JP2020093200A - Production method for mixture including liquid, gas or solid having adjusted minute grain size - Google Patents
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Abstract
Description
本願発明は、調整された微小粒子径の液体、気体又は固体を含有する混合物の製造方法に関するものである。 The present invention relates to a method for producing a mixture containing a liquid, a gas, or a solid having an adjusted fine particle size.
従来、内燃機関用の液体燃料に水を混ぜてエマルジョンとした燃料が開発され、ある程度の燃費向上の効果が得られている。また、マイクロバブル水、ナノバブル水等の微細気泡を含有した水を汚水処理や健康増進剤として使用することが行われている。
しかしながら、それらの各種材料の粒子径を制御して使用する技術は提案されていない。
BACKGROUND ART Conventionally, a fuel which has been made into an emulsion by mixing water with a liquid fuel for an internal combustion engine has been developed, and an effect of improving fuel efficiency to some extent has been obtained. In addition, water containing fine bubbles such as micro-bubble water and nano-bubble water is used as a sewage treatment and a health promoting agent.
However, no technique has been proposed for controlling the particle size of these various materials for use.
しかしながら、それらの各種材料の微細粒子径を制御して使用する技術は提案されていない。 However, no technique has been proposed for controlling the fine particle size of these various materials for use.
本願発明は上記課題を解決するものであって、下記発明構成の微小粒子径の液・固・気混合物の製造方法である。
[1] 非相溶性の液体Aと液体Bを第1の液体微細化装置で混合・粉砕して、一定微小粒子径のA粒子を含む第1の混合物エマルジョン(A・Bエマルジョン)を取得する第1工程と、
非相溶性の液体Aと液体Bを第2の液体微細化装置で混合・粉砕して、別微小粒子径のA’粒子を含む第2の混合物エマルジョン(A’・Bエマルジョン)を取得する第2工程と、
第1工程で得られた第1の混合物エマルジョン(A・Bエマルジョン)と第2工程で得られた第2の混合物エマルジョン(A’・Bエマルジョン)とを一定割合で混合して第3の調整された混合物エマルジョン(A・A’・Bエマルジョン)を製造する第3工程とからなることを特徴とする調整された微小サイズの混合物エマルジョンの製造方法。
[2] 非相溶性の液体Aと液体Bを第1の液体微細化装置で混合・粉砕して、一定微小粒子径のA粒子を含む第1の混合物エマルジョン(A・Bエマルジョン)を取得する第1工程と、
非相溶性の液体Bと液体Cを第2の液体微細化装置で混合・粉砕して、別微小粒子径のC粒子を含む第2の混合物エマルジョン(B・Cエマルジョン)を取得する第2工程と、
第1工程で得られた第1の混合物エマルジョン(A・Bエマルジョン)と第2工程で得られた第2の混合物エマルジョン(B・Cエマルジョン)とを一定割合で混合して第3の調整された混合物エマルジョン(A・B・Cエマルジョン)を製造する第3工程とからなることを特徴とする調整された微小サイズの混合物エマルジョンの製造方法。
The present invention solves the above problems and provides a method for producing a liquid-solid-gas mixture having fine particle diameters, which has the following inventive constitution.
[1] Incompatible liquid A and liquid B are mixed and pulverized by a first liquid atomizer to obtain a first mixture emulsion (A/B emulsion) containing A particles having a constant fine particle size. The first step,
Incompatible liquid A and liquid B are mixed and pulverized by a second liquid atomization device to obtain a second mixture emulsion (A′·B emulsion) containing A′ particles of different fine particle diameters. 2 steps,
Third mixture by mixing the first mixture emulsion (A/B emulsion) obtained in the first step and the second mixture emulsion (A′/B emulsion) obtained in the second step at a constant ratio And a third step of producing a mixed emulsion (A·A′·B emulsion) prepared as described above.
[2] Incompatible liquid A and liquid B are mixed and pulverized by a first liquid atomizer to obtain a first mixture emulsion (A/B emulsion) containing A particles having a constant fine particle size. The first step,
Second step of mixing and pulverizing incompatible liquid B and liquid C with a second liquid atomizer to obtain a second mixture emulsion (B/C emulsion) containing C particles of different fine particle sizes When,
The first mixture emulsion (A/B emulsion) obtained in the first step and the second mixture emulsion (B/C emulsion) obtained in the second step are mixed at a constant ratio to make a third adjustment. And a third step for producing a mixed emulsion (A, B, C emulsion).
[3] 液体Bと気体Xを第1の気・液微細化装置で混合・粉砕して、一定微小粒子径のX気体粒子を含む気・液混合物からなる第1の気・液混合物(B・X気・液混合物)を取得する第1工程と、
液体Bと気体Xを第2の気・液微細化装置で混合・粉砕して、別微小サイズの粒子径のX’気体粒子を含む気・液混合物からなる第2の気・液混合物(B・X’気・液混合物)を取得する第2工程と、
第1工程で得られた第1の気・液混合物(B・X気・液混合物)と第2工程で得られた第2の気・液混合物(B・X’気・液混合物)とを一定割合で混合して第3の調整された混合物(B・X・X’気・液混合物)を製造する第3工程とからなることを特徴とする調整された微小サイズ気・液混合物の製造方法。
[4] 液体Bと気体Xを第1の気・液微細化装置で混合・粉砕して、一定微小粒子径のX気体粒子を含む気・液混合物からなる第1の気・液混合物(B・X気・液混合物)を取得する第1工程と、
液体Bと気体Yを第2の気・液微細化装置で混合・粉砕して、一定微小粒子径のY気体粒子を含む気・液混合物からなる第2の気・液混合物(B・Y気・液混合物)を取得する第2工程と、
第1工程で得られた第1の気・液混合物(B・X気・液混合物)と第2工程で得られた第2の気・液混合物(B・Y気・液混合物)とを一定割合で混合して第3の調整された混合物(B・X・Y気・液混合物)を製造する第3工程とからなることを特徴とする調整された微小サイズ気・液混合物の製造方法。
[3] Liquid B and gas X are mixed and pulverized by a first gas/liquid atomization device, and a first gas/liquid mixture (B containing a gas/liquid mixture containing X gas particles having a constant fine particle diameter (B・The first step of acquiring (X gas/liquid mixture),
Liquid B and gas X are mixed and pulverized by a second gas/liquid atomization device, and a second gas/liquid mixture (B containing a gas/liquid mixture containing X′ gas particles having a particle size of another minute size (B A second step of obtaining (X' gas-liquid mixture),
The first gas/liquid mixture (B/X gas/liquid mixture) obtained in the first step and the second gas/liquid mixture (B/X′ gas/liquid mixture) obtained in the second step A third step of producing a third adjusted mixture (B/X/X' gas/liquid mixture) by mixing at a fixed ratio, and manufacturing a regulated micro-sized gas/liquid mixture. Method.
[4] The liquid B and the gas X are mixed and pulverized by the first gas/liquid refiner to be a first gas/liquid mixture (B containing a gas/liquid mixture containing X gas particles having a constant fine particle diameter).・The first step of acquiring (X gas/liquid mixture),
The liquid B and the gas Y are mixed and pulverized by a second gas/liquid refiner, and a second gas/liquid mixture (B/Y gas) is formed from a gas/liquid mixture containing Y gas particles having a constant fine particle diameter. A second step of obtaining a liquid mixture),
The first gas/liquid mixture (B/X gas/liquid mixture) obtained in the first step and the second gas/liquid mixture (B/Y gas/liquid mixture) obtained in the second step are kept constant. And a third step of producing a third adjusted mixture (B/X/Y gas/liquid mixture) by mixing in proportions.
[5] 非相溶性の液体Aと液体Bを第1の液体微細化装置で混合・粉砕して、一定微小粒子径のA液体粒子を含む第1の混合物エマルジョン(A・Bエマルジョン)を取得する第1工程と、
液体Bと固体Zを第2の固・液微細化装置で混合・粉砕して、一定微小サイズの粒子径のZ固体粒子を含む固・液混合物からなる第2の固・液混合物(B・Z固・液混合物)を取得する第2工程と、
第1工程で得られた第1の液体混合物(A・B液体混合物)と第2工程で得られた第2の固・液混合物(B・Z固・液混合物)とを一定割合で混合して第3の調整された混合物(A・B・Z固・液混合物)を製造する第3工程とからなることを特徴とする調整された微小サイズ気・固・液混合物の製造方法。
[6] 液体Bと固体Zを第1の固・液微細化装置で混合・粉砕して、一定微小粒子径のZ固体粒子を含む固・液混合物からなる第1の固・液混合物(B・Z固・液混合物)を取得する第1工程と、
液体Bと気体Xを第2の気・液微細化装置で混合・粉砕して、一定微小サイズの粒子径のX気体粒子を含む気・液混合物からなる第2の気・液混合物(B・X気・液混合物)を取得する第2工程と、
第1工程で得られた第1の固・液混合物(B・Z固・液混合物)と第2工程で得られた第2の気・液混合物(B・X気・液混合物)とを一定割合で混合して第3の調整された混合物(B・X・Z気・固・液混合物)を製造する第3工程とからなることを特徴とする調整された微小サイズ気・固・液混合物の製造方法。
[5] Incompatible liquid A and liquid B are mixed and pulverized by the first liquid atomizer to obtain a first mixture emulsion (A/B emulsion) containing liquid particles of A having a certain fine particle size. The first step to do,
Liquid B and solid Z are mixed and pulverized by a second solid/liquid refining device to form a second solid/liquid mixture (B. A second step of obtaining a Z solid/liquid mixture),
The first liquid mixture (A/B liquid mixture) obtained in the first step and the second solid/liquid mixture (B/Z solid/liquid mixture) obtained in the second step are mixed at a constant ratio. And a third step of producing a third adjusted mixture (A/B/Z solid/liquid mixture).
[6] Liquid B and solid Z are mixed and crushed by a first solid/liquid refining device to form a first solid/liquid mixture (B .The first step of obtaining (Z solid/liquid mixture),
The liquid B and the gas X are mixed and pulverized by a second gas/liquid atomization device, and a second gas/liquid mixture (B. A second step of obtaining (X gas/liquid mixture),
The first solid/liquid mixture (B/Z solid/liquid mixture) obtained in the first step and the second gas/liquid mixture (B/X gas/liquid mixture) obtained in the second step are kept constant. A third step of producing a third adjusted mixture (B/X/Z gas/solid/liquid mixture) by mixing in a ratio, and a controlled micro-sized gas/solid/liquid mixture. Manufacturing method.
[7] 非相溶性の液体Aと液体Bを第1の液体微細化装置で混合・粉砕して、一定微小粒子径のA粒子を含む第1の混合物エマルジョン(A・Bエマルジョン)を取得する第1工程と、
液体Bと固体Zを固・液微細化装置で混合・粉砕して、一定微小粒子径のZ固体粒子を含む固・液混合物からなる固・液混合物(B・Z固・液混合物)を取得する第2工程と、
液体Bと気体Xを気・液微細化装置で混合・粉砕して、一定微小サイズの粒子径のX気体粒子を含む気・液混合物からなる気・液混合物(B・X気・液混合物)を取得する第3工程と、
第1工程で得られた第1の混合物エマルジョン(A・Bエマルジョン)と、第2工程で得られた固・液混合物(B・Z固・液混合物)と第3工程で得られた気・液混合物(B・X気・液混合物)とを一定割合で混合して第3の調整された混合物(A・B・X・Z気・固・液混合物)を製造する第4工程とからなることを特徴とする調整された微小サイズ気・固・液混合物の製造方法。
[8] 液体Aが重油、灯油等の非水溶性の液体燃料であり、液体Bが水であることを特徴とする[1]、[2]、[5]又は[7]のいずれか1項に記載の調整された微小サイズの混合物の製造方法。
[9] 液体Aが胡麻油、米油、サラダ油等の食用油であり、液体Bが水であることを特徴とする[1]、[2]、[5]又は[7]のいずれか1項に記載の調整された微小サイズの混合物の製造方法。
[10] 液体Aがホホバオイル、ツバキオイル、オリーブオイル、スクワラン等の化粧品用油であり、液体Bが水であることを特徴とする[1]、[2]、[5]又は[7]のいずれか1項に記載の調整された微小サイズの混合物の製造方法。
[11] 気体Xが空気又は窒素あるいは水素であり、液体Bが水であることを特徴とする[3]、[4]、[6]又は[7]のいずれか1項に記載の調整された微小サイズ気・液混合物の製造方法。
[12] 気体Yが酸素又はオゾンであり、液体Bが水であることを特徴とする[3]、[4]、[6]又は[7]のいずれか1項に記載の調整された微小サイズ気・液混合物の製造方法。
[13] 前記[3]、[4]、[6],[7]、[8]、[9]、[10],[11]又は[12]のいずれか1項に記載された気・液混合物がマイクロバブル水又はナノバブル水であることを特徴とする微小サイズ気・液混合物の製造方法。
[7] Incompatible liquid A and liquid B are mixed and pulverized by a first liquid atomizer to obtain a first mixture emulsion (A/B emulsion) containing A particles having a constant fine particle size. The first step,
Liquid B and solid Z are mixed and pulverized by a solid/liquid refining device to obtain a solid/liquid mixture (B/Z solid/liquid mixture) consisting of a solid/liquid mixture containing Z solid particles having a constant fine particle size. A second step of
Liquid-B and gas X are mixed and pulverized by a gas-liquid refiner, and a gas-liquid mixture (B-X gas-liquid mixture) is formed from a gas-liquid mixture containing X gas particles having a certain fine size. A third step of obtaining
The first mixture emulsion (A/B emulsion) obtained in the first step, the solid/liquid mixture (B/Z solid/liquid mixture) obtained in the second step, and the gas/gas mixture obtained in the third step And a fourth step of producing a third adjusted mixture (A/B/X/Z gas/solid/liquid mixture) by mixing the liquid mixture (B/X gas/liquid mixture) at a constant ratio. A method for producing a regulated micro-sized gas-solid-liquid mixture, which is characterized in that
[8] Any one of [1], [2], [5] or [7], characterized in that the liquid A is a water-insoluble liquid fuel such as heavy oil and kerosene, and the liquid B is water. A method for producing a tuned microsized mixture according to paragraph.
[9] The liquid A is edible oil such as sesame oil, rice oil, and salad oil, and the liquid B is water [1], [2], [5], or [7]. The method for producing a tuned micro-sized mixture according to.
[10] The liquid A is cosmetic oil such as jojoba oil, camellia oil, olive oil, squalane, etc., and the liquid B is water [1], [2], [5] or [7] The method for producing the adjusted microsized mixture according to any one of 1.
[11] The adjustment according to any one of [3], [4], [6] or [7], wherein the gas X is air or nitrogen or hydrogen and the liquid B is water. A method for producing a micro-sized gas-liquid mixture.
[12] The adjusted minute amount according to any one of [3], [4], [6] or [7], wherein the gas Y is oxygen or ozone and the liquid B is water. Manufacturing method of size gas-liquid mixture.
[13] The atmosphere described in any one of [3], [4], [6], [7], [8], [9], [11] or [12]. A method for producing a micro-sized gas-liquid mixture, wherein the liquid mixture is microbubble water or nanobubble water.
本願発明によれば、液体、固体及び気体の各種微小粒子径の混合物を粒径を制御した状態のものとして容易に提供することができ、各種用途に使用でき、効果が発揮される。
そして、例えばナノバブル水においては、水H2Oはイオン化することでH+及びO-となり、油性燃料の主成分である炭素(C)が酸素(O)と結合して、CO2 となる前に、これらのイオンと結合し、CH及びCOHとなり、結果的にCO2の発生を抑制する。そして、燃焼時の有害ガスの発生抑制作用を発揮する。
According to the present invention, it is possible to easily provide a mixture of various fine particle sizes of liquid, solid, and gas in a state in which the particle size is controlled, and it is possible to use it for various applications and to exert its effects.
Then, for example, in nanobubble water, water H 2 O becomes H + and O − by being ionized, and carbon (C), which is the main component of the oily fuel, bonds with oxygen (O) to become CO 2. In addition, it binds to these ions to form CH and COH, and eventually suppresses the generation of CO 2 . And, it exerts an effect of suppressing the generation of harmful gas during combustion.
本願発明の実施の形態を具体的に説明する。
非相溶性の液体Aと液体Bを第1の液体微細化装置で混合・粉砕して、一定微小粒子径のA粒子を含む第1の混合物エマルジョン(A・Bエマルジョン)を取得する第1工程においては、
例えば液体Aとして油性燃料の重油又は灯油、食用油としてのサラダオイル、米油、ごま油等、が挙げられ、液体Bとして水が挙げられ、それら微細混合y物としてのエマルジョンとなる。
そしてそれらを別別の液体微細化装置(エマルジョン製造装置)で製造し、別々のエマルジョンを一定割合で混合して粒径の調整された混合物エマルジョン(A・A’・Bエマルジョン)を製造する。
製造されたエマルジョンは、加水燃料や食用ドレッシング等として製品化される。
Embodiments of the present invention will be specifically described.
A first step of mixing and pulverizing incompatible liquids A and B with a first liquid atomizer to obtain a first mixture emulsion (A/B emulsion) containing A particles having a constant fine particle size. In
Examples of the liquid A include heavy oil or kerosene as an oily fuel, salad oil as an edible oil, rice oil, sesame oil, and the like, and the liquid B includes water, which is an emulsion as a fine mixture y thereof.
Then, they are manufactured by another liquid refining device (emulsion manufacturing device), and the different emulsions are mixed at a constant ratio to manufacture a mixture emulsion (A/A'/B emulsion) having a controlled particle size.
The produced emulsion is commercialized as a hydrofuel, an edible dressing, or the like.
また、例えば、マイクロバブル水、ナノバブル水等を製造するには、水Bと気体、例えば空気Xを気・液微細化装置で混合・粉砕して、一定微小粒子径の気体粒子を含む気・液混合物からなる第1の気・液混合物(B・X気・液混合物)を取得し、また水Bと空気Xを第2の気・液微細化装置で混合・粉砕して、別微小サイズの粒子径の空気X’気体粒子を含む気・液混合物からなる第2の気・液混合物(B・X’気・液混合物)を取得し、第1工程で得られた第1の気・液混合物(B・X気・液混合物)と第2工程で得られた第2の気・液混合物(水・空気X、空気X’気・液混合物)とを一定割合で混合して第3の調整された混合物(水B・空気X・空気X’気・液混合物)を製造する。
また、液体(水)Bと気体X(空気)を第1の気・液微細化装置で混合・粉砕して、一定微小粒子径のX気体粒子を含む気・液混合物からなる第1の気・液混合物(B水・X空気、気・液混合物)を取得する第1工程と、
液体B水と気体Y水素を第2の気・液微細化装置で混合・粉砕して、一定微小粒子径のY水素気体粒子を含む気・液混合物からなる第2の気・液混合物(B水・Y水素気・液混合物)を取得する第2工程と、
第1工程で得られた第1の気・液混合物(B・X気・液混合物)と第2工程で得られた第2の気・液混合物(B・Y気・液混合物)とを一定割合で混合して第3の調整された混合物(B水・X空気・Y水素:気・液混合物)を製造することできる。
Further, for example, in order to produce micro-bubble water, nano-bubble water, etc., water B and a gas, for example, air X, are mixed and pulverized by a gas/liquid micronization device, and a gas containing gas particles having a constant fine particle diameter is formed. Obtain a first gas/liquid mixture (B/X gas/liquid mixture) consisting of a liquid mixture, and mix and pulverize water B and air X with a second gas/liquid micronization device to obtain a different micro size. A second gas/liquid mixture (B/X′ gas/liquid mixture) consisting of a gas/liquid mixture containing air X′ gas particles having a particle size of The liquid mixture (B/X gas/liquid mixture) and the second gas/liquid mixture (water/air X, air X′ gas/liquid mixture) obtained in the second step are mixed at a constant ratio to form a third mixture. To prepare a conditioned mixture (water B/air X/air X′ gas/liquid mixture).
Further, the liquid (water) B and the gas X (air) are mixed and pulverized by the first gas/liquid atomization device to form a first gas composed of a gas/liquid mixture containing X gas particles having a constant fine particle diameter. A first step of obtaining a liquid mixture (B water/X air, gas/liquid mixture),
Liquid B water and gaseous Y hydrogen are mixed and pulverized by a second gas/liquid atomizing device to form a second gas/liquid mixture (B) containing a gas/liquid mixture containing Y hydrogen gas particles having a constant fine particle diameter. A second step of obtaining a water/Y hydrogen gas/liquid mixture),
The first gas/liquid mixture (B/X gas/liquid mixture) obtained in the first step and the second gas/liquid mixture (B/Y gas/liquid mixture) obtained in the second step are kept constant. It is possible to mix in proportions to produce a third conditioned mixture (B water/X air/Y hydrogen:gas/liquid mixture).
さらに、液・気・固からなる混合物を製造することもできる。
すなわち、液体B(水)と固体Z(石炭)を第1の固・液微細化装置で混合・粉砕して、一定微小粒子径のZ固体(石炭)粒子を含む固・液混合物からなる第1の固・液混合物(B・Z固・液混合物)を取得する第1工程と、
液体Bと気体X(空気)を第2の気・液微細化装置で混合・粉砕して、一定微小サイズの粒子径のX気体粒子を含む気・液混合物(ナノバブル水)からなる第2の気・液混合物(B・X気・液混合物(ナノバブル水))を取得する第2工程と、
第1工程で得られた第1の固・液混合物(B・Z固・液混合物)と第2工程で得られた第2の気・液混合物(B・X気・液混合物)とを一定割合で混合して第3の調整された混合物(B(水)・X(空気)・Z(石炭):気・固・液混合物)を製造する。これら混合物を例えば優良な燃料としてボイラーで燃焼してエネルギーとなす。
Further, it is possible to produce a mixture of liquid, gas and solid.
That is, the liquid B (water) and the solid Z (coal) are mixed and pulverized by the first solid/liquid refining device to form a solid/liquid mixture containing Z solid (coal) particles having a constant fine particle diameter. A first step of obtaining a solid/liquid mixture (B/Z solid/liquid mixture) of 1;
The liquid B and the gas X (air) are mixed and pulverized by a second gas/liquid atomization device, and a second gas/liquid mixture (nano bubble water) containing X gas particles of a certain fine size is formed. A second step of obtaining a gas/liquid mixture (B/X gas/liquid mixture (nanobubble water));
The first solid/liquid mixture (B/Z solid/liquid mixture) obtained in the first step and the second gas/liquid mixture (B/X gas/liquid mixture) obtained in the second step are kept constant. Mix in proportions to produce a third adjusted mixture (B (water).X (air).Z (coal): gas-solid-liquid mixture). For example, the mixture is burned as a good fuel in a boiler to generate energy.
上記において、
液体Aがホホバオイル、ツバキオイル、オリーブオイル、スクワラン等の化粧品用油であり、液体Bが水であることも好ましい。
気体Xが空気、窒素又は水素であり、液体Bが水であること、気体Yが酸素又はオゾンであってもよい。
In the above,
It is also preferable that the liquid A is a cosmetic oil such as jojoba oil, camellia oil, olive oil and squalane, and the liquid B is water.
The gas X may be air, nitrogen or hydrogen, the liquid B may be water, and the gas Y may be oxygen or ozone.
図1は本願発明の一実施例のフローチャート図であり、第1の液体微細化装置1において、水と油(灯油)を混合して一定粒径サイズのエマルジョンを生成させる一方、第2の体微細化装置2において水と油(重油)を混合して一定粒径サイズのエマルジョンを生成させる。
さらに、気液微細化装置3において水と空気を混合してナノバブル水を生成させる。
次いで、上記第1の液体微細化装置1で生成されたエマルジョンと第2の体微細化装置2で生成されたエマルジョンと気液微細化装置3で生成されたナノバブル水を混合機4に入れて混合する。
こうして製造された混合加水燃料を内南機関(エンジン)やボイラーに供給して燃焼させ、燃焼効率を高め、完全燃焼化させて清浄化ガスを排出させて、環境汚染を回避させる。
FIG. 1 is a flow chart of an embodiment of the present invention. In the first liquid atomization apparatus 1, water and oil (kerosene) are mixed to generate an emulsion having a constant particle size, while the second body is used. In the refining device 2, water and oil (heavy oil) are mixed to generate an emulsion having a constant particle size.
Further, water and air are mixed in the gas-liquid refiner 3 to generate nanobubble water.
Next, the emulsion produced by the first liquid atomizing device 1, the emulsion produced by the second body atomizing device 2 and the nanobubble water produced by the gas-liquid atomizing device 3 are put into a mixer 4. Mix.
The mixed hydrofuel produced in this way is supplied to an inland engine (engine) or a boiler for combustion to improve combustion efficiency and complete combustion to discharge purified gas, thereby avoiding environmental pollution.
1:第1の液体微細化装置
2:第2の体微細化装置
3:気液微細化装置
4:混合機
1: First liquid refining device 2: Second body refining device 3: Gas-liquid refining device 4: Mixer
Claims (13)
非相溶性の液体Aと液体Bを第2の液体微細化装置で混合・粉砕して、別微小粒子径のA’粒子を含む第2の混合物エマルジョン(A’・Bエマルジョン)を取得する第2工程と、
第1工程で得られた第1の混合物エマルジョン(A・Bエマルジョン)と第2工程で得られた第2の混合物エマルジョン(A’・Bエマルジョン)とを一定割合で混合して第3の調整された混合物エマルジョン(A・A’・Bエマルジョン)を製造する第3工程とからなることを特徴とする調整された微小サイズの混合物エマルジョンの製造方法。 A first step of mixing and pulverizing incompatible liquids A and B with a first liquid atomizer to obtain a first mixture emulsion (A/B emulsion) containing A particles having a constant fine particle size. When,
Incompatible liquid A and liquid B are mixed and pulverized by a second liquid atomization device to obtain a second mixture emulsion (A′·B emulsion) containing A′ particles of different fine particle diameters. 2 steps,
Third mixture by mixing the first mixture emulsion (A/B emulsion) obtained in the first step and the second mixture emulsion (A′/B emulsion) obtained in the second step at a constant ratio And a third step of producing a mixed emulsion (A·A′·B emulsion) prepared as described above.
非相溶性の液体Bと液体Cを第2の液体微細化装置で混合・粉砕して、別微小粒子径のC粒子を含む第2の混合物エマルジョン(B・Cエマルジョン)を取得する第2工程と、
第1工程で得られた第1の混合物エマルジョン(A・Bエマルジョン)と第2工程で得られた第2の混合物エマルジョン(B・Cエマルジョン)とを一定割合で混合して第3の調整された混合物エマルジョン(A・B・Cエマルジョン)を製造する第3工程とからなることを特徴とする調整された微小サイズの混合物エマルジョンの製造方法。 A first step of mixing and pulverizing incompatible liquids A and B with a first liquid atomizer to obtain a first mixture emulsion (A/B emulsion) containing A particles having a constant fine particle size. When,
Second step of mixing and pulverizing incompatible liquid B and liquid C with a second liquid atomizer to obtain a second mixture emulsion (B/C emulsion) containing C particles of different fine particle sizes When,
The first mixture emulsion (A/B emulsion) obtained in the first step and the second mixture emulsion (B/C emulsion) obtained in the second step are mixed at a constant ratio to make a third adjustment. And a third step for producing a mixed emulsion (A, B, C emulsion).
液体Bと気体Xを第2の気・液微細化装置で混合・粉砕して、別微小サイズの粒子径のX’気体粒子を含む気・液混合物からなる第2の気・液混合物(B・X’気・液混合物)を取得する第2工程と、
第1工程で得られた第1の気・液混合物(B・X気・液混合物)と第2工程で得られた第2の気・液混合物(B・X’気・液混合物)とを一定割合で混合して第3の調整された混合物(B・X・X’気・液混合物)を製造する第3工程とからなることを特徴とする調整された微小サイズ気・液混合物の製造方法。 The liquid B and the gas X are mixed and pulverized by the first gas/liquid atomization device, and the first gas/liquid mixture (B/X gas) is formed from a gas/liquid mixture containing X gas particles having a constant fine particle diameter. A first step of obtaining a liquid mixture),
Liquid B and gas X are mixed and pulverized by a second gas/liquid atomization device, and a second gas/liquid mixture (B containing a gas/liquid mixture containing X′ gas particles having a particle size of another minute size (B A second step of obtaining (X' gas-liquid mixture),
The first gas/liquid mixture (B/X gas/liquid mixture) obtained in the first step and the second gas/liquid mixture (B/X′ gas/liquid mixture) obtained in the second step A third step of producing a third adjusted mixture (B/X/X' gas/liquid mixture) by mixing at a fixed ratio, and manufacturing a regulated micro-sized gas/liquid mixture. Method.
液体Bと気体Yを第2の気・液微細化装置で混合・粉砕して、一定微小粒子径のY気体粒子を含む気・液混合物からなる第2の気・液混合物(B・Y気・液混合物)を取得する第2工程と、
第1工程で得られた第1の気・液混合物(B・X気・液混合物)と第2工程で得られた第2の気・液混合物(B・Y気・液混合物)とを一定割合で混合して第3の調整された混合物(B・X・Y気・液混合物)を製造する第3工程とからなることを特徴とする調整された微小サイズ気・液混合物の製造方法。 The liquid B and the gas X are mixed and pulverized by the first gas/liquid atomization device, and the first gas/liquid mixture (B/X gas) is formed from a gas/liquid mixture containing X gas particles having a constant fine particle diameter. A first step of obtaining a liquid mixture),
The liquid B and the gas Y are mixed and pulverized by a second gas/liquid refiner, and a second gas/liquid mixture (B/Y gas) is formed from a gas/liquid mixture containing Y gas particles having a constant fine particle diameter. A second step of obtaining a liquid mixture),
The first gas/liquid mixture (B/X gas/liquid mixture) obtained in the first step and the second gas/liquid mixture (B/Y gas/liquid mixture) obtained in the second step are kept constant. And a third step of producing a third adjusted mixture (B/X/Y gas/liquid mixture) by mixing in proportions.
液体Bと固体Zを第2の固・液微細化装置で混合・粉砕して、一定微小サイズの粒子径のZ固体粒子を含む固・液混合物からなる第2の固・液混合物(B・Z固・液混合物)を取得する第2工程と、
第1工程で得られた第1の液体混合物(A・B液体混合物)と第2工程で得られた第2の固・液混合物(B・Z固・液混合物)とを一定割合で混合して第3の調整された混合物(A・B・Z固・液混合物)を製造する第3工程とからなることを特徴とする調整された微小サイズ気・固・液混合物の製造方法。 Incompatible liquid A and liquid B are mixed and pulverized by a first liquid atomizer to obtain a first mixture emulsion (A/B emulsion) containing A liquid particles having a constant fine particle diameter. Process,
Liquid B and solid Z are mixed and pulverized by a second solid/liquid refining device to form a second solid/liquid mixture (B. A second step of obtaining a Z solid/liquid mixture),
The first liquid mixture (A/B liquid mixture) obtained in the first step and the second solid/liquid mixture (B/Z solid/liquid mixture) obtained in the second step are mixed at a constant ratio. And a third step of producing a third adjusted mixture (A/B/Z solid/liquid mixture).
液体Bと気体Xを第2の気・液微細化装置で混合・粉砕して、一定微小サイズの粒子径のX気体粒子を含む気・液混合物からなる第2の気・液混合物(B・X気・液混合物)を取得する第2工程と、
第1工程で得られた第1の固・液混合物(B・Z固・液混合物)と第2工程で得られた第2の気・液混合物(B・X気・液混合物)とを一定割合で混合して第3の調整された混合物(B・X・Z気・固・液混合物)を製造する第3工程とからなることを特徴とする調整された微小サイズ気・固・液混合物の製造方法。 The liquid B and the solid Z are mixed and crushed by the first solid/liquid refining device to form a first solid/liquid mixture (B/Z solid) including a solid/liquid mixture containing Z solid particles having a constant fine particle diameter. A first step of obtaining a liquid mixture),
The liquid B and the gas X are mixed and pulverized by a second gas/liquid atomization device, and a second gas/liquid mixture (B. A second step of obtaining (X gas/liquid mixture),
The first solid/liquid mixture (B/Z solid/liquid mixture) obtained in the first step and the second gas/liquid mixture (B/X gas/liquid mixture) obtained in the second step are kept constant. A third step of producing a third adjusted mixture (B/X/Z gas/solid/liquid mixture) by mixing in a ratio, and a controlled micro-sized gas/solid/liquid mixture. Manufacturing method.
液体Bと固体Zを固・液微細化装置で混合・粉砕して、一定微小粒子径のZ固体粒子を含む固・液混合物からなる固・液混合物(B・Z固・液混合物)を取得する第2工程と、
液体Bと気体Xを気・液微細化装置で混合・粉砕して、一定微小サイズの粒子径のX気体粒子を含む気・液混合物からなる気・液混合物(B・X気・液混合物)を取得する第3工程と、
第1工程で得られた第1の混合物エマルジョン(A・Bエマルジョン)と、第2工程で得られた固・液混合物(B・Z固・液混合物)と第3工程で得られた気・液混合物(B・X気・液混合物)とを一定割合で混合して第4の調整された混合物(A・B・X・Z気・固・液混合物)を製造する第4工程とからなることを特徴とする調整された微小サイズ気・固・液混合物の製造方法。 A first step of mixing and pulverizing incompatible liquids A and B with a first liquid atomizer to obtain a first mixture emulsion (A/B emulsion) containing A particles having a constant fine particle size. When,
Liquid B and solid Z are mixed and pulverized by a solid/liquid refining device to obtain a solid/liquid mixture (B/Z solid/liquid mixture) consisting of a solid/liquid mixture containing Z solid particles having a constant fine particle size. A second step of
Liquid-B and gas X are mixed and pulverized by a gas-liquid refiner, and a gas-liquid mixture (B-X gas-liquid mixture) is formed from a gas-liquid mixture containing X gas particles having a certain fine size. A third step of obtaining
The first mixture emulsion (A/B emulsion) obtained in the first step, the solid/liquid mixture (B/Z solid/liquid mixture) obtained in the second step, and the gas/gas mixture obtained in the third step A fourth step of producing a fourth adjusted mixture (A/B/X/Z gas/solid/liquid mixture) by mixing the liquid mixture (B/X gas/liquid mixture) at a constant ratio. A method for producing a regulated micro-sized gas-solid-liquid mixture, which is characterized in that
A micro-sized gas characterized in that the gas-liquid mixture according to any one of claims 3, 4, 6, 7, 8, 9, 10, 11 or 12 is microbubble water or nanobubble water. A method for producing a liquid mixture.
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