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Technique for producing super oxyanion water in steady state

A technology of steady-state superoxide and production technology, applied in the direction of water/sewage multi-stage treatment, water/sludge/sewage treatment, chemical instruments and methods, etc., can solve the problems of unstable oxygen content and escape, and achieve Improve microcirculation, accelerate intellectual development, and regulate endocrine effects

Inactive Publication Date: 2008-05-28
沈友福
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

After oxygenated water, when the oxygen content changes in temperature or pressure, the oxygen in the water will escape, and the oxygen content is unstable.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0019] 1. Lift the underground water pump at a depth of about 100 meters to the ground;

[0020] 2. Perform ultra-fine filtration on the water that the pump lifts to the ground, and the filter screen is 260 mesh;

[0021] 3. Guide the filtered groundwater with stainless steel water pipes and pass through the center of the multi-ring magnetic field with a magnetic field strength of 70,000 Gauss;

[0022] 4. Add heat to the water treated by the above process, and heat the water to 92°C;

[0023] 5. Collect the water vapor generated in the sub-boiling state, and restore it to a liquid state after condensation;

[0024] 6. Guide the condensed water through the electrolytic electric field with a current intensity of 1 ampere;

[0025] 7. Repeat the previous magnetic field treatment;

[0026] 8. Repeat the previous electric field treatment;

[0027] Nine, repeat the previous magnetic field treatment;

[0028] After quality inspection, filling and sealing, the steady-state super...

Embodiment 2

[0030] 1. Lift the underground water pump at a depth of about 100 meters to the ground;

[0031] 2. Perform ultra-fine filtration on the water that the pump lifts to the ground, and the filter screen is 270 mesh;

[0032] 3. Guide the filtered groundwater with stainless steel water pipes and pass through the center of the multi-ring magnetic field with a magnetic field strength of 80,000 Gauss;

[0033] 4. Add heat to the water treated by the above process, and heat the water to 93°C;

[0034] 5. Collect the water vapor generated in the sub-boiling state, and restore it to a liquid state after condensation;

[0035] 6. Guide the condensed water through the electrolytic electric field with a current intensity of 1.1 amperes;

[0036] 7. Repeat the previous magnetic field treatment;

[0037] 8. Repeat the previous electric field treatment;

[0038] Nine, repeat the previous magnetic field treatment;

[0039] After quality inspection, filling and sealing, the steady-state su...

Embodiment 3

[0041] 1. Lift the underground water pump at a depth of about 100 meters to the ground;

[0042] 2. Perform ultra-fine filtration on the water that the pump lifts to the ground, and the filter screen is 280 mesh;

[0043] 3. Guide the filtered groundwater with stainless steel water pipes and pass through the center of the multi-ring magnetic field with a magnetic field strength of 90,000 Gauss;

[0044] 4. Add heat to the water treated by the above process, and heat the water to 94°C;

[0045] 5. Collect the water vapor generated in the sub-boiling state, and restore it to a liquid state after condensation;

[0046] 6. Guide the condensed water through the electrolytic electric field with a current intensity of 1.2 amperes;

[0047] 7. Repeat the previous magnetic field treatment;

[0048] 8. Repeat the previous electric field treatment;

[0049] Nine, repeat the previous magnetic field treatment;

[0050] After quality inspection, filling and sealing, the steady-state su...

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PUM

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Abstract

By this prodn. technology, groundwater in deep well that depth is 100 metre is pumped to ground to be super microfiltered, then to be guided by stainless steel water pipe to pass through ceter of mutiple circular megnetic field that field strength is 70000-90000 gauss. Water processed by said procedure is heated to 92-94 deg.C by replenishing heat quantity, water vapour generated in sub-boiling is collected to be condensated returning to liquid which is guided to pass through electric field that electric current strength is 1-1.2 ampere. The steady-state superoxide ion water is produced by reprocessed of megnetic field, electric field, magnetic field, quality inspection, tining and sealing.

Description

technical field [0001] The invention relates to a production process of steady-state superoxide ion water with health care function. Background technique [0002] Existing magnetized and oxygenated distilled water or pure water beverages are generally made by magnetic field magnetization and oxygenation. Oxygenation must be pressurized. After oxygenated water, when the oxygen content changes in temperature or pressure, the oxygen in the water will escape, and the oxygen content is unstable. Contents of the invention [0003] The purpose of the invention is to design a production process of steady-state superoxide ionized water whose oxygen content does not change substantially when pressure and temperature change. [0004] The production process provided by the invention has achieved the above-mentioned purpose of the invention. The process of the present invention uses high-quality groundwater at a depth of about 100 meters underground as raw material, and carries out ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C02F9/10C02F9/02
Inventor 沈友福
Owner 沈友福
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