Ester zymoid method production process of azeotropy water elimination coupling simulated moving bed
A technology that simulates moving beds and production processes. It is used in fermentation, chemical recycling, etc., and can solve problems such as high cost and low efficiency.
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example 1
[0013] 26g of palmitic acid, 17g of L-ascorbic acid and 1g of Novozym 435 were added to 100ml of anhydrous tert-amyl alcohol to form a mixture, then reacted at 55°C for 8hr under constant stirring. Then add 10ml of cyclohexane, turn on the vacuum pump, and reduce the pressure of the reaction system to 0.001-0.005MPa, so that the azeotropic mixed steam is evaporated, and the steamed mixed steam is condensed and separated into layers to form a cyclohexane phase and an aqueous phase , the cyclohexane phase automatically returns to the reaction system for recycling. The reaction system continued to maintain the reaction while evaporating, condensing, and refluxing in this state until all the ascorbic acid solids disappeared in the reaction system, and the volume of the water phase in the water-splitting condenser no longer increased, and continued to maintain the reaction for 4hr.
[0014] After the reaction, the reaction mixture was filtered to separate the solid enzyme, and then...
example 2
[0018] 22g of lauric acid, 17g of shikimic acid and 1g of Aspergillus niger-derived lipase were added to 100ml of anhydrous tert-butanol to form a mixture, and then reacted at 36°C for 12hr under constant stirring. Then add 10ml of pentane, turn on the vacuum pump, reduce the pressure of the reaction system to 0.01-0.005MPa, so that the azeotropic mixed steam is evaporated, and the steamed mixed steam is condensed and separated to form a pentane phase and an aqueous phase. The alkane phase automatically returns to the reaction system for recycling. The reaction system continued to maintain the reaction while evaporating, condensing, and refluxing in this state until all the shikimic acid solids disappeared in the reaction system, and the volume of the water phase in the water-splitting condenser did not increase any more, and continued to maintain the reaction for 4 hours.
[0019] After the reaction, the reaction mixture was filtered to separate the solid enzyme, and then pla...
example 3
[0023] 26 palmitic acid, 17 g shikimic acid and 1 g of Aspergillus niger-derived lipase were added to 100 ml of anhydrous tert-butanol to form a mixture, and then reacted at 36° C. for 12 hr under constant stirring. Then add 10ml of hexane, turn on the vacuum pump, reduce the pressure of the reaction system to 0.001-0.005MPa, so that the azeotropic mixed steam is evaporated, and the steamed mixed steam is condensed and separated into layers to form a hexane phase and a water phase. The alkane phase automatically returns to the reaction system for recycling. The reaction system continued to maintain the reaction while evaporating, condensing, and refluxing in this state until all the shikimic acid solids disappeared in the reaction system, and the volume of the water phase in the water-splitting condenser did not increase any more, and continued to maintain the reaction for 4 hours.
[0024]After the reaction, the reaction mixture was filtered to separate the solid enzyme, and ...
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