Kinetic Model of Atractylodes Processing

Fang Wang; Deng Wu Wang

doi:10.4028/www.scientific.net/AMR.236-238.2765

Paper Titles

Study on Biodegradable Implant with Poly (l-Lactic Acid) and its Releasing Character In Vitro
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Production of Koji by Black-Skin-Red-Koji
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Study on Influence of Different Desulfurization Methods of Apple Slice
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Study on Ultrasonic Extraction of 1-Deoxynojirimycin(DNJ) and Polysaccharides from Mulberry Leaves
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Kinetic Model of Atractylodes Processing
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Effect of Polyolefin Film on the Quality of Kiwifruit with 1-MCP Treatment in Modified Atmosphere Packages
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A Statistical Experimental Design to Plastein Synthesis with the Mixture of Soy Protein Isolate(SPI) Hydrolysate and Whey Protein Isolate(WPI) Hydrolysate
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Effect of Cross-Linked Acetylated Starch and Native Starch on the Rheological, Microstructure and Sensory Properties of Apple Jam
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Kinetics on the Extraction of Polyphenol from Infructescence of Platycarya strobilacea sieb. et zucc
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 236-238Kinetic Model of Atractylodes Processing

Kinetic Model of Atractylodes Processing

Abstract:

The Atractylone, one of the volatile constituents, was the main active components applied in many fields. To avoid the instability, the volatile oil was extracted by supercritical CO₂ extraction coupled with gas chromatography–mass spectrometry (GC–MS). Based on this, the processing of Atractylone was stimulated, and the corresponding kinetic parameters were determined. The results indicated that the rate equation of Atractylone oxidation is Rate=K’ [x_A]^1.84, and the apparent activation energy of the self-oxidation of Atractylone is 58.05 kJ·mol^-1