CN214327725U

CN214327725U - High-efficient system of processing of cellulase

Info

Publication number: CN214327725U
Application number: CN202023039934.6U
Authority: CN
Inventors: 陈俊煌; 颜良豪; 陈添俊; 吴云建; 黄钦苗
Original assignee: Fujian Huisheng Biotechnology Co ltd
Current assignee: Fujian Huisheng Biotechnology Co ltd
Priority date: 2020-12-17
Filing date: 2020-12-17
Publication date: 2021-10-01
Anticipated expiration: 2030-12-17

Abstract

The utility model discloses a cellulase high-efficiency processing system, which belongs to the technical field of enzyme preparation production equipment and comprises a fermentation tank, a ceramic membrane component, a compression tank and a storage tank, wherein the outlet of the fermentation tank is connected with the inlet of the ceramic membrane component, the dialysate outlet of the ceramic membrane component is connected with the inlet of the compression tank, and the outlet of the compression tank is connected with the inlet of the storage tank; and a chilled water component for freezing dialysate is formed between the outlet of the compression tank and the inlet of the ceramic membrane component. The utility model has the advantages that: through set up the refrigerated water subassembly at the compression jar export with between the ceramic membrane subassembly entry, let the dislysate by the cooling water partial heat that takes away when flowing through the refrigerated water subassembly for the dislysate remains throughout under the low temperature condition at the in-process that the system circulation flows repeatedly, sets up the effectual dislysate temperature that has maintained of refrigerated water subassembly, has improved the continuous work efficiency of system.

Description

High-efficient system of processing of cellulase

Technical Field

The utility model relates to an enzyme preparation production facility technical field particularly, relates to a cellulase high efficiency processing system.

Background

The enzyme is an active substance produced by living cells, has extremely strong catalytic action and high specificity, and reduces the activation energy of the reaction by combining with reactants, thereby quickly improving the reaction speed. Under the catalytic action of enzyme, various nutrients can be formed, and different nutrients can be mutually converted.

The enzyme preparation is a biological product with a catalytic function after the enzyme is purified and processed, is mainly used for catalyzing various chemical reactions in the production process, has the characteristics of high catalytic efficiency, high specificity, mild action conditions, energy consumption reduction, chemical pollution reduction and the like, and is applied to the aspects of food, textile, feed, detergent, papermaking, leather, medicine, energy development, environmental protection and the like. However, in the prior art, the temperature of the dialysate is easy to rise in the enzyme filtering process, so that the filtering is insufficient and the like.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems that the temperature of dialysate is easy to rise in the enzyme filtering process in the prior art, so that the filtering is insufficient and the like, the utility model provides a cellulase high-efficiency processing system which comprises a fermentation tank, a ceramic membrane component, a compression tank and a storage tank, wherein the outlet of the fermentation tank is connected with the inlet of the ceramic membrane component, the outlet of the dialysate of the ceramic membrane component is connected with the inlet of the compression tank, and the outlet of the compression tank is connected with the inlet of the storage tank; and a chilled water component for freezing dialysate is formed between the outlet of the compression tank and the inlet of the ceramic membrane component.

In actual operation, in order to improve the filtration efficiency, the dialysate can be added into the system when the ceramic membrane component filters, but the dialysate can generate heat due to friction in the repeated flowing process of the system circulation, so that the temperature in the dialysate is continuously improved, and the filtration effect is reduced, therefore, the chilled water component is arranged between the outlet of the compression tank and the inlet of the ceramic membrane component, the dialysate can be cooled by the chilled water to remove partial heat when flowing through the chilled water component, so that the dialysate can be kept at a low temperature condition all the time in the repeated flowing process of the system circulation, the temperature of the dialysate is effectively maintained by the chilled water component, and the continuous working efficiency of the system is improved.

Preferably, the chilled water assembly comprises a circulating tank, a screw water-cooling machine and a cooling water pump, wherein an inlet of the screw water-cooling machine is connected with an outlet of the circulating tank, an outlet of the screw water-cooling machine is connected with an inlet of the ceramic membrane assembly, an inlet of the circulating tank is connected with an outlet of the compression tank, and the cooling water pump is positioned between the outlet of the screw water-cooling machine and the inlet of the ceramic membrane assembly.

Preferably, a first valve is installed between the outlet of the ceramic membrane module and the inlet of the compression tank. The direction, pressure and flow of the solution can be controlled by arranging the first valve, the solution is prevented from flowing back into the ceramic membrane component, the pressure of the solution in the pipeline is constant, and the effect of stabilizing the pressure is achieved.

Preferably, a second valve is installed between the outlet of the compression tank and the inlet of the storage tank. The pipeline between the outlet of the compression tank and the inlet of the storage tank can be selectively connected or disconnected by arranging a second valve, only the solution which meets the requirement enters the storage tank, and the solution which does not meet the requirement continues to circulate until the solution meets the requirement.

Preferably, a stirring mechanism for stirring the dialysate in the compression tank is formed in the compression tank. The temperature of the dialysate in the compression tank is promoted to be uniform, so that the dialysate can be conveniently transferred and cooled when flowing through the chilled water component.

Preferably, the ceramic membrane module is a cylindrical structure and comprises a ceramic membrane main body and a cylindrical shell sleeved on the outer surface of the ceramic membrane main body, the inlet of the ceramic membrane module is located on one side of the cylindrical structure, and the outlet of the ceramic membrane module is located on the circumferential surface of the cylindrical shell close to the side far away from the inlet of the ceramic membrane module.

Preferably, the ceramic membrane main body is formed with at least one dialysis straight hole, and the length direction of the dialysis straight hole is parallel to the central axis of the ceramic membrane main body.

Has the advantages that:

adopt the utility model discloses technical scheme produces beneficial effect as follows:

(1) in actual operation, in order to improve the filtration efficiency, the dialysate can be added into the system when the ceramic membrane component filters, but the dialysate can generate heat due to friction in the repeated flowing process of the system circulation, so that the temperature in the dialysate is continuously improved, and the filtration effect is reduced, therefore, the chilled water component is arranged between the outlet of the compression tank and the inlet of the ceramic membrane component, the dialysate can be cooled by the chilled water to remove partial heat when flowing through the chilled water component, so that the dialysate can be kept at a low temperature condition all the time in the repeated flowing process of the system circulation, the temperature of the dialysate is effectively maintained by the chilled water component, and the continuous working efficiency of the system is improved.

(2) Through set up the rabbling mechanism that stirs the dislysate in compression jar, promote the interior dislysate temperature homogenization of compression jar, the dislysate of being convenient for is conducted heat and is reduced the temperature when flowing through the refrigerated water subassembly.

(3) The direction, pressure and flow of the solution can be controlled by arranging the first valve, the solution is prevented from flowing back into the ceramic membrane component, the pressure of the solution in the pipeline is constant, and the effect of stabilizing the pressure is achieved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic diagram of a preferred high efficiency cellulase processing system of the present invention;

FIG. 2 is a schematic view of a preferred ceramic membrane module according to the present invention.

In the figure:

1-fermentation tank; 2-a ceramic membrane module; 21-a ceramic membrane body; 22-a cylindrical housing;

3-a compression tank; 4-a storage tank; 5-a chilled water component; 51-a recycle tank;

a 52-screw water cooler; 53-cooling water pump; 6-a first valve; 7-a second valve;

8-a stirring mechanism; 9-dialysis straight hole.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention are combined to clearly and completely describe the technical solutions of the embodiments of the present invention, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1, the cellulase high-efficiency processing system comprises a fermentation tank 1, a ceramic membrane module 2, a compression tank 3 and a storage tank 4, wherein an outlet of the fermentation tank 1 is connected with an inlet of the ceramic membrane module 2, a dialysate outlet of the ceramic membrane module 2 is connected with an inlet of the compression tank 3, and an outlet of the compression tank 3 is connected with an inlet of the storage tank 4; a chilled water module 5 for freezing dialysate is formed between the outlet of the compression tank 3 and the inlet of the ceramic membrane module 2.

In actual operation, in order to improve the filtration efficiency, when the ceramic membrane module 2 filters, dialysate can be added into the system, but in the repeated flowing process of the system circulation, friction heat generation can be caused due to the existence of friction force, so that the temperature in the dialysate is continuously improved, and the filtration effect is reduced, therefore, the chilled water module 5 is arranged between the outlet of the compression tank 3 and the inlet of the ceramic membrane module 2, partial heat of the dialysate is removed by the cooling water when flowing through the chilled water module 5, so that the dialysate is always kept under the low-temperature condition in the repeated flowing process of the system circulation, the temperature of the dialysate is effectively maintained by the chilled water module 5, and the continuous working efficiency of the system is improved.

In a preferred embodiment, the chilled water module 5 comprises a circulation tank 51, a screw water cooler 52 and a cooling water pump 53, wherein an inlet of the screw water cooler 52 is connected with an outlet of the circulation tank 51, an outlet of the screw water cooler 52 is connected with an inlet of the ceramic membrane module 2, an inlet of the circulation tank 51 is connected with an outlet of the compression tank 3, and the cooling water pump 53 is positioned between the outlet of the screw water cooler 52 and the inlet of the ceramic membrane module 2.

In a preferred embodiment, a first valve 6 is installed between the outlet of the ceramic membrane module 2 and the inlet of the compression tank 3. The direction, pressure and flow of the solution can be controlled by arranging the first valve 6, the solution is prevented from flowing back into the ceramic membrane component 2, the pressure of the solution in the pipeline is constant, and the effect of stabilizing the pressure is achieved.

In a preferred embodiment, a second valve 7 is installed between the outlet of the compression tank 3 and the inlet of the storage tank 4. The pipeline between the outlet of the compression tank 3 and the inlet of the storage tank 4 can be selectively connected or disconnected by arranging a second valve 7, only the solution which meets the requirement enters the storage tank 4, and the solution which does not meet the requirement continues to circulate until the solution meets the requirement.

In a preferred embodiment, a stirring mechanism 8 for stirring the dialysate in the compression tank 3 is formed in the compression tank 3. The temperature of the dialysate in the compression tank 3 is promoted to be uniform, so that the dialysate can be conveniently transferred and cooled when flowing through the chilled water assembly 5.

As shown in fig. 1 and 2, in a preferred embodiment, the ceramic membrane module 2 is a cylindrical structure, and includes a ceramic membrane main body 21 and a cylindrical housing 22 sleeved on an outer surface thereof, an inlet of the ceramic membrane module 2 is located on one side of the cylindrical structure, and an outlet of the ceramic membrane module 2 is located on a circumferential surface of the cylindrical housing 22 near a side far away from the inlet of the ceramic membrane module 2.

In a preferred embodiment, the ceramic membrane main body 21 is formed with one or more dialysis straight holes 9, and the longitudinal direction of the dialysis straight holes 9 is parallel to the central axis of the ceramic membrane main body 21.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The cellulase high-efficiency processing system is characterized by comprising a fermentation tank, a ceramic membrane component, a compression tank and a storage tank, wherein an outlet of the fermentation tank is connected with an inlet of the ceramic membrane component, a dialysate outlet of the ceramic membrane component is connected with an inlet of the compression tank, and an outlet of the compression tank is connected with an inlet of the storage tank; and a chilled water component for freezing dialysate is formed between the outlet of the compression tank and the inlet of the ceramic membrane component.

2. The system of claim 1, wherein the chilled water module comprises a recycle tank, a screw water cooler and a cooling water pump, wherein an inlet of the screw water cooler is connected to an outlet of the recycle tank, an outlet of the screw water cooler is connected to an inlet of the ceramic membrane module, an inlet of the recycle tank is connected to an outlet of the compression tank, and the cooling water pump is located between the outlet of the screw water cooler and the inlet of the ceramic membrane module.

3. The system of claim 2, wherein a first valve is installed between the outlet of the ceramic membrane module and the inlet of the compression tank.

4. The system of claim 3, wherein a second valve is installed between the outlet of the compression tank and the inlet of the storage tank.

5. The system of claim 4, wherein the compression tank is configured with a stirring mechanism for stirring the dialysate inside the compression tank.

6. The system of claim 5, wherein the ceramic membrane module is a cylindrical structure comprising a ceramic membrane body and a cylindrical housing disposed around the outer surface of the ceramic membrane body, the ceramic membrane module inlet is located on one side of the cylindrical structure, and the ceramic membrane module outlet is located on a circumferential surface of the cylindrical housing near a side thereof away from the ceramic membrane module inlet.

7. The system of claim 6, wherein the ceramic membrane body has at least one dialysis straight hole formed therein, and the length direction of the dialysis straight hole is parallel to the central axis of the ceramic membrane body.