Novel technological process for producing high optical purity L-lactic acid by semi-continuous high-density fermentation of Rhizopus oryzae

A high-density fermentation and optical purity technology is applied in the field of the semi-continuous fermentation of Rhizopus oryzae to produce L-lactic acid with high optical purity, which can solve the problems of inability to improve the conversion rate of raw materials, prolonged batch fermentation time, and low utilization time of bacterial cells. , to achieve high target yield and conversion rate of raw materials, shorten the time of proliferation and use, and easy to automate production.

A high-density fermentation and optical purity technology is applied in the field of the semi-continuous fermentation of Rhizopus oryzae to produce L-lactic acid with high optical purity, which can solve the problems of inability to improve the conversion rate of raw materials, prolonged batch fermentation time, and low utilization time of bacterial cells. , to achieve high target yield and conversion rate of raw materials, shorten the time of proliferation and use, and easy to automate production.

CN101497901BInactive Publication Date: 2011-11-09HEFEI UNIV OF TECH
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  • Novel technological process for producing high optical purity L-lactic acid by semi-continuous high-density fermentation of Rhizopus oryzae
  • Novel technological process for producing high optical purity L-lactic acid by semi-continuous high-density fermentation of Rhizopus oryzae
  • Novel technological process for producing high optical purity L-lactic acid by semi-continuous high-density fermentation of Rhizopus oryzae

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Embodiment

[0039] The new process method of Rhizopus oryzae semi-continuous high-density fermentation to produce high optical purity L-lactic acid comprises the following steps:

[0040] (1) prepare Rhizopus oryzae spore suspension:

[0041] Use an inoculation loop to pick a loop of preserved Rhizopus oryzae 3.819 mycelium, inoculate it on a solid slope made of 50ml PDA medium in a 100ml Erlenmeyer flask, and cultivate it in a constant temperature incubator at 32°C for 72 hours to obtain mature rice roots containing One bottle of mycelium of mold spores, add 40ml sterile distilled water, beat mature rhizopus oryzae spores with a glass rod, and obtain mature rhizopus oryzae spores at a concentration of 5×10 10 ~10 11 / L of spore suspension.

[0042] The above-mentioned PDA medium is composed of the following substances in weight ratio: 200 g / L of potato, 20 g / L of glucose, and 20 g / L of agar.

[0043] (2) Preparation of high-density seed culture solution:

[0044] Inoculate 40ml of th...

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Abstract

The invention discloses a novel technique for producing high optical purity L-lactic acid through rhizopus oryzae high cell density fermentation by a semi-continuous way, which relates to the following steps: (1) preparing rhizopus oryzae spore suspension; (2) preparing seed culture; (3) high-density thalli amplification; (4) 500L fermentation cylinder for the first batch fermentation; (5) 500L fermentation cylinder for high-density fermentation by the semi-continuous way-the first 5 times thalli proliferation and repeat fermentation; and (6) the last 20 times 500L fermentation cylinder for high-density and high-intensity repeat fermentation. The technique realizes semi-continuous fermentation by repeatedly using rhizopus oryzae thallis and increases the use ratio of raw material; the thallis are constructed in high density so that the fermentation period is shortened to be 18h and the fermentation intensity is increased to be 5.0g / (h*L), thus the technique has good industrial production prospect; the optical purity of the fermentation product of L-lactic acid is over 99.5 percent so as to satisfy the demands of foods and medicaments; and the existing demand for high-purity L-lactic acid is relieved to a great extent after industrial production.

Description

technical field [0001] The invention belongs to the field of microorganisms and fermentation engineering, and in particular relates to a process for producing L-lactic acid with high optical purity by semi-continuous fermentation of Rhizopus oryzae. Background technique [0002] Lactic acid is a common hydroxycarboxylic acid with simple structure, which widely exists in human body, animals, plants and microorganisms. Lactic acid is divided into D-type and L-type according to conformation. The human body can only metabolize L-lactic acid. Therefore, the World Health Organization advocates the use of L-lactic acid in the food and pharmaceutical industries to replace the currently widely used DL-lactic acid. L-lactic acid, L-lactate and their derivatives are widely used in food, medicine, feed, chemical and other fields. Especially in recent years, biodegradable plastics, green packaging materials and agricultural films produced by lactic acid polymerization can effectively so...

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Application Information

Patent Timeline
09 Nov 2011
Publication
CN101497901B
IPC
C12P7/56; C12R1/845
Inventors
姜绍通; 吴学凤