Portable drinking water treatment device
A portable technology for drinking water treatment, applied in water/sewage treatment, special compound water treatment, light water/sewage treatment, etc. It can solve the problems of bacteria and microorganisms exceeding the standard, no equipment, odor and odor, etc., and achieve the goal of reducing toxic and side effects Effect
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Embodiment 1
[0058] For the portable drinking water treatment device of the present embodiment, see figure 1 , including a pair of negative electrodes 22 and positive electrodes 23, an electrolysis power supply 3 for supplying power to the negative and positive electrodes and a handle 1 for fixing the electrolysis power supply 3, and a water-permeable diaphragm 21 is arranged between the negative electrodes 22 and the positive electrodes 23.
[0059] Both the cathode electrode 22 and the anode electrode 23 are used to be inserted into the bottled water container. The cathode and anode electrodes are fixed on one end of the handle 1. The anode electrode 23 is a cylindrical anode electrode with mesh holes. on the outer surface of the electrode 23. In use, the negative electrode 22 is in contact with the stored water in the bottled water container, and the positive electrode 23 is only in contact with the permeated water in the bottled water container through the water-permeable membrane 21 ....
Embodiment 2
[0082] The portable drinking water treatment device of this embodiment is an improvement on the basis of Embodiment 1, and the difference from Embodiment 1 is:
[0083] In this embodiment, tap water is manually filled in the bottled water bottle. Still taking the city supply tap water in Dalian, China as an example, the electrolysis power supply 3 adopts an alternating pulse power supply whose forward voltage level is greater than the reverse voltage level, and the average voltage is 15V. The water-permeable diaphragm 21 adopts a microfiltration membrane, and the distance δ between the microfiltration membrane and the anode electrode 23 located outside the membrane is 15 millimeters.
Embodiment 3
[0085] The portable drinking water treatment device of this embodiment is an improvement on the basis of Embodiment 1. The difference from Embodiment 1 is that in this embodiment, there are several through holes on the positive electrode 23 located outside the water-permeable diaphragm 21. The water-permeable membrane 21 is a nanofiltration membrane.
[0086] In this embodiment, the municipal tap water in Dalian, China is still taken as an example, and the distance δ between the water-permeable diaphragm 21 and the anode electrode 23 located outside the diaphragm is 0 mm and 10 mm, respectively.
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