Microbubble generation nozzle using a fine pore method with a sintered metal filter element to generate transparent microbubbles.
We have developed an element with finer pores than sintered metal used for filter applications, utilizing the manufacturing technology of sintered metal filter elements. As a result, it has become possible to generate bubbles that are so fine they cannot be seen with the naked eye. Although they cannot be confirmed visually, we believe they are microbubbles; however, we cannot guarantee this as we have not measured them. The generation method is based on fine pore technology, and the generated fine bubbles (microbubbles) are transparent. Since it is not a pressurized method, there is no cloudiness.
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We have developed an element with finer pores than sintered metal used for filter applications, utilizing the manufacturing technology of sintered metal filter elements. As a result, it has become possible to generate bubbles so fine that they cannot be seen with the naked eye. Since they cannot be confirmed visually, they are thought to be microbubbles, but we cannot guarantee this as we have not measured them. The generation method is based on fine pores, and the generated fine bubbles (microbubbles) are transparent. Since it is not a pressurized method, there is no cloudiness. ................................................ Sintered Metal Filter Element / Porous Metal Specialist Manufacturer | Shouketsu.com Technical Development: Toyo Kodama 2-6-6 Kami-Higashi, Hirano-ku, Osaka 547-0002 Mobile: 090-3282-5231 TEL: 06-6791-9023 FAX: 06-6794-5524 URL: http://www.shouketsu.com Email: info@shouketsu.com
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The structure for generating microbubbles adopts a fine pore method, making the generation principle very simple yet highly efficient. Due to the simplicity of the generation principle, it is possible to design nozzles tailored to the equipment environment. Additionally, since it can be manufactured entirely from stainless steel, it is expected to be usable in a wide variety of environments. Furthermore, being maintenance-free is a significant advantage. By simplifying the structure, there are almost no points of failure.
Detailed information
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Microbubble generation nozzle with fine pores _ Generating Microbubbles are being generated, but they are too small to be seen with the naked eye.
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Micro-pore microbubble generation nozzle _ Generating Microbubbles are being generated... Since they cannot be seen with the naked eye, the room is darkened and a light is shone on the nozzle tip to make the generation of microbubbles visible.
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Products made using the powder metallurgy method (a process of shaping metal powder and sintering it to create metal products) are referred to as "sintered metals." Among these, by specializing in sintered metal filters, which are porous metals, we can offer tailored solutions for various applications. Examples of applications include filters (for filtration and separation), silencers (for noise reduction), fluid rectification, liquid absorption, bubbling, and explosion-proof filters (frame arresters), with ongoing development for additional uses. Moreover, over 15 types of materials can undergo sintering treatment. There are many types of porous metals, and not only the pore diameter but also the pore structure affects performance. Our distinctive feature is that our sintered metal filters, made from metal powder, are all open-pore/continuous-pore (open porous) porous metals. Other types of porous metals include sintered metal mesh, which is formed by stacking wire mesh and undergoing sintering treatment while maintaining precision in mesh opening and strength; sponge-like porous metals formed solely from a skeletal structure; porous metals with countless straight holes resembling lotus roots; and foamed metals that have numerous closed pores/independent pores (closed pore) due to the addition of a foaming agent to molten metal. Each type of porous metal has its own advantages and disadvantages, making it essential to select the appropriate porous metal based on the intended application.