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generator Product List and Ranking from 602 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Oct 15, 2025~Nov 11, 2025
This ranking is based on the number of page views on our site.

generator Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Oct 15, 2025~Nov 11, 2025
This ranking is based on the number of page views on our site.

  1. サンウェル Mie//Building materials, supplies and fixtures
  2. エンバイロ・ビジョン Tokyo//others
  3. micro-bub Tokyo//Industrial Machinery
  4. 4 ライヴス   東京本社 Tokyo//others
  5. 5 SHINNETSU.Co,.Ltd. Headquarters Ibaraki//Industrial Electrical Equipment
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generator Product ranking

Last Updated: Aggregation Period:Oct 15, 2025~Nov 11, 2025
This ranking is based on the number of page views on our site.

  1. Can be installed in various locations! Hydrogen-oxygen gas generator "Sunwelder" サンウェル
  2. Efficient heating in low-oxygen environments: Overheated steam generator 'Aqua Steam Heater' SHINNETSU.Co,.Ltd. Headquarters
  3. 【HELIX NOZZLE Use Case】Dishwashing 大生工業
  4. 4 マイクロナノバブル活用例 グリーストラップ清掃の効率化 micro-bub
  5. 5 Micro-Nano Bubble Generation Device "YJ Nozzle" エンバイロ・ビジョン

generator Product List

1081~1095 item / All 1985 items

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From households to agriculture, fisheries, and industry! Introduction of achievements in the use of microbubbles.

From households to agriculture, fisheries, and industry! Introduction of achievements in the use of microbubbles.

There are over 300 inquiries with clear applications for microbubbles! We have achievements in hydroponics, drainage, wastewater treatment, portable toilets, microbubble showers, and more.

<Agriculture> Individuals and agricultural workers are starting to show interest in microbubbles. There have been many inquiries about hydroponics. ● Hydroponics ● Irrigation cultivation ● Liquid fertilizer production ● Improved germination efficiency <Water Treatment> Since 2013, inquiries about this matter have suddenly increased. The power of microbubbles seems to be gaining recognition. ● Wastewater treatment ● Purification of ponds, rivers, and lakes ● Purification of seawater ● Application in portable toilets <Fisheries> Inquiries related to fisheries have also increased. ● Aquaculture of fish and shellfish ● Sterilization and cleaning of oysters ● Live fish tanks ● Fish pens on boats ● Live bait such as sardines ● Transport of juvenile shrimp <Cleaning> Since 2013, inquiries related to cleaning have increased. ● Vegetable cleaning ● Animal cleaning ● Parts cleaning ● Cleaning machines <Household> There are many inquiries. ● Microbubble baths ● Jacuzzis (bubble baths) ● Microbubble showers ● Bubble showers ● Ornamental aquariums ● Coral cultivation ● Ranchu goldfish cultivation ● Arowana cultivation <Others> ● Fuel improvement ● Various oil separation ● Plating-related ● Deodorization ● Reduction of ship resistance ● Medical-related ● Chemical ● Cosmetics *For more details, please request materials or contact us.

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Microbubble generation device for agriculture, wastewater treatment, medical, and industrial fields.

Microbubble generation device for agriculture, wastewater treatment, medical, and industrial fields.

4.8 billion nanobubbles per mL! High efficiency in nanobubble generation. Microbubble generation device 'Loop Flow OK Nozzle' *Video now available!

Microbubbles are extremely fine bubbles. They are utilized in a wide range of fields such as home use, water purification, aquaculture, plant cultivation, cleaning, wastewater treatment, disinfection, oil-water separation, and polishing, cleaning, and peeling/separation of silicon wafers, among others. Strong cleaning power, activation of living organisms, and disinfection effects are expected. Features of the microbubble generation device 'Loop Flow Type OK Nozzle': 1) High efficiency of nanobubble generation! Multi-stage turbulent flow method - Nanobubbles are 480 million per mL. 2) High self-aspiration of gas! 3) Installed in the flow direction. Low pressure loss. 4) Upgrading and enhancing the capacity of existing equipment! 5) Simplicity! Can be manufactured from ultra-small to large sizes. ● Track record: 60cc to 500L, 1200/min *Demo units are also available. If you would like a demo unit, please contact us and indicate "Request for demo unit."

  • Ozone Generator

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Loop flow microbubble generation device nozzle 200 mL/min *Customizable

Loop flow microbubble generation device nozzle 200 mL/min *Customizable

A device (nozzle) with a high generation efficiency of milky white nanobubbles even at low water pressure of 0.22 MPa.

This device (nozzle) directly applies the mechanism of a loop flow microbubble generation device (nozzle). It adopts a multi-stage turbulent method, resulting in a high generation efficiency of nanobubbles and a large gas self-absorption capacity. It can be manufactured in sizes ranging from ultra-small to large, contributing to the enhancement of existing equipment capabilities. *For more details, please download the catalog or contact us directly.*

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Purification experiment at 60m depth of salmon farming in the Strait of Magellan using fine bubbles.

Purification experiment at 60m depth of salmon farming in the Strait of Magellan using fine bubbles.

Introducing photos of the experimental scene and the experimental results! Includes supplementary materials on the purification of the bottom of Lake Shinji.

This document introduces the results of the seabed purification experiment conducted by Enrique and his team from Kran as part of the Magellan Strait seabed purification experiment. In this experiment, fine bubbles were injected into the seabed using a 400L/min OK nozzle, and I asked Enrique about the purpose of the purification experiment. Additionally, as supplementary material, we have included "Purification of the Bottom of Lake Shinji." [Contents (excerpt)] ■ Seabed purification experiment ■ Answers to questions and inquiries ■ Photos of the experimental scene ■ About the experimental results ■ Discussion *For more details, please refer to the PDF document or feel free to contact us.

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[Case] Purification experiment of salmon farming at 60m depth in the Magellan Strait, Chile.

[Case] Purification experiment of salmon farming at 60m depth in the Magellan Strait, Chile.

In the experiment, we are using a "400L/min OK nozzle" to inject fine bubbles into the seabed!

As part of the Magellan Strait seabed purification experiment, we are currently conducting seabed purification experiments in the Magellan Strait of Chile, and we are seeing good results. In Chile, salmon farming has been carried out in the strait's bays for many years, leading to the accumulation of leftover feed and waste on the seabed, which has deteriorated the environment to the point where it is no longer suitable for salmon farming. The project, carried out by the responsible parties in collaboration with aquaculture operators, aims to purify the seabed so that salmon farming can be resumed. Fish farming is taking place in bays around the world, facing similar issues to those in Chile, to varying degrees. Therefore, the results of this experiment are expected to be disseminated globally. Here, we summarize the content of email exchanges regarding the experiments conducted by the responsible parties, and we also provide our own suggestions on the 300m seabed purification method. *For detailed information on the case, please refer to the related links. For more details, feel free to contact us.*

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[Application Example] Coverage of measures against clams in Lake Shinji.

[Application Example] Coverage of measures against clams in Lake Shinji.

An example of application where the collaboration of fine bubbles and jet injectors is believed to have been effective.

As a measure against the clams in Lake Shinji, we would like to introduce an application example using the "100L・500L/min OK nozzle." After fishing, we took turns with fellow fishermen to aerate the lake bottom for two hours every day using a jet sprayer to inject fine bubbles. It is believed that the collaboration of fine bubbles and the jet sprayer has been effective. [Overview] ■ In July 2012, the "100L OK nozzle" was introduced. ■ Approximately one year later, clam catch increased. ■ In August 2014, the "500L" was introduced by the Shinji Lake Fisheries Cooperative. *For more detailed information about this case, please refer to the related links. For further inquiries, feel free to contact us.

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[Example] Use of fine bubbles in clam farming

[Example] Use of fine bubbles in clam farming

Used a total of 6 "100L/min OK nozzles"! It became so clean that there is no need for cleaning.

Here is an example of using fine bubbles in clam farming. Immediately after generating fine bubbles, dirt surfaced to the extent that workers were reluctant to continue. One unit was used in this tank, and now the waste that had accumulated at the bottom has disappeared, making it clean enough that there is no need for cleaning. Additionally, a new tank compatible with fine bubble usage has been created. The ammonia concentration has drastically decreased. Furthermore, there have been reports that scallops and top shells suffer damage and die. Microbubbles may be clogging their respiratory systems. 【Sea Water Analysis Results for Clam Farming Tank *Evaluation: 1 is no problem, 5 is problematic】 <Water Quality Analysis Data: 15-ton Tank> ■Ammonia: 0.0mg/L - Evaluation 1 ■Nitrite: 0.0mg/L - Evaluation 1 ■Nitrate: 50mg/L - Evaluation 4 ■Phosphorus: 2.0mg/L - Evaluation 5 ■pH 7.5 *For more details on the case, please refer to the related links. For further inquiries, feel free to contact us.

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[Case] Ship Bottom Resistance Reduction Experiment (500L/min OK Nozzle)

[Case] Ship Bottom Resistance Reduction Experiment (500L/min OK Nozzle)

Using a 500L/min OK nozzle! This is an introduction to the hull resistance reduction experiment conducted in October 2016.

We would like to introduce a case where the "500L/min OK nozzle" was used during a hull resistance reduction experiment at a shipyard in the Netherlands. 【Case Overview】 ■ Hull Resistance Reduction Experiment: October 2016 ■ Shipyard in the Netherlands ■ Used the 500L/min OK nozzle *For more details about the case, you can view them through the related links. Please feel free to contact us for more information.

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[Case Study] Floating Separation Experiment of Plastic Chips

[Case Study] Floating Separation Experiment of Plastic Chips

In 10 minutes, nearly 100% of the cutting powder will rise! The specific gravity of plastic is greater than that of water and is negatively charged.

We would like to introduce a case study using the "7L/min OK nozzle" for the floating separation experiment of plastic shavings. 【Experimental Results】 ■ Nearly 100% of the shavings floated after 10 minutes ■ Almost 100% separation was achieved with fine bubbles It was also found that when the generation of fine bubbles was stopped, more than half sank ■ The items that sank were close to 1mm in size ■ The mechanism of floating is thought to be that positively charged particles gather around the negatively charged fine bubbles, and negatively charged shavings gather around them, resulting in flotation. *For more details on the case study, please refer to the related links. For further inquiries, feel free to contact us.

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[Example] Seaweed farming in Ariake Sea (100L/min OK nozzle)

[Example] Seaweed farming in Ariake Sea (100L/min OK nozzle)

Minimal color fading! This is a case of a bountiful catch due to the generation of nano and microbubbles in the seaweed fishing grounds.

We would like to introduce a case study using the "100L/min OK nozzle" for seaweed cultivation in the Ariake Sea. The generation of nano and microbubbles in the seaweed farming area resulted in a bountiful catch, with minimal color fading. 【Case Overview】 ■ Seaweed cultivation in the Ariake Sea ■ Use of the 100L/min OK nozzle  ・ Bountiful catch due to the generation of nano and microbubbles  ・ Minimal color fading *For more detailed information about the case, please refer to the related links. Feel free to contact us for further inquiries.

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[Example] Agricultural Sector

[Example] Agricultural Sector

We are introducing examples of the implementation of the "500L/min OK nozzle" in lettuce hydroponic cultivation.

Here are some examples from the agricultural sector. 【Case Overview】 ■ Tomato and strawberry irrigation cultivation: Approximately 20% increase in production ■ Mini tomato irrigation cultivation: 46% increase in harvest in 2015 ■ Spinach: Reduction of nitrate ions, promotion of growth ■ Hydroponic lettuce cultivation: Introduction of 500L/min OK nozzle ■ Hyogo Prefectural Agricultural Center ■ Shimane Prefecture, successor experiments *For detailed information on the cases, please refer to the related links. For more information, feel free to contact us.

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[Case Study] Microbubbles and Machine Tools

[Case Study] Microbubbles and Machine Tools

Introducing application examples such as mirror polishing of silicon wafers and reduction of polishing time for small molds!

Since last year, inquiries about the use of fine bubbles in machine tools have been increasing. The effects are particularly notable in aluminum processing and grinding. Applications include the "aluminum composition cutting edge peeling effect," "cleaning of coolant tanks," "mirror polishing of silicon wafers," and "floating separation of lubricants." Please feel free to contact us for requests, questions, or estimates. 【Application Examples】 ■ Aluminum composition cutting edge peeling effect ■ Cleaning of coolant tanks ■ Mirror polishing of silicon wafers ■ Reduction of polishing time for small molds ■ Floating separation of lubricants ■ Prevention of spoilage and odor suppression of water-soluble coolant liquids *Detailed case information can be viewed through the related links. For more details, please feel free to contact us.

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[Case Study] Use of Nanobubbles in Irrigation Cultivation of Mini Tomatoes

[Case Study] Use of Nanobubbles in Irrigation Cultivation of Mini Tomatoes

Mini tomatoes thrive with nanobubbles! Depending on the variety, there are cases where the harvest increased by 5% to 35%.

Here is a case study from Kumamoto Prefecture using nanobubbles in the irrigation cultivation of mini tomatoes. In 2014, simply incorporating the "200L/min OK nozzle" into the existing pipeline resulted in an increase in harvest of 5% to 35%, depending on the variety. In 2015, by adding 10% oxygen and using the OK nozzle with pig manure, organic fertilizer was produced, leading to a 46% increase in harvest. 【Case Summary】 <2014> ■ Just incorporating the 200L/min OK nozzle into the existing pipeline ■ Harvest increase of 5% to 35% depending on the variety ■ Use of well water ■ Irrigation volume approximately 150% ■ Liquid fertilizer without solidification ■ Increased fertilizer amount ■ Irrigation tubes are cleaned *For detailed information about the case, please refer to the related links. For more information, feel free to contact us.

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[Example] Custom nozzle with a small flow rate of 500 mL/min

[Example] Custom nozzle with a small flow rate of 500 mL/min

Manufactured a 500mL/min nozzle! Adjusted to increase vacuum level, resulting in an increase in bubble generation.

We would like to introduce a case study using the '500mL/min small custom nozzle' from OK Engineering Co., Ltd. In July 2011, at a water pressure of 0.15MPa, the discharge rate was 410mL/min, and the vacuum level was approximately -0.03MPa under normal settings. A 500mL/min nozzle was manufactured, and adjustments were made to increase the vacuum level at the nozzle agitation section to -0.09MPa when the water pressure was 0.25MPa, resulting in a slight increase in bubble generation. Currently, we are ensuring that the vacuum level of the nozzle exceeds -0.05MPa at a water pressure of 0.15MPa. [Case Summary] <July 2011> ■ A 500mL/min nozzle was manufactured. ■ Since the generation amount is low, it is necessary to increase the vacuum level if required. ■ Adjusted to increase the vacuum level to -0.09MPa at a water pressure of 0.25MPa. ■ There was a slight increase in bubble generation. *For more detailed information about the case, please refer to the related links. For further inquiries, feel free to contact us.

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[Data] Learning from Application Cases of Fine Bubbles

[Data] Learning from Application Cases of Fine Bubbles

Used in various fields such as agriculture, fisheries, industry, and healthcare! Introducing application examples of fine bubbles.

This document introduces application examples of "Fine Bubbles" provided by OK Engineering. It includes the structure, principles, and features of the "Loop Flow OK Nozzle," as well as various effects of "Fine Bubbles." Additionally, it provides detailed application examples by field, accompanied by photographs, making it easy to reference when considering implementation. 【Contents (partial)】 ■ Self-introduction ■ Principles and structure of the Loop Flow OK Nozzle ■ Features of the Loop Flow OK Nozzle ■ Various effects of Fine Bubbles ■ Cleaning and disinfection-related application examples ■ Machine tools: Cutting-related application examples *For more details, please refer to the PDF document or feel free to contact us.

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