TH12373C3 - Polylactic acid synthesis process using lipase enzyme from Thermomyces lanuginosus mold as polymerization catalyst. - Google Patents

Abstract

DC60 (06/03/15) Polylactic acid synthesis using lipase enzyme from Thermomyces lanuginosus mold as polymerization catalyst. Under the right conditions Which consists of Stages of designing Polylactic acid synthesis by Taguchi method And the synthesis of polylactic acid from lipase enzyme where the highest number of mean molecular weight was 12,286.83 Dalton and the percentage of The maximum change of lactic acid is 85.54 percent and will get poly lactic acid. Chemical free Used as a catalyst that may remain in the product. Making it safer for consumers and the environment Edit Summary of Invention 6/03/15 Polylactic acid synthesis method using lipase enzyme from Thermomyces Lanuginosus as a polymerization catalyst. Under the right conditions Which consists of Stages of designing Synthetic polylactic acid by Takuchi method And synthesis The polylactic acid from lipase by means of a high number of mean molecular weight of 12,286.83 dalton and the percentage of Change of lactic acid up to 85.54% and will get poly lactic acid by Chemical free Used as a catalyst that may remain in the product. Making it safer for consumers and the environment -------------------------------------------------- ------------- Polylactic acid synthesis process using lipase enzyme from Thermomyces Lanuginosus mold as polymerization catalyst. Under the right conditions Which consists of Stages of designing Synthetic polylactic acid by Takuchi method And synthesis The polylactic acid from lipase by means of a high number of mean molecular weight of 12,286.83 dalton and the percentage of Change of lactic acid up to 85.54% and will get poly lactic acid by Chemical free Used as a catalyst that may remain in the product. Making it safer for consumers and the environment

Claims (1)

Disclaimer (all) which will not appear on the advertisement page: Revised 06/03/15 1. Polylactic acid synthesis method using lipase from Thermomyces lanuginosus as Polymerization catalyst consisted of: g. Lipase enzyme from the fungus Thermomyces lanuginosus, both free lipase and immobilized lipase at concentrations of 1.25-5.00 percent / lactic acid base amount 0.1-10 g. In lactic acid concentration of 250-450 mg / ml, volume 20-60 ml. B. Add toluene solution to adjust the working volume of the mixed solution obtained from Article A. to the volume of 50-150 ml. C. Stirring the solution obtained from item B. at a speed of 150-250 rpm at the state of saturation with nitrogen gas, temperature control 50-70 ° C for a period of 4-6 hours to obtain polylactic acid Appearance is a milky yellow, milky liquid. D. Analyzes the mean molecular weight by number (Mn) of polylactic acid and percentage change in lactic acid synthesized from Article C. by titration. They were taken with potassium hydroxide solution and phenolphthalein was used as indicators for the termination of the reaction. -------------------------------------------------- -------------------------------------------------- ------------------------ 1.Polylactic acid synthesis by using lipase enzyme from Thermomyces lanuginosus mold as a polymerization catalyst, consisting of a. B. Free lipase and fixed lipase in concentration 1.25-5.00 percent / base lactic acid amount 0.1-10 g into lactic acid concentration 250-450 mg / ml, volume 20-60 ml. B. Add toluene solution to adjust the working volume of the mixing solution obtained from Article A to volume 50-150 ml. C. Stir the solution obtained from item B at a speed of 150-250 rpm at saturated state as well. Nitrogen is controlled at 50-70 degrees Celsius for a period of 4-6 hours to obtain polylactic acid Appearance is a milky yellow, milky liquid. D. Analyzes the mean molecular weight by number (Mn) of polylactic acid and percentage change in lactic acid synthesized from Article C. by titration. They were taken with potassium hydroxide solution and phenolphthalein was used as indicators for the termination of the reaction.