RU97114611A - OBTAINED BY ELECTROLYSIS OF WATER CONTAINING DISSOLVED HYDROGEN, APPLICATION OF ELECTROLYZED WATER, METHOD FOR PRODUCING ELECTROLYSIS OF WATER AND PLANT FOR PRODUCING ELECTROLYSIS OF WATER - Google Patents

OBTAINED BY ELECTROLYSIS OF WATER CONTAINING DISSOLVED HYDROGEN, APPLICATION OF ELECTROLYZED WATER, METHOD FOR PRODUCING ELECTROLYSIS OF WATER AND PLANT FOR PRODUCING ELECTROLYSIS OF WATER

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Publication number
RU97114611A
RU97114611A RU97114611/02A RU97114611A RU97114611A RU 97114611 A RU97114611 A RU 97114611A RU 97114611/02 A RU97114611/02 A RU 97114611/02A RU 97114611 A RU97114611 A RU 97114611A RU 97114611 A RU97114611 A RU 97114611A
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RU
Russia
Prior art keywords
water
electrolysis
dissolved hydrogen
containing dissolved
producing
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RU97114611/02A
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Russian (ru)
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RU2140881C1 (en
Inventor
Морисава Синкацу
Сирахата Санетака
Original Assignee
Нихон Трим Ко., Лтд.
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Priority claimed from JP09345197A external-priority patent/JP3408394B2/en
Application filed by Нихон Трим Ко., Лтд. filed Critical Нихон Трим Ко., Лтд.
Publication of RU97114611A publication Critical patent/RU97114611A/en
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Publication of RU2140881C1 publication Critical patent/RU2140881C1/en

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Claims (16)

1. Полученная электролизом вода, содержащая растворенный водород, включающая растворенный водород в количестве по меньшей мере 0,1 части на миллион.1. Obtained by electrolysis, water containing dissolved hydrogen, including dissolved hydrogen in an amount of at least 0.1 parts per million. 2. Полученная электролизом вода, содержащая растворенный водород, по п. 1, отличающаяся тем, что ее нейтрализуют. 2. Obtained by electrolysis of water containing dissolved hydrogen, according to claim 1, characterized in that it is neutralized. 3. Полученная электролизом вода, содержащая растворенный водород, по п. 1, включающая растворенный водород в количестве от 0,1 до ~ 2,0 частей на миллион. 3. Obtained by electrolysis of water containing dissolved hydrogen, according to claim 1, comprising dissolved hydrogen in an amount of from 0.1 to ~ 2.0 parts per million. 4. Полученная электролизом вода, содержащая растворенный водород по п. 3, включающая растворенный водород в количестве от 0,5 до ~ 1,5 частей на миллион. 4. Obtained by electrolysis, water containing dissolved hydrogen according to claim 3, including dissolved hydrogen in an amount of from 0.5 to ~ 1.5 parts per million. 5. Полученная электролизом вода, содержащая растворенный водород по п. 1, включающая растворенный водород в количестве от 2 частей на миллион до ~ 10 частей на миллион. 5. Obtained by electrolysis, water containing dissolved hydrogen according to claim 1, including dissolved hydrogen in an amount of from 2 parts per million to ~ 10 parts per million. 6. Полученная электролизом вода, содержащая растворенный водород по п. 1, отличающаяся тем, что окислительно-восстановительный потенциал составляет не более, чем +100 мВ. 6. Obtained by electrolysis, water containing dissolved hydrogen according to claim 1, characterized in that the redox potential is not more than +100 mV. 7. Полученная электролизом вода, содержащая растворенный водород по п. 6, отличающаяся тем, что окислительно-восстановительный потенциал находится в диапазоне -100 мВ ~ -1000 мВ. 7. Obtained by electrolysis, water containing dissolved hydrogen according to claim 6, characterized in that the redox potential is in the range of -100 mV ~ -1000 mV. 8. Применение полученной электролизом воды, содержащей растворенный водород, по п. 1, в качестве
а) препаратов для переливания крови, растворов для диализа, растворов для проведения перитонеального диализа или лекарственных препаратов,
b) лосьонов,
с) для предотвращения окисления съестных припасов,
d) безалкогольных напитков,
е) в качестве средства для промывки овощей, фруктов и т.д. перед их перевозкой,
f) в качестве альтернативы добавкам.8. The use obtained by electrolysis of water containing dissolved hydrogen, according to claim 1, as
a) blood transfusion preparations, dialysis solutions, peritoneal dialysis solutions or drugs,
b) lotions
c) to prevent the oxidation of food,
d) soft drinks,
e) as a means for washing vegetables, fruits, etc. before transportation
f) as an alternative to additives. 9. Способ получения электролизом воды, содержащей растворенный водород, включающий стадии: получения неочищенной воды, содержащей по меньшей мере, ионы натрия, калия, магния и кальция, получения из этой неочищенной воды очищенной воды, добавления катализатора для активирования электролиза в очищенной воде, и электролиза очищенной воды, в которую добавлен катализатор, и затем получения катодной воды. 9. A method for producing electrolysis of water containing dissolved hydrogen, comprising the steps of: obtaining crude water containing at least sodium, potassium, magnesium and calcium ions, obtaining purified water from this crude water, adding a catalyst to activate electrolysis in purified water, and electrolysis of purified water into which the catalyst is added, and then producing cathode water. 10. Способ получения электролизом воды, содержащей растворенный водород, по п. 9, включающий, кроме того, стадию удаления из полученной катодной воды хлорноватистой кислоты. 10. A method for producing electrolysis of water containing dissolved hydrogen, according to claim 9, further comprising a step of removing hypochlorous acid from the obtained cathodic water. 11. Способ получения электролизом воды, содержащей растворенный водород, по п. 9, отличающийся тем, что добавленное количество катализатора для активирования электролиза регулируют таким образом, чтобы электропроводность очищенной воды составила по меньшей мере 100 с/см. 11. The method of producing electrolysis of water containing dissolved hydrogen, according to claim 9, characterized in that the added amount of catalyst for activating the electrolysis is controlled so that the conductivity of the purified water is at least 100 s / cm. 12. Способ получения электролизом воды, содержащей растворенный водород, по п. 9, включающий, кроме того, стадию добавления буфера в полученную катодную воду для нейтрализации катодной воды. 12. A method for producing electrolysis of water containing dissolved hydrogen according to claim 9, further comprising the step of adding a buffer to the obtained cathode water to neutralize the cathode water. 13. Способ получения электролизом воды, содержащей растворенный водород, по п.12, отличающийся тем, что в качестве буфера используют воду, полученную с помощью анодного электрода. 13. The method of obtaining by electrolysis of water containing dissolved hydrogen, p. 12, characterized in that as a buffer using water obtained using the anode electrode. 14. Установка для получения электролизом воды, содержащей растворенный водород, содержащая: средства для получения очищенной воды из неочищенной воды, средства для подачи катализатора в очищенную воду для активирования электролиза, и средства для электролиза очищенной воды с добавленным катализатором. 14. Installation for producing electrolysis of water containing dissolved hydrogen, comprising: means for producing purified water from untreated water, means for feeding a catalyst into purified water to activate electrolysis, and means for electrolyzing purified water with an added catalyst. 15. Установка для получения электролизом воды, содержащей растворенный водород, по п. 14, отличающаяся тем, что средства для электролиза очищенной воды включают первый и второй электролизеры с катодной камерой и анодной камерой, соответственно, катодная камера первого электролизера и катодная камера второго электролизера связаны первой трубой (11) для переноса катодной воды, и анодная камера первого электролизера и анодная камера второго электролизера связаны второй трубой (12) для переноса анодной воды. 15. Installation for producing electrolysis of water containing dissolved hydrogen, according to claim 14, characterized in that the means for electrolysis of purified water include first and second electrolysis cells with a cathode chamber and an anode chamber, respectively, the cathode chamber of the first electrolyzer and the cathode chamber of the second electrolyzer the first pipe (11) for transferring cathode water, and the anode chamber of the first cell and the anode chamber of the second cell are connected by a second pipe (12) for transferring anode water. 16. Установка для получения электролизом воды, содержащей растворенный водород, по п. 14, отличающаяся тем, что средства для электролиза очищенной воды прикладывают между первым и вторым электродами, разделенными диафрагмой, для осуществления электролиза очищенной воды для генерирования щелочной воды и кислой воды, содержащая выпускное отверстие для щелочной воды для обеспечения щелочной воды, выпускное отверстие для слива кислой воды для обеспечения слива кислой воды, первую электродную камеру, включающую первый электрод, вторую электродную камеру, включающую второй электрод, первый гидроканал (А), предусмотренный между выпускным отверстием для щелочной воды и первой электродной камерой, для проведения потока полученной электролизом воды, генерированной в первой электродной камере, в направлении выпускного отверстия для щелочной воды, второй гидроканал (В), предусмотренный между выпускным отверстием для слива кислой воды и второй электродной камерой, для проведения потока полученной электролизом воды, генерированной во второй электродной камере, в направлении выпускного отверстия для слива кислой воды, третий гидроканал (С), предусмотренный между выпускным отверстием щелочной воды и второй электродной камерой, для проведения потока полученной электролизом воды, генерированной во второй электродной камере, в направлении выпускного отверстия для щелочной воды, четвертый гидроканал (D), предусмотренный между выпускным отверстием для слива кислой воды и первой электродной камерой, для проведения потока полученной электролизом воды, генерированной в первой электродной камере, в направлении выпускного отверстия для слива кислой воды, клапан переключения (65) для переключения гидроканала с тем, чтобы, когда первый и второй гидроканалы (А и В) открыты, третий и четвертый гидроканалы (С и D) были закрыты, и когда первый и второй гидроканалы (А и В) закрыты, третий и четвертый гидроканалы (С и D) были открыты, и средства управления, предназначенные для того, чтобы когда инвертируют питающее напряжение между первым и вторым электродами, работал клапан переключения (65) вследствие чего из выпускного отверстия для щелочной воды может быть всегда выпущена щелочная вода. 16. Installation for producing electrolysis of water containing dissolved hydrogen, p. 14, characterized in that the means for electrolysis of purified water is applied between the first and second electrodes separated by a diaphragm, for the electrolysis of purified water to generate alkaline water and acidic water, containing an outlet for alkaline water to provide alkaline water, an outlet for draining acidic water to drain acidic water, a first electrode chamber including a first electrode, a second electron a bottom chamber including a second electrode, a first hydrochannel (A) provided between the alkaline water outlet and the first electrode chamber, for conducting a stream of water obtained by electrolysis generated in the first electrode chamber, in the direction of the alkaline water outlet, a second hydrochannel (B ), provided between the outlet for draining acidic water and the second electrode chamber, for conducting the flow obtained by electrolysis of water generated in the second electrode chamber, in the direction of a hole for draining acidic water, a third hydrochannel (C) provided between the alkaline water outlet and the second electrode chamber, for conducting the flow of water obtained by electrolysis generated in the second electrode chamber, in the direction of the alkaline water outlet, fourth hydrochannel (D) provided between the outlet for discharging acidic water and the first electrode chamber for conducting a stream of water obtained by electrolysis generated in the first electrode chamber in the direction of the outlet holes for draining acidic water, a switching valve (65) for switching the hydrochannel so that when the first and second hydrochannels (A and B) are open, the third and fourth hydrochannels (C and D) are closed, and when the first and second hydrochannels ( A and B) are closed, the third and fourth hydrochannels (C and D) are open, and controls designed to ensure that when the power supply voltage is inverted between the first and second electrodes, the switching valve (65) works from the outlet for alkaline water can always be released to alkaline water.
RU97114611A 1996-08-27 1997-08-26 Water produced by electrolysis and containing dissolved hydrogen, method of water production by electrolysis and plant for water production by electrolysis RU2140881C1 (en)

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
JP8-225392 1996-08-27
JP22539296 1996-08-27
JP09345197A JP3408394B2 (en) 1996-08-27 1997-04-11 Method for producing electrolytic hydrogen dissolved water and apparatus for producing the same
JP9-93451 1997-04-11

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RU2140881C1 RU2140881C1 (en) 1999-11-10

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HK (1) HK1005240A1 (en)
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