Soybean Oil Treatment Using the Dissolving Curve Equation of Hydrogen

Soybean Oil Treatment Using the Dissolving Curve Equation of Hydrogen

The solubility of hydrogen in n-hexane was determined using a homemade reactor. The solubility of hydrogen in soybean oil was established using the Peng-Robinson (PR) equation of state and the van der Waals mixing rule. The curve equation established a linear relationship between the solubility of h...

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Veröffentlicht in:Journal of Oleo Science 2021, Vol.70(9), pp.1231-1238
Hauptverfasser: Zhang, Xingzhen, Dong, Tianyu, Wu, Zeyu, Jing, Yuequn, Yu, Dianyu, Zhang, Hongwei, Du, Jing, Wang, Liqi
Format: Artikel
Sprache:eng
Schlagworte:
Bioreactors
Catalysis
Control methods
Equations of state
Hexanes
Hydrogen
Hydrogen - chemistry
hydrogen consumption
hydrogenated soybean oil
Hydrogenation
Industrial applications
Mixing rules
Oils & fats
Plant Extracts
PR equation of state
Solubility
solubility of hydrogen
Soybean oil
Soybean Oil - chemistry
Soybeans
Temperature
TFAs
Trans Fatty Acids - chemistry
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Zusammenfassung:The solubility of hydrogen in n-hexane was determined using a homemade reactor. The solubility of hydrogen in soybean oil was established using the Peng-Robinson (PR) equation of state and the van der Waals mixing rule. The curve equation established a linear relationship between the solubility of hydrogen in oil and the number of moles of hydrogen in the reactor. Under the optimal temperature and catalyst, the relationship between the hydrogen consumption of the hydrogenation of oil and fat and the TFAs formed in the oil was determined. When the reaction pressure exceeded 3.0 MPa, the hydrogenation of oil was consumed. The amount of hydrogen, the rate of hydrogenation, and the change in the TFAs all stabilized. Therefore, the pressure of the general hydrogenation reaction should not exceed 3.0 MPa. This result provides a quick and simple method for controlling TFAs in oils and fats for industrial applications.
ISSN:1345-8957
1347-3352
DOI:10.5650/jos.ess21065