CN110679395A - Anti-pollution process in sterilization link - Google Patents

Abstract

The invention discloses an anti-pollution process in a sterilization link, which relates to the field of industrial sterilization of edible fungi, and comprises the following steps: s1, vacuumizing the sterilization pot for three times, S2, heating the sterilization pot to 107 ℃, S3, preserving the heat of the sterilization pot for 30-35min, S4, heating the sterilization pot to 123 ℃, sterilizing for 90-100min, S5, stewing the sterilization pot for 20min, keeping the time for more than 70min after the temperature of the internal material reaches 121 ℃, and exhausting to 0.004mPa after stewing is finished. According to the invention, the outer door is opened to release pressure after sterilization is finished, when the temperature of the outer door reaches 85 ℃, the outer door is immediately closed, and the inner door is opened to discharge, so that the problems that the steam quantity in the furnace is released to a buffer room of a clean area, the space steam quantity is very large, the visibility of staff is low during operation, the ground steam is large, the potential safety hazard of forklift operation is large, and the pollution risk is large due to much roof condensed water and the like in the prior sterilization technology are solved.

Description

Anti-pollution process in sterilization link

Technical Field

The invention relates to the technical field of industrial sterilization of edible fungi, in particular to an anti-pollution process in a sterilization link.

Background

The sterilization is an indispensable process in the industrial production process of edible fungi, the sterilization in the production process of the edible fungi is to pump out cold air in a sterilization pot by a vacuum pump through the flow of water to enable the sterilization pot to be in a negative pressure state, then saturated hot air is input, high-temperature and high-pressure steam is used as a medium, the latent heat of the steam is large, the penetrating power is strong, the sterilization pot can be quickly penetrated into a cultivation bottle, microbial protein is denatured and solidified under the action of high temperature and high pressure to inactivate to meet the sterilization requirement, and the sterilization function is as follows: removing harmful impurities, removing harmful substances in the culture medium, softening the culture medium, solidifying the shape of the culture medium, sterilizing by a sterilization program, and bottling the culture medium to meet the growth requirement of the flammulina velutipes strains.

The current sterilization technique is when the sterilization finishes, and generally directly open the interior door and go out of the stove, leads to the whole pressure release of stove steam volume to the outside through new trend system and room pressure release mouth between the clean area buffering, and the space steam volume of pressure release to the clean area buffering is very big, and visibility is low when having staff's operation, and ground steam is big, and fork truck operation potential safety hazard is big, and roof comdenstion water waits to cause the great problem of pollution risk more.

In order to solve the problem of high pollution risk caused by the operation process in the sterilization link in the prior sterilization technology and reduce the steam amount in a buffer room of a clean area so as to reduce the production pollution risk, the pollution prevention process in the sterilization link is provided.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides an anti-pollution process in a sterilization link, and solves the problems that the prior sterilization technology has large pollution risk caused by low visibility, large ground water vapor, large forklift operation safety hidden danger, much roof condensate water and the like when workers operate because the inner door is generally directly opened for discharging when sterilization is finished, and the steam amount in a furnace is released to a clean area buffer room is large.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: a sterilization link anti-pollution process comprises the following steps:

and S1, vacuumizing the sterilization pot for three times.

S2, heating the sterilization pot to 107 ℃.

S3, keeping the temperature of the sterilization pot for 30-35 min.

S4, heating the sterilization pot to 123 ℃ and sterilizing for 90-100 min.

S5, stewing the sterilization pot for 20min to ensure that the internal material temperature reaches 121 ℃, keeping the time for more than 70min, and exhausting gas to 0.004mPa after stewing is finished.

And S6, opening the outer door for 1-3min, wherein the opening degree of the outer door is not more than 5cm, performing outer door steam pressure relief, observing that the temperature in the furnace is not lower than 85 ℃, and discharging the steam in the furnace by the pressure in the boiler so as to discharge most of the steam to the outside.

And S7, closing the outer door.

S8, informing an inner door tapping person to open a door and tap a furnace, wherein the steam quantity in the clean area is less, and the less steam quantity can be decompressed to the outside as soon as possible under the action of the fresh air system and the room pressure relief port.

Preferably, when the outer door is opened in step S6, the outer door is opened to release the pressure after the sterilization is completed in step S5.

Preferably, when the temperature in the furnace is observed in step S6 and reaches 85 ℃, the outer door is closed and the inner door is opened to discharge the furnace.

(III) advantageous effects

The invention provides an anti-pollution process in a sterilization link, which has the following beneficial effects:

according to the invention, the outer door is opened to release pressure after sterilization is finished, when the temperature of the outer door reaches 85 ℃, the outer door is immediately closed, the inner door is opened to discharge the furnace, and the purpose of pressure release can be achieved after sterilization is finished.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides a technical scheme that: a sterilization link anti-pollution process comprises the following steps:

s1, vacuumizing the sterilization pot three times by a vacuum pump through the flow of water, and pumping out cold air in the sterilization pot to enable the sterilization pot to be in a negative pressure state.

S2, heating the sterilization pot to 107 ℃.

S3, keeping the temperature of the sterilization pot for 30-35 min.

S4, heating the sterilization pot to 123 ℃ and sterilizing for 90-100 min.

S5, stewing the sterilization pot for 20min to ensure that the internal material temperature reaches 121 ℃, keeping the time for more than 70min, and exhausting gas to 0.004mPa after stewing is finished.

And S6, opening the outer door for 1-3min, wherein the opening degree of the outer door is not more than 5cm, performing outer door steam pressure relief, observing that the temperature in the furnace is not lower than 85 ℃, and discharging the steam in the furnace by the pressure in the boiler so as to discharge most of the steam to the outside.

And S7, closing the outer door.

S8, informing an inner door tapping person to open a door and tap a furnace, wherein the steam quantity in the clean area is less, and the less steam quantity can be decompressed to the outside as soon as possible under the action of the fresh air system and the room pressure relief port.

As a technical optimization scheme of the present invention, when the outer door is opened in step S6, the outer door is opened to release the pressure after the sterilization is finished in step S5.

In the invention, as a technical optimization scheme, when the temperature in the furnace is observed in the step S6 and reaches 85 ℃, the outer door is closed, and the inner door is opened for discharging.

In conclusion, the outer door is opened to release pressure after sterilization is finished, the outer door is immediately closed when the temperature of the outer door reaches 85 ℃, and the inner door is opened to discharge the furnace, so that the problems that the steam quantity in the furnace is released to a space between buffer rooms of a clean area is very large, the visibility is low during operation of staff, the ground steam is large, the potential safety hazard of forklift operation is large, roof condensate water is much and the like to cause great pollution risk in the prior sterilization technology are solved.

It should be noted that, in this document, terms such as "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (3)

1. A sterilization link anti-pollution process is characterized in that: the method comprises the following steps:

s1, vacuumizing the sterilization pot for three times;

s2, heating the sterilization pot to 107 ℃;

s3, keeping the temperature of the sterilization pot for 30-35 min;

s4, heating the sterilization pot to 123 ℃ and sterilizing for 90-100 min;

s5, stewing the sterilization pot for 20min to ensure that the temperature of the internal material reaches 121 ℃, keeping the time for more than 70min, and exhausting gas to 0.004mPa after stewing is finished;

s6, opening the outer door for 1-3min, wherein the opening degree of the outer door is not more than 5cm, performing outer door steam pressure relief, observing that the temperature in the furnace is not lower than 85 ℃, and discharging the steam in the furnace by the pressure in the boiler to discharge most of the steam to the outside;

s7, closing the outer door;

s8, informing an inner door tapping person to open a door and tap a furnace, wherein the steam quantity in the clean area is less, and the less steam quantity can be decompressed to the outside as soon as possible under the action of the fresh air system and the room pressure relief port.

2. A sterilization cycle anti-staining process as claimed in claim 1, wherein: when the outer door is opened in step S6, the outer door is opened to release the pressure after the sterilization is completed in step S5.

3. A sterilization cycle anti-staining process as claimed in claim 1, wherein: when the temperature in the furnace is observed in step S6 and the temperature reaches 85 ℃, the outer door is closed and the inner door is opened to discharge the furnace.