Kazuyuki Yamasaki
Kazuyuki Yamasaki, Osaka-Shi JP
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20100089133 | NANOBUBBLE-CONTAINING LIQUID PRODUCING APPARATUS AND NANOBUBBLE-CONTAINING LIQUID PRODUCING METHOD - A nanobubble-containing liquid producing apparatus includes: a microbubble generating device that prepares a microbubble-containing liquid with use of a liquid introduced into a microbubble generation tank and discharges the microbubble-containing liquid into the microbubble generation tank; a micro-nanobubble generating device that prepares a micro-nanobubble-containing liquid with use of the microbubble-containing liquid introduced into a micro-nanobubble generation tank and discharges the micro-nanobubble-containing liquid into the micro-nanobubble generation tank; and a nanobubble generating device that prepares a nanobubble-containing liquid with use of the micro-nanobubble-containing liquid introduced into a nanobubble generation tank and discharges the nanobubble-containing liquid into the nanobubble generation tank. Therefore, an apparatus for producing a nanobubble-containing liquid with use of general-purpose products can be manufactured at low cost and in a short period of time. | 04-15-2010 |
Kazuyuki Yamasaki, Hiroshima JP
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20080206362 | DEVICE AND METHOD FOR INCREASING BLOOD FLOW AND INSULIN-LIKE GROWTH FACTOR - In order to provide a device and a method for increasing blood flow and an insulin-like growth factor with use of a large amount of carbonic gas nano bubbles, the device of the present invention includes: a bathtub | 08-28-2008 |
20080243094 | BATHTUB APPARATUS, THERAPEUTIC BATHTUB APPARATUS, BATHING WATER AND THERAPEUTIC BATHING WATER - A bathtub apparatus is provided, including a nanobubble and/or nanosized medical component generating section to combine at least either of nanobubbles or a nanosized medical component with bath water from a bathtub and to circulate the bath water to the bathtub. | 10-02-2008 |
20080296229 | Liquid treatment method and apparatus - The liquid treatment apparatus includes a raw water tank | 12-04-2008 |
20090145827 | Water Treatment System - A first treatment tank ( | 06-11-2009 |
20090266763 | Water Treatment Apparatus and Water Treatment Method | 10-29-2009 |
Kazuyuki Yamasaki, Hiroshima-Ken JP
Patent application number | Description | Published |
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20090020474 | WASTEWATER TREATMENT EQUIPMENT AND METHOD OF WASTEWATER TREATMENT - In wastewater treatment equipment, a surfactant is added to a micronanobubble reaction vessel | 01-22-2009 |
20090032460 | WASTEWATER TREATMENT METHOD AND WASTEWATER TREATMENT EQUIPMENT - In a micronanobubble reaction vessel | 02-05-2009 |
20090127188 | WASTE GAS/WASTEWATER TREATMENT EQUIPMENT AND METHOD OF TREATING WASTE GAS/WASTEWATER - Waste gas/wastewater treatment equipment treats waste gas in a scrubber | 05-21-2009 |
20090152193 | DRAINAGE WATER-TREATING METHOD AND DRAINAGE WATER-TREATING APPARATUS - Drainage water containing an organofluorine compound is introduced into a raw tank ( | 06-18-2009 |
20090250396 | DRAINAGE WATER-TREATING METHOD AND DRAINAGE WATER-TREATING APPARATUS - Drainage water containing organofluorine compounds is introduced into a micro-nano-babble generation tank ( | 10-08-2009 |
Kazuyuki Yamasaki, Hiroshima-Shi JP
Patent application number | Description | Published |
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20080264843 | Manufacturing method, manufacturing device, and application device for liquid containing micro-nano bubbles - The application device for liquid containing micro-nano bubbles generates micro-nano bubbles in a wide size distribution with use of a submerged pump-type micro-nano bubble generator and a spiral flow-type micro-nano bubble generator. A micro-nano bubble generating aid metering pump is controlled by a bubble level meter and a level controller, so that the supply amount of a micro-nano bubble generating aid is controlled in response to the level of bubbles from a fluid level. The supply amount of a micro-nano bubble generating aid is also controlled by a turbidimeter and a controller in response to the turbidity of the liquid in a micro-nano bubble generation tank, while the amount of air supplied to the submerged pump-type micro-nano bubble generator is controlled in response to the turbidity of the liquid. Therefore, the device can produce a large amount of various micro-nano bubbles in a wide size distribution more economically. | 10-30-2008 |
20090101573 | Waste water treatment apparatus and waste water treatment method - In waste water treatment apparatus and method, a mineral mixing tank receives biologically treated water, sludge which is generated by biological treatment, and mineral sludge which contains calcium and so on from a settling tank. A mineral pump returns the sludge and the treated water from the mineral mixing tank to a raw water tank. An air-lift pump circulates treatment water between a reaeration tank having a semi-anaerobic section and a denitrification tank. In circulation of the treatment water between the reaeration tank and the denitrification tank, the semi-anaerobic section alleviates the change of environment for microorganisms and thereby realizes the environment easy to propagate for the microorganisms. The air-lift pump allows the agitation with low energy consumption even when the microorganisms are cultured up to a high concentration thereof. | 04-23-2009 |
Kazuyuki Yamasaki, Sakai-Shi, Osaka JP
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20160103347 | Nozzle Head and Liquid Dispensing Device - The circumferential part of an opening of an ejection part included in a nozzle head is formed in the shape of a convex curved plane. A liquid crystal droplet adhered to the portion with the shape of a convex curved plane of the ejection part smoothly flows down along the outer surface of the ejection part and is adhered to the opening end of the opening. The liquid crystal droplet adhered to the opening end of the opening is absorbed into the liquid crystal droplet to be ejected through the opening and is dispensed downward together with the liquid crystal droplet. This suppresses a large liquid crystal pool being formed on the outer surface of the ejection part. As a result, such problems that liquid crystal to be dispensed is absorbed into a liquid crystal pool while not being dispensed downward and that a large amount of liquid crystal is unnecessarily dispensed from a liquid crystal pool are both be suppressed. In other words, liquid crystal may appropriately be dispensed. | 04-14-2016 |