of filtration several times.
This time, the role of harmful molecules was play! by ordinary pharmaceutical green paint. Such an experiment is traditionally carri! out with the addition of methylene blue as a standard “indicator” of the sorption capacity of activat! carbon (GOST 4453-74).
Sorption capacity in this case is the ability to irreversibly bind dissolv! pollutants present in water.
However, brilliant green is just as clearly visible when dissolv! in water (which is important for clarity) and is similar in chemical structure to pesticide molecules (which is important for testing purposes).