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JPS591367B2 - How to make a liquid retain oxygen - Google Patents
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JPS591367B2 - How to make a liquid retain oxygen - Google Patents

How to make a liquid retain oxygen

Info

Publication number
JPS591367B2
JPS591367B2 JP55106813A JP10681380A JPS591367B2 JP S591367 B2 JPS591367 B2 JP S591367B2 JP 55106813 A JP55106813 A JP 55106813A JP 10681380 A JP10681380 A JP 10681380A JP S591367 B2 JPS591367 B2 JP S591367B2
Authority
JP
Japan
Prior art keywords
oxygen
water
magnetic field
container
make
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired
Application number
JP55106813A
Other languages
Japanese (ja)
Other versions
JPS5624032A (en
Inventor
利秋 高林
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to JP55106813A priority Critical patent/JPS591367B2/en
Publication of JPS5624032A publication Critical patent/JPS5624032A/en
Publication of JPS591367B2 publication Critical patent/JPS591367B2/en
Expired legal-status Critical Current

Links

Classifications

    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P60/00Technologies relating to agriculture, livestock or agroalimentary industries
    • Y02P60/14Measures for saving energy, e.g. in green houses

Landscapes

  • Mixers With Rotating Receptacles And Mixers With Vibration Mechanisms (AREA)
  • Oxygen, Ozone, And Oxides In General (AREA)
  • Agricultural Chemicals And Associated Chemicals (AREA)

Description

【発明の詳細な説明】 本発明は磁気を利用して液体に酸素を保有させる方法に
関するものである。
DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a method of retaining oxygen in a liquid using magnetism.

先に、本願の発明者はガソリンを磁場処理することによ
りその燃焼性能を向上する方法の提案特開昭53−12
3402)を行つたが、その性能の向上は、空気中の比
較的強い常磁性の酸素が液体の容器内部又は近くの磁極
に吸収されて液体中に溶け込み、液体の保有酸素量を増
加することによるものであると考え、各種の液体に直接
酸素ガスを注入する実験を行つた結果、本発明に到達し
た。
Previously, the inventor of the present application proposed a method for improving the combustion performance of gasoline by treating it with a magnetic field.
3402), but the improvement in performance is due to the fact that relatively strong paramagnetic oxygen in the air is absorbed by the magnetic poles inside or near the liquid container and dissolves into the liquid, increasing the amount of oxygen held in the liquid. As a result of experiments in which oxygen gas was directly injected into various liquids, the present invention was achieved.

本発明の目的は水の溶存酸素濃度を効果的に増加させる
方法を提供し、水の用途上の性能、例えば、花器に入れ
る水の生け花器性保持性能、養魚槽の水の飼育性能等を
向上させることにある。
An object of the present invention is to provide a method for effectively increasing the dissolved oxygen concentration of water, and to improve the performance of water in terms of usage, such as the performance of water used in flower vases to maintain flower arranging properties, and the performance of water in fish tanks for breeding. It's about improving.

前記目的を達成するため本発明の要旨とするところは、
磁気作用下の水に酸素ガス又は酸素を含む気体を注入し
てその溶存酸素濃度を増加させることにある。磁気作用
を行う磁極の表面を水中又は水を入れる容器の外側面、
底面等に設けることが望ましい。磁場を作用させずに、
水に直接酸素ガスを注入して水の溶存酸素濃度を増加さ
せることはすでに知られている。
In order to achieve the above object, the gist of the present invention is as follows:
The purpose is to increase the dissolved oxygen concentration by injecting oxygen gas or a gas containing oxygen into water under magnetic action. The surface of the magnetic pole that performs magnetic action is placed in water or on the outer surface of a container containing water.
It is desirable to provide it on the bottom surface, etc. without applying a magnetic field,
It is already known to increase the dissolved oxygen concentration of water by injecting oxygen gas directly into water.

しかし、その増加率は、本発明の磁場を作用させて酸素
ガスを注入する方法の増加率に比べると、かなり小さい
。本発明の方法は水の溶存酸素濃度をより効果的に増加
させるものである。例えば、養魚槽の水の溶存酸素濃度
を−9pμm程度に高めると、養魚の成育が促進された
り高価な清水生の魚類の飼育が可能になる等の効果を奏
するが、これを本発明の方法は従来よりも少い酸素の使
用量で、実施することができる。又、磁場下で酸素を少
量注入した処理水道水と非処理の水道水に生け花を差し
、開花状況等の生け花器性保持性能を比較すると、処理
水に差したものは非処理水のものよりも開花からしぼむ
までの日数が少くとも2日ないし3日長いことが認めら
れる。次に、本発明の方法を実施例に基ついて説明する
。実施例 1 第1図に示すように、約2リットルの角型ガラス容器1
の両外側面に約1000ガウスの表面磁束密度を有する
フエライト磁石2を一面に取付け、小型酸素ボンベ(図
示せず)から細いパイプ3を容器1の内底部へ配管した
However, the rate of increase is quite small compared to the rate of increase in the method of injecting oxygen gas by applying a magnetic field according to the present invention. The method of the present invention more effectively increases the dissolved oxygen concentration in water. For example, increasing the dissolved oxygen concentration of water in a fish tank to about -9 pμm has the effect of promoting the growth of fish and making it possible to raise expensive freshwater fish, but this is achieved by the method of the present invention. can be carried out using less oxygen than conventional methods. In addition, when flower arrangements are placed in treated tap water that has been injected with a small amount of oxygen under a magnetic field and untreated tap water, and compared in terms of flowering status and other flower arranging performance, the results show that the flowers placed in treated water are better than those in untreated water. It is also observed that the number of days from flowering to withering is at least 2 to 3 days longer. Next, the method of the present invention will be explained based on examples. Example 1 As shown in FIG. 1, a rectangular glass container 1 of approximately 2 liters is
Ferrite magnets 2 having a surface magnetic flux density of about 1000 Gauss were attached to both outer surfaces of the container 1, and a thin pipe 3 was connected to the inner bottom of the container 1 from a small oxygen cylinder (not shown).

容器1内に溶存酸素濃度約8ppmD水道水を満たし、
パイプ3から酸素を5秒間噴出させ、磁場下において酸
素を注入した有磁処理水を得た。これと未処理の水道水
をそれぞれ花びんに入れ、その花ひんにバラ、チユーリ
ツプ等の生け花を差し開花状況を観察した。その結果、
開花してからしぼむまでの日数は、処理水のものが未処
理水のものよりも2日ないし3日以上長いことが確めら
れた。実施例 2 前実施例と同様に酸素を10秒間注入して有磁処理水を
得た後に、磁石2を外し、磁場をわけずに酸素を同じく
10秒間注入して無磁処理水を得た。
Fill container 1 with tap water with a dissolved oxygen concentration of approximately 8 ppm,
Oxygen was jetted out from the pipe 3 for 5 seconds to obtain magnetically treated water into which oxygen had been injected under a magnetic field. This and untreated tap water were each placed in a vase, and flowers such as roses and tulips were placed in the vase to observe the blooming status. the result,
It was confirmed that the number of days from flowering to withering was longer with treated water than with untreated water by 2 to 3 days. Example 2 After injecting oxygen for 10 seconds to obtain magnetically treated water in the same manner as in the previous example, magnet 2 was removed and oxygen was injected for 10 seconds without separating the magnetic field to obtain non-magnetic treated water. .

両処理水と未処理の水道水の溶存酸素濃度を隔膜ガルバ
ニツクセル方式の溶存酸素計(セントラル科学株式会社
)で測定した。実験は日を変えてくり返し行つたが、そ
の結果は次表に示す通りである。なお、表中のカツコ内
の数字は溶存酸素濃度の増加率(支)である。この表か
ら、同量の酸素注入に対し、磁場下の水道水の溶存酸素
濃度増加率は、磁場をかけないものよりも格段に高いこ
とがわかる。
Dissolved oxygen concentrations in both treated water and untreated tap water were measured using a diaphragm galvanic cell dissolved oxygen meter (Central Kagaku Co., Ltd.). The experiment was repeated on different days, and the results are shown in the table below. In addition, the numbers in brackets in the table are the increase rate (subtraction) of dissolved oxygen concentration. This table shows that for the same amount of oxygen injected, the rate of increase in dissolved oxygen concentration in tap water under a magnetic field is much higher than when no magnetic field is applied.

これは、磁場が強い常磁性体の酸素を吸引して拘束する
ため、磁場がない時よりも多くの酸素分子が水中に存在
することによるものと推測される。上記の通り、磁場を
作用させた水に酸素を注入すると、水の溶存酸素濃度が
効果的に増加する。
This is presumed to be because the magnetic field attracts and restrains oxygen, which is a strong paramagnetic material, so there are more oxygen molecules in the water than when there is no magnetic field. As mentioned above, injecting oxygen into water subjected to a magnetic field effectively increases the dissolved oxygen concentration in the water.

酸素ガスの代りに酸素を含む気体、例えば空気を吹込ん
でも同様な効果が生ずることは次のテストからも明らか
である。一辺7CT!lの合成樹脂製立方体状容器を二
個用意し、それらに8ppmの水道水を満たし、一方の
容器だけ外側に実施例1と同じ磁石を取付けて金魚鉢用
ポンプで空気を吹込み続けると、その溶存酸酸濃度は8
.4ppmに増加した。
It is clear from the following tests that a similar effect can be produced even if a gas containing oxygen, such as air, is blown in instead of oxygen gas. 7CT per side! Prepare two cube-shaped synthetic resin containers, fill them with 8 ppm tap water, attach the same magnet as in Example 1 to the outside of one container, and continue to blow air with a fishbowl pump. Dissolved acid acid concentration is 8
.. It increased to 4ppm.

両方の容器に花を生け、溶存酸素濃度の経日変化を測定
した結果は、次の通りであつた。このように、溶存酸素
濃度の増加率は酸素ガスのみを注入する場合よりも小さ
いが、それなりの効果は十分あることがわかる。
Flowers were arranged in both containers and the changes in dissolved oxygen concentration over time were measured, and the results were as follows. Thus, although the rate of increase in dissolved oxygen concentration is smaller than when only oxygen gas is injected, it can be seen that there is a sufficient effect.

【図面の簡単な説明】[Brief explanation of drawings]

第1図は本発明の方法を実施した実験装置を略図的に示
す断面図である。 1:容器、2:磁石、3:酸素注入パイプ。
FIG. 1 is a sectional view schematically showing an experimental apparatus for carrying out the method of the present invention. 1: Container, 2: Magnet, 3: Oxygen injection pipe.

Claims (1)

【特許請求の範囲】 1 磁場をかけた水中に酸素又は酸素を含む気体を注入
することを特徴としてなる液体に酸素を保有させる方法
。 2 特許請求の範囲の第1項に記載の方法において、水
を入れる容器の内部又はその外面に磁極を形成すること
を特徴としてなる前記方法。 3 特許請求の範囲の第2項に記載の方法において、容
器の外側面に永久磁石を取付けることを特徴としてなる
前記方法。 4 特許請求の範囲の第3項に記載の方法において、少
くとも1000ガウスの表面磁束密度を持つ永久磁石の
N極とS極を容器の外側面の両側に対向配置して磁場を
作用させることを特徴としてなる前記方法。
[Claims] 1. A method for making a liquid retain oxygen, which comprises injecting oxygen or a gas containing oxygen into water to which a magnetic field is applied. 2. The method according to claim 1, characterized in that magnetic poles are formed inside or on the outside of a container containing water. 3. The method according to claim 2, characterized in that a permanent magnet is attached to the outer surface of the container. 4. In the method according to claim 3, a magnetic field is applied by arranging the N and S poles of a permanent magnet having a surface magnetic flux density of at least 1000 Gauss to face each other on both sides of the outer surface of the container. The method characterized by:
JP55106813A 1980-08-05 1980-08-05 How to make a liquid retain oxygen Expired JPS591367B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP55106813A JPS591367B2 (en) 1980-08-05 1980-08-05 How to make a liquid retain oxygen

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP55106813A JPS591367B2 (en) 1980-08-05 1980-08-05 How to make a liquid retain oxygen

Related Parent Applications (1)

Application Number Title Priority Date Filing Date
JP52578A Division JPS5494506A (en) 1978-01-09 1978-01-09 Method of causing liquid to hold oxygen

Publications (2)

Publication Number Publication Date
JPS5624032A JPS5624032A (en) 1981-03-07
JPS591367B2 true JPS591367B2 (en) 1984-01-11

Family

ID=14443268

Family Applications (1)

Application Number Title Priority Date Filing Date
JP55106813A Expired JPS591367B2 (en) 1980-08-05 1980-08-05 How to make a liquid retain oxygen

Country Status (1)

Country Link
JP (1) JPS591367B2 (en)

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7544323B1 (en) 2004-06-01 2009-06-09 Innovative Industries, Inc. Method for treating a fluid to increase oxygen concentration and reduce surface tension using a radio frequency generator
US7491340B1 (en) * 2004-06-01 2009-02-17 Innovative Industries, Inc. Method for treating a living organism using a fluid with increased oxygen concentration and reduced surface tension

Also Published As

Publication number Publication date
JPS5624032A (en) 1981-03-07

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