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Updated by Genizer LLC on Oct 27, 2023
Headline for What is High Pressure Homogenizer (HGH)? How does it work?
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What is High Pressure Homogenizer (HGH)? How does it work?

Here is something about high pressure homogenizers, function, mechanism, classification, applications, selection guide.

High pressure homogenizers use ultra-high pressure to create nanomaterials through specially designed structures, finding diverse applications especially in pharmaceuticals and nanotechnology. Achieving higher pressure leads to finer and more uniform particles, but managing temperature is a challenge. Interaction chambers will play a vital role in future nanotechnology, particularly in pharmaceuticals and microelectronics.

Genizer provides microfluidics mixers, high pressure homogenizers, liposome extruders, nano particle analyzers and nano formulation services for pharmaceutical, biochemical, cosmetics and food industries. Genizer technology can be applied to nanomedicine, such as nanoparticles, nanoemulsions, liposomes, vaccines, gene delivery systems, as well as cell disruption, graphene and nanotube. NanoGenizer, a high pressure homogenizer for nanotechnology, helps scientists to achieve uniform nanoemulsions and uniform particle size reduction, seamless scale-up and unparalleled repeatability.

High pressure homogenizers are used in the biological, pharmaceutical, food, chemical, and many other industries. Their products and purposes include cell disruption, food homogenization, fine chemicals, preparation of liposomes, fat emulsions, nanosuspensions, microemulsions, lipid microspheres, vaccines, emulsions, dairy products, infusion solutions, dyes, graphene, carbon nanotubes, conductive coatings, nano-oxide dispersion, and more. The global market for high pressure homogenizers is growing annually, and this is especially true in the nanotechnology market. To prepare pharmaceutical nanoemulsions, high pressure homogenizers such as the nanogenizer are essential: Their pressure is always above 20,000 psi, and they feature high-quality diamond interaction chambers to achieve a uniform, pharmaceutical-grade nanoparticle size distribution.

Source: https://www.genizer.com/art/high-pressure-homogenizer-introduction_a0049.html

Genizer-High Pressure Homogenizer Introduction

High pressure homogenizers, such as NanoGenizer, prepare nanomaterial by producing high flow velocity through a small orifice, using a specially designed internal fixed geometry under ultra-high pressure (up to 60,000 psi). During the homogenization process, changes in physical, chemical, structural properties occur, and as a result, homogeneous suspension takes place at nanoscale.

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NanoGenizer High Pressure Homogenizer

NanoGenizer High Pressure Homogenizer

NanoGenizer High Pressure Homogenizer:
NanoGenizer is a laboratory high pressure processing device. It is an electrically-driven and bench-top, high pressure homogenizer requiring no compressed air or hydraulic oil to achieve maximum 3,062 bar (45,000 psi) operating pressure.

Intro to Genizer Microjet high-pressure homogenizers

Genizer microjet high-pressure homogenizer. 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.

Introduction to Genizer LLC

Genizer LLC, located in Technology Link in Greater Los Angeles, is dedicated to advancing homogenizer nanotechnology.

Genizer provides high pressure homogenizers, liposome extruders, diamond interaction chambers compatible with other brands of high pressure homogenizers, and sanitary high pressure spare parts.

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Diamond Interaction Chambers for High Pressure Homogenizers

Diamond Interaction Chambers for High Pressure Homogenizers

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.