Supercritical Reactor System

 

 

Mainly designed using the critical state of CO2 or H2O (CO2: higher than 31 ℃ 73 bar, H2O: higher than 375 ℃ 218 bar).
The density of the material in critical state is much higher than gas; viscosity is much lower than liquid while diffusivity is similar to gas.
Since the properties vary depending on the pressure and temperature, for processes such as extraction, purification etc., the trend is to gradually replace the organic solvents with new green solvents.
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Continuous Supercritical Water System
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Phase Equilibrium System
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Coating System
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Supercritical Methanol Trans Esterification
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Supercritical Enzyme System

 

Supercritical fluid process applications
Extraction Natural products, pharmaceutical extracts Synthesis Supercritical hydrothermal synthesis
Drying Aerogel production Foaming Polymer Foam
Water treatment Supercriticaql Water Oxidation Cleaning Semiconductor cleaning
RESS & SAS Preparation of pharmaceuticals, biodegradable polymeric micro patricle

 

 

▶ Supercritical Solubility Measurement System – Variable Volume Cell

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Full Automation Solubility System
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Manual Type Solubility System
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Manual Type Solubility System

 

 

 

▶ Dry System

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Supercritical Dry System
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Supercritical Aerogel Dry System
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Supercritical Dry System

 

 

▶ Supercritical Water

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Continuous Supercritical Water System
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Supercritical Water System
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Supercritical Water Oxidation System

 

 

▶ Extraction System

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Supercritical Extraction System
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Supercritical CO2 Oil Extraction
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Supercritical Extraction System