vacuum fermentation - ορισμός. Τι είναι το vacuum fermentation
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Τι (ποιος) είναι vacuum fermentation - ορισμός

INTENTIONAL USE OF FERMENTATION BY MICROORGANISMS
Fermenter; Deep fermentation; Solid state fermentation; Precision fermentation; Biomass fermentation
  • growth curve]]

fermentation         
  • Mitochondrial]] outer membrane is omitted.
  • Fermentation is used to generate the heme protein found in the [[Impossible Burger]].
  • Louis Pasteur in his laboratory
ANAEROBIC ENZYMATIC CONVERSION OF ORGANIC COMPOUNDS
Ferment; Fermented; Fermentative; Fermenting; Zymosis; Fermentation Process; Cellular fermentation; Unfermented; Anaerobic fermentation; Ferments; Homofermentative metabolism; Homofermentative; Microbial fermentation; Bacterial fermentation; Fermentor; Zymogenous; Fermentation (biology); Heterofermentative; Fermentation (biochemistry); Fermantation; Fermintation
ferment         
  • Mitochondrial]] outer membrane is omitted.
  • Fermentation is used to generate the heme protein found in the [[Impossible Burger]].
  • Louis Pasteur in his laboratory
ANAEROBIC ENZYMATIC CONVERSION OF ORGANIC COMPOUNDS
Ferment; Fermented; Fermentative; Fermenting; Zymosis; Fermentation Process; Cellular fermentation; Unfermented; Anaerobic fermentation; Ferments; Homofermentative metabolism; Homofermentative; Microbial fermentation; Bacterial fermentation; Fermentor; Zymogenous; Fermentation (biology); Heterofermentative; Fermentation (biochemistry); Fermantation; Fermintation
I. n.
1.
Yeast, leaven, barm.
2.
Fermentation, fungic transformation.
3.
Agitation, commotion, tumult, heat, glow, fever, state of excitement.
II. v. a.
1.
Set in fermentation, set fermenting, produce fermentation in, transform by means of a ferment.
2.
Excite, agitate, heat.
III. v. n.
1.
Work, be in a ferment, undergo fermentation, be fermented.
2.
Be excited, be agitated, be on fire.
ferment         
  • Mitochondrial]] outer membrane is omitted.
  • Fermentation is used to generate the heme protein found in the [[Impossible Burger]].
  • Louis Pasteur in his laboratory
ANAEROBIC ENZYMATIC CONVERSION OF ORGANIC COMPOUNDS
Ferment; Fermented; Fermentative; Fermenting; Zymosis; Fermentation Process; Cellular fermentation; Unfermented; Anaerobic fermentation; Ferments; Homofermentative metabolism; Homofermentative; Microbial fermentation; Bacterial fermentation; Fermentor; Zymogenous; Fermentation (biology); Heterofermentative; Fermentation (biochemistry); Fermantation; Fermintation
(fermented)
1.
Ferment is excitement and trouble caused by change or uncertainty.
The whole country has been in a state of political ferment for some months.
= turmoil
N-UNCOUNT
2.
If a food, drink, or other natural substance ferments, or if it is fermented, a chemical change takes place in it so that alcohol is produced. This process forms part of the production of alcoholic drinks such as wine and beer.
The dried grapes are allowed to ferment until there is no sugar left and the wine is dry...
To serve the needs of bakers, manufacturers ferment the yeast to produce a more concentrated product.
VERB: V, V n
fermentation
Yeast is essential for the fermentation that produces alcohol.
N-UNCOUNT

Βικιπαίδεια

Industrial fermentation

Industrial fermentation is the intentional use of fermentation in manufacturing processes. In addition to the mass production of fermented foods and drinks, industrial fermentation has widespread applications in chemical industry. Commodity chemicals, such as acetic acid, citric acid, and ethanol are made by fermentation. Moreover, nearly all commercially produced industrial enzymes, such as lipase, invertase and rennet, are made by fermentation with genetically modified microbes. In some cases, production of biomass itself is the objective, as is the case for single-cell proteins, baker's yeast, and starter cultures for lactic acid bacteria used in cheesemaking.

In general, fermentations can be divided into four types:

  • Production of biomass (viable cellular material)
  • Production of extracellular metabolites (chemical compounds)
  • Production of intracellular components (enzymes and other proteins)
  • Transformation of substrate (in which the transformed substrate is itself the product)

These types are not necessarily disjoined from each other, but provide a framework for understanding the differences in approach. The organisms used are typically microorganisms, particularly bacteria, algae, and fungi, such as yeasts and molds, but industrial fermentation may also involve cell cultures from plants and animals, such as CHO cells and insect cells. Special considerations are required for the specific organisms used in the fermentation, such as the dissolved oxygen level, nutrient levels, and temperature. The rate of fermentation depends on the concentration of microorganisms, cells, cellular components, and enzymes as well as temperature, pH and level of oxygen for aerobic fermentation. Product recovery frequently involves the concentration of the dilute solution.