Stationary aseptic drinking water storage device
A storage device and drinking water technology, applied in water/sewage treatment, oxidized water/sewage treatment, special compound water treatment, etc., can solve problems such as odor and odor, bacteria and microorganisms exceeding the standard, and affect water quality, so as to inhibit ozone generation, Reduce the risk of toxic by-products and improve the effect of water-filled infiltration state
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Embodiment 1
[0055] For the fixed aseptic drinking water storage device of this embodiment, see figure 1 , comprising at least one pair of cathode electrodes 22 and anode electrodes 23, an electrolysis power supply 3 and a water container 1 for supplying power to the cathode and anode electrodes, a water-permeable diaphragm 21 is arranged between the paired cathode electrodes 22 and the anode electrodes 23, and the water-permeable diaphragm 21 It is a water-permeable diaphragm made of non-conductive material. The water-permeable diaphragm 21 has water-permeable micropores with uniform pore size. There is a window on the top of the water container 1, and the water-permeable diaphragm 21 is fully covered on the window. The negative electrode 22 is arranged in the container. At the bottom in the water container 1, the positive electrode 23 is located outside the window at the top of the water container 1. The water-permeable micropores with uniform pore size are roughly uniform in size and sh...
Embodiment 2
[0079] The fixed aseptic drinking water storage device of this embodiment is an improvement on the basis of Embodiment 1, and the difference from Embodiment 1 is:
[0080] In this embodiment, the water container 1 is filled with tap water. Still taking the municipal tap water in Dalian, China as an example, the electrolysis power supply 3 adopts an alternating pulse power supply with a forward voltage level greater than a 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
[0082] The fixed aseptic drinking water storage device of this embodiment is an improvement on the basis of Embodiment 1, and the difference from Embodiment 1 is that: in this embodiment, there is a A number of through holes, the water-permeable diaphragm 21 adopts a nanofiltration membrane.
[0083] 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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