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Satoshi ANZAI
Nanobubble Generators









Related: Nanobubble Generator Patents



http://anzaimcs.com/en/main/examplenanobubble.html

ANZAIMCS


Anzaikantetsu
230-0071 Komaoka 3-1-16, Tsurumi-ku, Yokohama City, Kanagawa

 sterilization .. cleaning ...  living body activation ... growth promotion ...
 cell protection  ....  vaporization promotion ...  environmental purification ... medical field

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Eliminating noroviruses from oyster has been an important issue in the oyster cultivation business. Washing oysters using ultrafine bubbles including ozone two days prior to shipment eliminates any noroviruses and results in beautiful cream-colored oysters.

Ultrafine bubbles are present in every hole and corner of the cells of organisms, activate them, and at the same time prevent the structure of cells from breaking down when frozen.

oysters

Living oysters frozen at minus 20 degrees Celsius the previous day come alive again after being thawed in seawater at room temperature. The cells of oysters cultivated in water containing ultrafine bubbles for two days retain their shape even after the oyster was frozen.  Source: Research paper prepared by Professor Masayoshi Takahashi, The National Institute of Advanced Industrial Science and Technology

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The many vapor and liquid interfaces of ultrafine bubbles aid in more effective heat transfer. The structure below shows a direct heat type ultrafine bubble generator, for which we have applied for a patent for. It can be used to very efficiently increase the temperature of the liquid phase. In addition, cooling the vapor phase supplied enables the temperature of the liquid phase to be more effectively decreased.

Ultrafine bubble technology can potentially be used in a new type of medical treatment.

Many medical science doctors have high expectations of ultrafine bubble technology. A variety of positive effects in a number of applications have been confirmed, and in including medical treatment for carcinoma of the colon and rectum, cancer of the esophagus, cancer of the larynx, skin cancer, gum disease, arterial sclerosis, infections, artificial dialysis, and barium meal transplantation.

During the war ozone water was considered a magic lifesaver. Ozone water can now easily be created using ultrafine bubble technology. In addition, civilian use of technology such as oxygenated water containing nanobubbles and nanobubbles baths is increasing in popularity. The availability of simple water purification systems could help save up to 600 million people merely in eastern Asia. Ultrafine bubble technology could thus doubly contribute to people's health by providing preventive measures and countermeasures.

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http://www.nanobubblesolutions.com/tech/tech.php
Nanobubble Solutions

what are nanobubbles?
Nano or ultrafine bubbles have a diameter of less than 50 microns and unique physical characteristics that differ from other types of bubbles.
They are too small to rise up through liquid and get compressed by negative ions at the gas-liquid interface so don’t combine to form larger bubbles. This means they remain in liquid for a long time. They then shrink leaving their entire gas load in the liquid.

Nanobubbles were first discovered in 1894 when the Royal Navy was testing a high speed torpedo boat. Lord Rayleigh, the legendary classical physicist, investigated further and discovered that micro nanobubbles collapsed and generated high levels of heat and pressure.

Nanobubbles have previously been produced in a variety of cumbersome and expensive ways. However now, a new, unique carbon ceramic technology, which works by osmosis, supersedes everything that has gone before. Using only a fraction of the energy required by other methods, this technology, invented by Nanobubble Solutions Limited (NBS) co-owner and company director Satoshi Anzai, can be used for a far greater number of applications and produces double the number of bubbles achieved by any other system.

the material/units
Carbon ceramic looks and feels like a smooth stone. Gas is placed into the diffuser head at 29psi pressure (or less) and exits from the whole surface of the diffuser head by osmosis. The gas is picked up, as nanobubbles, as the liquid passes through the unit. The standard range of in-Line generators come in different sizes to accommodate different volumes of liquid in order to guarantee the 90% gas transfer rate at that scale of operation. Diffuser heads are either small nozzle type (1 below) or plate type (2 below). We will also design to order and offer rotary/propeller type diffusers that operate directly in liquid (3 below).

benefits of this technology
works by osmosis with no mechanical parts
can place any gas into any liquid
gas remains in liquid and in ONE PASS guarantees
a 90% gas transfer/saturation rate (double any other system)
works on very low pressure, maximum 29psi
operational in high temperatures
extremely low energy requirement so outstanding cost effectiveness
can place nanobubbles into liquids of high viscosity (think mayonnaise)
can easily up-size to large scale production without increase in pressure or energy
in-line, rotary/propeller and ultrasonic methods of delivery -
making nanobubbles available to a far greater number of industries
(for example pharmaceutical and mining/ferric leaching)
replaces or reduces need to use chemicals, so more environmentally friendly
electrical charge and high frequency induction heating allowed

patent protection
Developed over a number of years, Mr Anzai has successfully registered patents in Japan, the US (no 8,919,747 B2) and Europe for his carbon ceramic technology. Nanobubble Solutions Limited (NSL), is part-owned by Mr Anzai and he is also a director of the company which has secured the right to develop and market the technology in the USA, Europe and the Middle East along with certain other English speaking territories around the world.



Satoshi Anzai

anzai


PATENTS

WO2017217402  
ULTRAFINE BUBBLE GENERATION DEVICE FOR AQUACULTURE OR WASTEWATER TREATMENT

Provided is an ultrafine bubble generation device for aquaculture or wastewater treatment with which it is possible to efficiently cause ultrafine bubbles to be dissolved or to coexist, and to increase the concentration of a gas in the liquid. An ultrafine bubble generation device 1 for aquaculture or wastewater treatment provided with a channel 21 for channeling a liquid, a compression device 22 for pumping a gas into the channel 21, and a bubble generation medium 23 for releasing the gas pumped by the compression device 22 as ultrafine bubbles into the liquid in the channel 21, wherein the bubble generation medium 23 is formed from a carbon-based porous material and is disposed so as to be horizontal or below horizontal with respect to the direction of flow of the liquid in the channel 21.


   
JP2017112969
LIVE FISH ANESTHESIA APPARATUS

PROBLEM TO BE SOLVED: To provide a live fish anesthesia apparatus capable of efficiently supplying a mixture gas containing oxygen and carbon dioxide into water.SOLUTION: There is provided a live fish anesthesia apparatus 1 for performing anesthesia to a live fish by supplying a mixture gas containing oxygen and carbon dioxide into sea water or fresh water, comprising: a water tank 2 for storing sea water or fresh water; and a superfine air bubble generator 3 for supplying the gas as superfine air bubbles into the water tank 2. The superfine air bubble generator 3 comprises: an air bubble generation medium 30 formed of a carbon porous material; a mixture gas container 34 for storing the mixture gas in which the carbon dioxide and oxygen are mixed at a prescribed ratio; and an adjustment valve 25 for adjusting pressure of the mixture gas stored in the mixture gas container



WO2017069189
Hydrometallurgy Device

PROBLEM TO BE SOLVED: To provide a wet type refining machine that has strong acid resistance and high temperature resistance and can efficiently dissolve an oxidant in an acid in a reaction tank.SOLUTION: A wet type refining machine 1, in which an acid is sprayed on a slurry obtained by pulverizing ore containing metal to infuse metal oxide from the ore and the metal is recovered by electroextraction using an insoluble electrode from a liquid containing the metal oxide, includes a reaction tank 11 in which the pulverized ore is charged in the acid, and the metal contained in the ore is oxidized and infused, and a superfine foam generator 12 for supplying a gas as superfine foams in the inside of the reaction tank 11, in which the superfine foam generator 12 has a foam generation medium 26 made of a carbon system porous raw material.



JP2016137481
SUPERFINE BUBBLE GENERATOR FOR BATHROOM

PROBLEM TO BE SOLVED: To provide a shower device capable of generating a large amount of superfine bubbles having a uniform size.SOLUTION: A shower 1 (a superfine bubble generator for a bathroom) for discharging water including superfine bubbles includes: a water supply part 2 for supplying water; a water supply pipe 3 (a water supply passage) connected to the downstream side of the water supply part 2; a discharge part 4 connected to the downstream side of the water supply pipe 3 that includes a plurality of water sprinkling holes 4a; a porous bubble generation medium 5, a part or the whole of which is a composite body of graphite and non-metal; a gas supply passage 6 through which gas sent to the inside of the bubble generation medium 5 passes; and gas supply means 7 provided on the upstream side of the gas supply passage 6 for sending the gas to the inside of the bubble generation medium 5. A flow rate opening/closing valve 11 (a valve) for opening/closing the gas supply passage 6 is provided to the water supply part 2, and when water flows from the water supply part 2, the flow rate opening/closing valve 11 is turned into an open state.



JP2016137481 // WO2016117548

ULTRAFINE-BUBBLE-GENERATING DEVICE FOR BATH

Provided is an ultrafine-bubble-generating device for use in the bath, with which it is possible to generate large amounts of fine bubbles of uniform size. This shower 1 (ultrafine-bubble-generating device for the bath) discharges water containing ultrafine bubbles, and comprises a water supply part 2 for supplying water, a water supply pipe 3 (water supply passage) linked to the downstream side of the water supply part 2, a discharge part 4 linked to the downstream side of the water supply pipe 3 and having a plurality of spray holes 4a, a bubble-generating medium 5 that is porous and made partially or entirely of a complex of graphite and a non-metal, a gas feed passage 6 through which a gas being fed into the bubble-generating medium 5 passes, and a gas feed means 7 situated to the upstream side of the air feed passage 6, for feeding a gas into the bubble-generating medium 5. The water supply part 2 is provided with a flow rate on-off valve 11 (valve) for opening and closing the air feed passage 6, and the flow rate on-off valve 11 is in an open state when water flows from the water supply part 2.



JP2016117043
MANUFACTURING APPARATUS OF LIQUID CONTAINING OZONE

PROBLEM TO BE SOLVED: To provide a manufacturing apparatus of liquid containing ozone capable of efficiently releasing heat upon ozone generation and capable of improving oxidative actuation of the liquid containing ozone.SOLUTION: A manufacturing apparatus of liquid containing ozone includes: a UV-ray irradiation lamp 2; a first cylindrical body 3 which stores the UV-ray irradiation light 2 on an inner part; a second cylindrical body 4 which stores the first cylindrical body 3 on an inner part; a liquid channel 6 disposed between an outer wall of the first cylindrical body 3 and an inner wall of the second cylindrical body 4; a pump (force-feeding means) 7 which compresses and feeds gas to the inner part of the first cylindrical body 3; and an ultrafine air bubble generation device 10 which irradiates gas fed to an inner part of the first cylindrical body 3 with UV rays by the UV-ray irradiation lamp 2 and, thereby, generates ultrafine air bubbles containing ozone in liquid by using the generated ozone. Therein, in the ultrafine air bubble generation device 10, the liquid in which the ultrafine air bubbles containing ozone is generated is sent to a liquid channel



JP2016060713
METHOD FOR MANUFACTURING COSMETIC CONTAINING SUPERFINE AIR BUBBLES

PROBLEM TO BE SOLVED: To provide a method for manufacturing a cosmetic containing superfine air bubbles in which various types of gas as superfine air bubbles can be mixed into a cosmetic being highly viscous liquid.SOLUTION: A method for manufacturing cosmetic has: a conveyance process S30 of conveying from a storage tank 1 to a hopper 2 for dividing into a smaller amount; and an injection process S40 of injecting the liquid conveyed to the hopper 2 from an inlet 3 into a product container 10, in which the method has a superfine air bubbles generation process S35 of generating superfine air bubbles in the liquid while the liquid conveyed to the hopper 2 moves from the hopper 2 to the inlet 3. In the superfine air bubble generation process S35, a superfine air bubble generator 20 equipped with a compressor 21 and an air bubble generating medium 22 is used, the air bubble generating medium 22 is formed of a porous high-density complex a part or all of which is a complex of graphite and non-metal, and gas is pressure-fed from the compressor 21 into an internal space 22a of the air bubble generating medium 22 to generate superfine air bubbles from fine holes 22b of the air bubble generating medium



JP2016055262
GENERATOR FOR GENERATING ULTRAFINE BUBBLES CONTAINING OZONE

PROBLEM TO BE SOLVED: To provide a generator for generating ultrafine bubbles containing ozone, which can release the heat of a light source efficiently by a simple method.SOLUTION: An ultrafine air bubble generator 1 or a generation device for ultra-fine air bubbles containing ozone comprises: an air bubble generating medium 2 formed of a porous high-density composite or a composite of partially or wholly graphite or a nonmetal; a pump 4 (or pressure-feeding means) for feeding a gas into the air bubble generating medium 2; and a light source 3 for generating ozone by irradiating said gas with an ultraviolet ray, and the light source 3 is arranged inside of the air bubble generating medium



JP2012137265
COOLING DEVICE

PROBLEM TO BE SOLVED: To provide a cooling device which can be operated with small power consumption, improving evaporation efficiency, and efficiently cooling a filler material in a cooling tower.SOLUTION: The cooling device 100 includes the cooling tower 2 having the filler material 11, watering parts 12L, 12R, and a water storage part 13, cooling water passages 3L, 3R, and ultrafine bubble generators 5L, 5R generating a gas in the cooling water as ultrafine bubbles. The ultrafine bubble generators 5L, 5R have bubble generation media 32L, 32R disposed inside of the cooling water passages 3L, 3R, and compressors 31L, 31R, the bubble generation mediums 32L, 32R are constituted of high-density complex, the high-density complex is an electric conductor, and the bubble generation media 32L, 32R have a number of fine holes 32b of a diameter of several μm or less.



US8919747
SUPER-MICRO BUBBLE GENERATION DEVICE

Provided is a super-micro bubble generation device providing super-micro bubbles using a simple method and having a higher degree of freedom of installation so as to be suitable for a place where the device is to meet functional requirements. A super-micro bubble generation device is provided with a compressor for delivering gas under pressure, and also with a bubble generation medium for discharging the gas, which has been delivered under pressure, as super-micro bubbles into liquid. The bubble generation medium consists of a high-density compound which is an electrically conductive substance.; The super-micro bubble generation device is also provided with a liquid jetting device for jetting liquid in the direction substantially perpendicular to the direction in which the bubble generation medium discharges the super-micro bubbles, said liquid being the same kind of liquid as the liquid into which the super-micro bubbles are discharged.



JP2012011355
SUPERFINE BUBBLE GENERATING APPARATUS

PROBLEM TO BE SOLVED: To provide a superfine bubble generating apparatus generating superfine bubbles of small particle sizes with a simple method, having high durability and saving maintenance cost.SOLUTION: The superfine bubble generating apparatus 1 includes: a motor 2; a rotary shaft 3 connected to the motor 2 and having a passage 31 inside the rotary shaft at a center part; at least one or more rotary bodies 4 not relatively rotatably provided to the rotary shaft 3 at the lower part of the rotary shaft 3; rotary blades provided at ends of the rotary bodies 4 and composed of a high density composite body; a crank mechanism 6 converting the rotary movement of the rotary shaft 3 into the reciprocation movement; and an air cylinder 7 connected to the rotary shaft 3 via the crank mechanism 6. The motor includes an inverter 23 changing the rotary speed, and the sliding speed of the air cylinder 7 is made to correspond to the rotary speed of the rotary bodies 4.



JP2011224434
SUPERFINE BUBBLE GENERATOR

PROBLEM TO BE SOLVED: To provide a superfine bubble generator which can perform generation of superfine bubbles and electrolysis with a single device.SOLUTION: The superfine bubble generator 1 includes a flow pipe 2 for allowing a liquid having electrical conductivity to flow therethrough, bubble generating media 3A, 3B installed in the middle of the flow pipe 2, and compressors 5, 5 for forcibly feeding a gas to the bubble generating media 3A, 3B. The bubble generating media 3A, 3B are formed of a high-density composite having electrical conductivity, and a voltage is applied to the bubble generating media 3A, 3B.



JP5528764
PLASMA GENERATING APPARATUS

PROBLEM TO BE SOLVED: To provide a generation apparatus capable of efficiently cooling electrode bars with air, discharging sufficient quantity of electric charges, even if a voltage applied to the electrode bars drops, and properly changing the discharge faces of the electrode bars. ;SOLUTION: The plasma generating apparatus 1 applies a voltage across a first electrode bar 11 and a second electrode bar 12 to cause discharge for plasma generation. The first electrode bar 11 and second electrode bar 12 are made of a high-density complex having high heat conductivity and are so arranged that the outer peripheral surfaces of both electrode bars face each other. A first support member 13 and a second support member 14 are made of a high-density complex having high heat conductivity, and are moved around the axis of a reactor container 15 so that the both support members are held at given positions relative to the reactor container 15



JP2011031208
APPARATUS AND METHOD FOR CLEANING SOIL OR SLUDGE CONTAMINATED WITH VOLATILE SPECIFIC HARMFUL SUBSTANCE

PROBLEM TO BE SOLVED: To provide an apparatus and a method for cleaning soil or sludge contaminated with volatile specific harmful substances of little environmental load and capable of efficiently performing purification treatment on the contaminated soil with a compact constitution without discharging to the outside not only harmful substances but also combustion gases, dust, and treated water that badly affect the environment. SOLUTION: The apparatus for cleaning soil or sludge contaminated with volatile specific harmful substances include a thermally decomposing apparatus 1 that vaporizes and separates the contaminated substances 91 with a high-frequency induction heating section 14 to clean the soil 90; a condenser 2 that liquefies a contaminant 91; a detoxifying/treating apparatus 3 having an oil-water separation section 31 that separates fat and oil components 91a from the contaminant 91, sedimentation tanks 32, 33 that sediment the sludge from the contaminant 91 to remove the same, decomposing/treating sections 34, 35 that decompose organic compounds to discharge a detoxifying water 80; and a post-treatment apparatus 4 having a post-treatment/conveyance section 42 that conveys the soil 90, a post-treatment/cooling section 44 that cools and treats the soil 90 with the detoxifying water 80, and a detoxifying water supply section 45 that adds the detoxifying water 80 to the soi



JP2011025175
DISTILLATION APPARATUS

PROBLEM TO BE SOLVED: To provide a distillation apparatus capable of attaining stable distillation as well as cost reduction. ;SOLUTION: The distillation apparatus 1 includes a water storage tank 2, a distillation apparatus body 3, a supply pump 4, a decompression pump 5, an apparatus for generating superfine bubble 6, a heat source 7, and a solar power generator 9. The solar power generator 9 includes a solar cell panel 51 and a first cooling panel 81 mounted to be in contact with the lower surface of the solar cell panel 51 to circulate distilled water between the first cooling panel 81 and the inside of a first heat exchange member 84 installed in the water storage tank 2 and make raw material water recover heat of the solar cell panel 51.



WO2011013706
SUPER-MICRO BUBBLE GENERATION DEVICE

A super-micro bubble generation device which can generate super-micro bubbles using a simple method and can be installed by a method which provides a higher degree of freedom of installation to enable the device to be designed so as to be suitable for a place where the device is to be installed and to meet functional requirements. A super-micro bubble generation device is provided with a compressor (2) for delivering gas under pressure, and also with a bubble generation medium (3) for discharging the gas, which has been delivered under pressure, as super-micro bubbles into liquid. The bubble generation medium (3) consists of a high-density compound which is an electrically conductive substance. The super-micro bubble generating device is also provided with a liquid jetting device (4) for jetting liquid in the direction substantially perpendicular to the direction in which the bubble generation medium (3) discharges the super-micro bubbles, said liquid being the same kind of liquid as the liquid into which the super-micro bubbles are discharged.



JP5636173
DISTILLING APPARATUS

PROBLEM TO BE SOLVED: To provide a distilling apparatus for reducing the pressure of a space part inside a body, distilling raw material water and acquiring distilled water, which is capable of efficiently distilling the raw material water with little energy. ;SOLUTION: The distilling apparatus 1 is provided with a superfine bubble generating apparatus 6 projected to the inside from the lower part of a raw material water container 3, a heat source 45 is provided around the superfine bubble generating apparatus 6, and the superfine bubble generating apparatus 6 includes a compressor 41 for forcibly feeding a gas and a bubble generating medium 42 for discharging the forcibly fed gas into the raw material water as superfine bubbles. The bubble generating medium 42 is formed of a high density composite body and the high density composite body is a conductor.



VIDEOS

https://www.youtube.com/watch?v=OR57AGY3shM
Carbon-based Ceramic Nanobubble Nozzle Technology - YouTube
Carbon-based Ceramic Nanobubble Nozzle Technology developed by Satoshi Anzai of Anzai Kantetsu, and applied in The Geyser Reactor invention of Alexander Putney...



http://www.human-resonance.org/geyser_reactor.html

Resonance in the Geyser Reactor System. ...
high-temperature cavitation machines for nanobubble production




YouTube Videos

https://www.youtube.com/watch?v=94X4jG-Ofgg
Carbon Based Airstone Attempt
target="_blank"
https://www.youtube.com/watch?v=boP6hsi4Z8Q
Carbon Based Airstone Attempt

https://www.youtube.com/watch?v=_RORgmY0jXQ
Carbon Based Airstone Attempt

https://www.youtube.com/watch?v=KyBM8j4JdEY
Carbon Airstone for Nanobubbles 7 - More Pores

https://www.youtube.com/watch?v=HbVbt_-WgjI
Smallest nanobubble manufacturer
Anzai Kantetsu
It is a message sent to biologists, cell researchers, infertility medical researchers all over the world, and everyone performing laboratory tests

https://www.youtube.com/watch?v=r4rJKypLijA
Nanobubble technology

https://www.youtube.com/channel/UCgzSe-bKVRkXkL4qpd7SS1A
Anzai Kantetsu

https://www.youtube.com/watch?v=Fqs7ceAJcEw
How to generate microbubbles from a simple pump

CARMIN generators produce huge quantities of very fine microbubbles. Main features: bubbles diameters : 10 to 100 µm (easily adjustable); bubbles production rate : 1 to 10 millions/s ... injection of almost any gas in any liquid (including liquid metals) Main applications: Aeration/Deaeration of liquids, Flotation; Liquid/Gas reactors

http://www.ylec-consultants.com/fr/microbulles-generateurs-injecteurs
Générateurs de nuages de microbulles





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