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High Pressure Homogenizers (view source)
Revision as of 06:11, 25 February 2022
, 06:11, 25 February 2022no edit summary
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[[File:Genizer_logo.png|right|200px|link=https://www.genizer.com/c/high-pressure-homogenizer_0360|Genizer LLC]] | [[File:Genizer_logo.png|right|200px|link=https://www.genizer.com/c/high-pressure-homogenizer_0360|Genizer LLC]] | ||
[[Category:Mixing]]{{Knoppen}} | [[Category:Mixing]]{{Knoppen}} | ||
[[File:High Pressure Homogenizers.jpg|thumb| | [[File:High Pressure Homogenizers.jpg|thumb|250px|right|High Pressure Homogenizer]] | ||
[[File:High Pressure Homogenizers_Interaction chambers.jpg|thumb| | [[File:High Pressure Homogenizers_Interaction chambers.jpg|thumb|250px|right|Interaction chambers]] | ||
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=Key Principles= | =Key Principles= | ||
[[File:High Pressure Homogenizers_Interaction chambers_2.jpg|thumb| | [[File:High Pressure Homogenizers_Interaction chambers_2.jpg|thumb|250px|right|Interaction chambers in homogenization unit]] | ||
The key component of a high pressure homogenizer includes a homogenization unit such as diamond interaction chamber, and a high pressure pump unit. There is a specially designed fixed geometry inside the diamond interaction chamber. Strokes of the piston in the high pressure pump unit drive the samples through the interaction chamber at supersonic speed. In the chamber, materials are subjected to mechanical forces such as high shearing, high-frequency oscillation, cavitation and convective impact, and corresponding thermal effects simultaneously. These mechanical and physiochemical effects can induce change in the physical, chemical, and particle structure of the materials. This results in uniform and smaller nanoparticle size, achieving a homogenization effect. | The key component of a high pressure homogenizer includes a homogenization unit such as diamond interaction chamber, and a high pressure pump unit. There is a specially designed fixed geometry inside the diamond interaction chamber. Strokes of the piston in the high pressure pump unit drive the samples through the interaction chamber at supersonic speed. In the chamber, materials are subjected to mechanical forces such as high shearing, high-frequency oscillation, cavitation and convective impact, and corresponding thermal effects simultaneously. These mechanical and physiochemical effects can induce change in the physical, chemical, and particle structure of the materials. This results in uniform and smaller nanoparticle size, achieving a homogenization effect. | ||
The interaction chamber is the core of the high pressure homogenizer, and its unique geometric internal structure is the main factor determining the effectiveness of the homogenization process. The intensifier pump exerts the required pressure for materials to pass through the interaction chamber at high speed. The pressure’s strength and stability are important to ensure the production of high-quality nanomaterials. | The interaction chamber is the core of the high pressure homogenizer, and its unique geometric internal structure is the main factor determining the effectiveness of the homogenization process. The intensifier pump exerts the required pressure for materials to pass through the interaction chamber at high speed. The pressure’s strength and stability are important to ensure the production of high-quality nanomaterials. | ||
=Applications= | =Applications= | ||
[[File:High Pressure Homogenizers_Interaction_applications.png|thumb| | [[File:High Pressure Homogenizers_Interaction_applications.png|thumb|250px|right|Classification of nanotechnology applications]] | ||
The high pressure homogenizer is one of the most effective pieces of equipment for preparing nanomaterial using top-down nanotechnology. The high pressure homogenizer and its interaction chamber have a wide variety of applications in the production of nanomaterial and nanotechnology. | The high pressure homogenizer is one of the most effective pieces of equipment for preparing nanomaterial using top-down nanotechnology. The high pressure homogenizer and its interaction chamber have a wide variety of applications in the production of nanomaterial and nanotechnology. | ||