Kinetics of thermal death of microorganisms

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Presentation transcript:

Kinetics of thermal death of microorganisms Steam (or moist heat) is used almost universally for the sterilization of fermentation media. Except the use of filtration for the sterilization of media for animal-cell culture – because such media are completely soluble and contain heat labile components making filtration is the method of choice for sterilization. The destruction of microorganism by heat is considered as loss of viability not destruction. The destruction of micro-organisms by steam (moist heat) at specific temperature can be described as a first-order chemical reaction provided if we considerer loss of viability not destruction.

Continuous sterilization The two -main disadvantages of batch steriliza-tion just mentioned, culture medium damage and high energy consumption, can be largely avoided by. use of a continuous sterilization procedure. · Although continuous sterilization is the logical preliminary step for continuous fermentations in industrial scale, it is also of value in batch fer-mentations, making greater yields. possible for the time and space allotted.

The reason for this is because of the exponential relationship’ between death rate and temperature, making the time required for the complete elimination of life shorter if higher temperatures are used. While batch sterilization is carried out in 30-60 minutes at 121°C, continuous sterilization is normally ac-complished in 30- 120 seconds at 140°C.

The heating of culture media for continuous sterilization can be done either by injection of steam or by means of heat exchangers.

Disadvantages The disadvantage of this process is the sensitivity it exhibits to changes in the viscosity of the medium and to pressure variations. The disadvantage of this method is that with some nutrient solutions, insoluble salts (e.g., calcium calcium oxalate) are formed and crusts a the first heat exchanger, due to the temperature differences between the nutrient solution and the cold incoming. Starch-containing solutions which viscous when heated are difficult to use in continuous sterilization processes.

The advantages of continuous sterilization of media are as follows: Increase of productivity since the short period of exposure to heat minimizes damage to media constituents, 2. Better control of quality, 3. Leveling of the demand for process steam, 4. Suitability for automatic control;