CN114737643A - Water storage device with physical interlayer - Google Patents

Abstract

The invention relates to a water storage device with a physical interlayer, which comprises a tank body, wherein a heat insulation layer is arranged in the tank body, the heat insulation layer divides the inner space of the tank body into two cavities, and the heat insulation layer and the tank body are movably assembled; the two cavities are respectively communicated with water distributors arranged at two ends outside the tank body, when water is injected into the tank body through the water distributors or water is discharged from the tank body, the heat insulation layer can move under the action of pressure difference, and a sealing element is arranged at an assembly position between the outer wall of the heat insulation layer and the inner wall of the tank body to isolate the two cavities, so that the water in the two cavities is not communicated. The water storage device of the invention completely separates hot water from cold water through the heat insulation layer, thereby avoiding mass and energy exchange between the cold water layer and the hot water layer to the maximum extent. Compared with the traditional water storage tank which inevitably has a temperature gradient layer for exchanging the energy and the mass of cold water and hot water, the invention has no temperature gradient layer, thereby greatly improving the energy storage efficiency and reducing the operation cost.

Description

Water storage device with physical interlayer

Technical Field

The invention relates to the technical field of energy storage, in particular to a water storage device with a physical interlayer.

Background

The water storage technology is an important technical direction for flexible modification, and has a positive effect on a peak regulation modification system in the power industry of China. The traditional water storage technology generally adopts a temperature gradient layer water storage tank, namely cold water and hot water exist in a single tank, and in the water storage process of the water storage tank, the natural convection phenomenon occurs at a cold-hot water interface due to the density difference of the existing fluid, so that mass exchange and heat exchange are caused, and a temperature gradient layer is formed. Along with the aggravation of natural convection, the thickness of the thermocline is gradually thickened, and the energy storage efficiency is also gradually reduced.

In the prior art, in order to reduce the thickness of the thermocline and improve the energy storage efficiency, researchers and engineers develop different types of water distributors, and try to reduce the thickness of the thermocline from the angle of uniform water distribution, but no matter what principle is adopted for developing the water distribution technology, the existence of the thermocline is unavoidable.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a water storage device with a physical interlayer, aiming at avoiding the convection of cold water and hot water to form an inclined temperature layer, thereby improving the energy storage efficiency to the maximum extent.

The technical scheme adopted by the invention is as follows:

a water storage device with a physical interlayer comprises a tank body, wherein a heat insulation layer is arranged in the tank body, the heat insulation layer divides the internal space of the tank body into two cavities, and the heat insulation layer and the tank body are movably assembled;

the two cavities are respectively communicated with water distributors arranged at two ends outside the tank body, when water is injected into the tank body through the water distributors or water is discharged from the tank body, the heat insulation layer can move under the action of pressure difference, and a sealing element is arranged at an assembly position between the outer wall of the heat insulation layer and the inner wall of the tank body to isolate the two cavities, so that the water in the two cavities is not communicated.

The further technical scheme is as follows:

the structure of the heat insulation layer comprises a shell, the shell is made of heat insulation materials, and a vacuum cavity is formed inside the shell.

The structure of the heat insulation layer further comprises a supporting piece, and the supporting piece is fixedly connected with the shell and made of the same material as the shell.

The thermal-insulating layer and the tank body are movably assembled through balls, the balls are arranged in the mounting holes in the outer wall of the thermal-insulating layer along the circumferential direction, and the balls are in rolling fit with the inner wall of the tank body.

The whole water storage device is of a centrosymmetric structure and is symmetrically arranged by the central axis of the tank body; the water storage device is installed along the vertical direction, and the cavity located at the upper part is used for storing hot water, and the cavity located at the lower part is used for storing cold water.

The center of insulating layer is equipped with the intercommunicating pore, the intercommunicating pore can be used to two cavitys about the intercommunication, detachably is connected with the end cap in the intercommunicating pore, the end cap is used for plugging up the intercommunicating pore.

The surface of the heat insulation layer positioned in the upper cavity is in a shape with high periphery and low middle, so that impurities deposited on the surface are gathered to the plug.

And a drain pipe is arranged at the bottom of the cavity at the lower part, can accommodate tools to pass in and out and is used for disassembling and assembling the plug.

The water distributors at two ends outside the tank body are the same in structure, and the structure of each water distributor at each end is as follows:

comprises a water inlet pipe, a shunt pipe, a connecting pipe, a balance pipe and a water outlet pipe;

the water inlet pipe is connected with one end of the shunt pipe;

the outer side surface of the flow dividing pipe is uniformly provided with holes along the circumferential direction, and the flow dividing pipe is respectively connected with one end of the connecting pipes through the holes;

the balance pipe is annular, inner side holes are uniformly formed in the inner side surface of the balance pipe along the circumferential direction, and the balance pipe is connected with the other ends of the connecting pipes through the inner side holes;

a bottom hole is formed in the bottom surface of the middle point of the arc section between every two adjacent inner side holes, the balance pipe is connected with one end of the water outlet pipe through the bottom hole, and the other end of the water outlet pipe is connected with the end face of the tank body;

the jar body is cylindric, the inlet pipe sets up along cylinder axis direction, the balance pipe with jar coaxial setting of body, the connecting pipe the outlet pipe uses cylinder axis as central symmetry distribution respectively.

The invention has the following beneficial effects:

(1) the water storage device of the invention completely separates hot water from cold water through the heat insulation layer, thereby avoiding mass and energy exchange between the cold water layer and the hot water layer to the maximum extent. Compared with the traditional water storage tank which inevitably has a temperature gradient layer for exchanging the energy and the mass of cold water and hot water, the invention has no temperature gradient layer, thereby greatly improving the energy storage efficiency and reducing the operation cost.

(2) The water storage tank of the invention is provided with the physical interlayer, so the structure of the water distributor can be simplified, and the water distributor can be arranged outside the tank body. Compared with the traditional natural layering water storage tank which needs to arrange a plurality of layers of water distributors with complex structures in the tank for ensuring the uniform water flow, the invention simplifies the structure of the device, improves the height of the effective water storage layer and greatly reduces the construction cost.

(3) The heat insulation layer of the invention reduces heat transfer between the cold water layer and the hot water layer to the maximum extent through the heat insulation material and the vacuum cavity, and the marble and the flexible sealing ring are arranged around the heat insulation layer, thus reducing the weight of the heat insulation layer to the maximum extent, ensuring the heat insulation layer to move up and down along the tank body under the action of buoyancy, well avoiding mixing of the cold water and the hot water, and perfectly realizing the function of storing mass and energy of the water storage tank.

(4) The threaded plug is arranged in the center of the heat insulation layer, when the heat insulation layer normally operates, the plug is tightly connected with the cavity, cold water and hot water cannot be mixed through the central hole, after the heat insulation layer operates for a long time, the plug can be unscrewed through the drain pipe at the bottom of the storage tank, impurities accumulated on the cavity are discharged, and long-term efficient and safe operation of the water storage tank is guaranteed.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

Fig. 1 is a front sectional view of a water storage device according to an embodiment of the invention.

Fig. 2 is a top view of the upper water distributor of the water storage device according to the embodiment of the invention.

In the figure: 1. a water inlet pipe; 2. a shunt tube; 3. a connecting pipe; 4. a balance tube; 5. a water outlet pipe; 6. a tank body; 7. a thermal insulation layer; 8. a support member; 9. a seal member; 10. a ball bearing; 11. a plug; 12. a sewage discharge pipe.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

Referring to fig. 1, the water storage device with the physical interlayer of the embodiment includes a tank 6, a heat insulation layer 7 is arranged inside the tank 6, the heat insulation layer 7 divides the space inside the tank 6 into two cavities, and the heat insulation layer 7 and the tank 6 are movably assembled;

the two cavities are respectively communicated with water distributors arranged at two ends outside the tank body 6, when water is injected into the tank body 6 through the water distributors or water is discharged from the tank body 6, the heat-insulating layer 7 can move under the action of the pressure difference of the water in the two cavities, and a sealing element 9 is arranged at the assembly position between the outer wall of the heat-insulating layer 7 and the inner wall of the tank body 6 to isolate the two cavities, so that the water in the two cavities is not communicated.

In this embodiment, the cold water and the hot water are stored in the two cavities respectively, and the heat insulation layer 7 plays a role in physical insulation while realizing movement, so that the cold water and the hot water in the two cavities are separated. And the insulating effect is enhanced by the seal 9. In the water storage device of the present embodiment, there is no communication and direct contact between cold water and hot water, that is, there is no mass exchange (i.e., mixing of cold water and hot water) between the cold water and the hot water, which is also a main cause of the creation of the thermocline. Therefore, the problem that the energy storage efficiency is gradually reduced along with the inevitable increase of the inclined temperature layer along with the increase of the operation period due to the fact that the cold water and the hot water are communicated with each other and the inclined temperature layer exists at the junction of the cold water and the hot water in the conventional water storage device can be fundamentally solved.

In order to further improve the insulation effect, the heat insulation layer 7 is made of heat insulation materials and structurally comprises a shell, and a vacuum cavity with a certain vacuum degree is formed in the shell through vacuum pumping. Therefore, the heat insulation layer 7 not only plays a role in preventing cold and hot water quality exchange, but also plays a role in preventing cold and hot water energy exchange, namely, the quality and energy exchange between the cold and hot water layers are avoided, and the existence of an inclined temperature layer is avoided, so that the water storage efficiency is greatly improved, and the operation cost is reduced.

In order to improve the structural stability, the structure of the thermal insulation layer 7 further comprises a support 8, and the support 8 is fixedly connected with the shell and made of the same material as the shell so as to ensure the thermal insulation effect of the thermal insulation layer 7.

The support 8 is preferably a rod-like structure, serving as a connection and support between the two sides of the vacuum chamber. The number of the supporting members 8 can be set according to actual needs.

The heat insulation layer 7 and the tank body 6 are preferably movably assembled through the balls 10, the balls 10 are arranged in the mounting holes in the outer wall of the heat insulation layer 7 along the circumferential direction, and the balls 10 are in rolling fit with the inner wall of the tank body 6.

The balls 10 may be rolling members such as glass marbles, and are preferably arranged at equal intervals in the circumferential direction.

Sealing member 9 preferentially adopts the sealing washer, and the sealing washer is made by polypropylene, places the hole between insulating layer 7 and jar body 6, sets up the liquid that density is a little higher than water in the groove of sealing washer, ensures to guarantee to keep the leakproofness at insulating layer 7 removal in-process, prevents that the water in the upper and lower cavity from flowing each other.

In the above embodiment, the whole water storage device is of a central symmetrical structure and is symmetrically arranged with the central axis of the tank body 6; the water storage device is installed along the vertical direction, and the cavity located at the upper part is used for storing hot water, and the cavity located at the lower part is used for storing cold water. The center of the heat insulation layer 7 is provided with a communication hole which can be used for communicating the upper cavity and the lower cavity, a plug 11 is detachably connected in the communication hole, and the plug 11 is used for plugging the communication hole.

The surface of the heat insulation layer 7 positioned in the upper cavity is in a shape with high periphery and low middle, so that impurities deposited on the surface are gathered to the plug 11.

The communicating hole is preferably in threaded connection with the plug 11, the outer wall of the plug 11 is provided with external threads, and the inner wall of the communicating hole is provided with internal threads.

The bottom of the cavity body positioned at the lower part is provided with a sewage discharge pipe 12, and the sewage discharge pipe 12 can accommodate tools to pass in and out for disassembling and assembling the plug 11.

Specifically, the deposited impurity of insulating layer 7 upper surface assembles end cap 11 position department, and after operation a period, 12 blow off pipes can be opened during the maintenance, lift off end cap 11, and impurity is discharged from the intercommunicating pore, passes through 12 water storage devices that discharge of blow off pipe again.

In the above embodiment, the water distributors at the two outer ends of the tank 6 have the same structure, referring to fig. 2, the structure of each water distributor at each end is:

comprises a water inlet pipe 1, a shunt pipe 2, a connecting pipe 3, a balance pipe 4 and a water outlet pipe 5;

the water inlet pipe 1 is connected with one end of the shunt pipe 2;

the outer side surface of the shunt pipe 2 is uniformly provided with holes along the circumferential direction, and the shunt pipe 2 is respectively connected with one end of a plurality of connecting pipes 3 through the holes; specifically, the number of the holes is 4-12, and included angles formed among the holes are equal;

the balance pipe 4 is annular, inner side holes are uniformly formed in the inner side surface of the balance pipe 4 along the circumferential direction, and the balance pipe 4 is connected with the other ends of the connecting pipes 3 through the inner side holes respectively; specifically, the number of the inner side holes is 4-12;

a bottom hole is formed in the bottom surface of the middle point of the arc section between the two adjacent inner side holes, the balance pipe 4 is connected with one end of the water outlet pipe 5 through the bottom hole, and the other end of the water outlet pipe 5 is connected with the end surface of the tank body 6;

the jar body 6 is cylindric, and inlet tube 1 sets up along the cylinder axis direction, and balance pipe 4 sets up with jar body 6 is coaxial, and connecting pipe 3, outlet pipe 5 use the cylinder axis to distribute as central symmetry respectively.

The water distributor of the embodiment is of a centrosymmetric structure, so that uniform water inlet or water discharge is ensured, the water distributor is arranged outside the tank body 6, disturbance of liquid in the cavity is reduced to the maximum extent in the water inlet or water discharge process during water inlet or water discharge, and the uniformity of temperature distribution of the liquid in the tank body is ensured.

Taking the hot water and the cold water as examples, the working flow of the embodiment is as follows, see fig. 1:

when storing hot water, the hot water flows into water storage device along upper portion arrow from the water-locator of upper end, and evenly distributed is in the upper portion cavity, and under the water pressure effect, insulating layer 7 moves down, ensures pressure balance in the upper and lower cavity, and insulating layer 7 is isolated with the cold water in the lower part cavity and the hot water on the cavity of upper portion simultaneously, prevents cold and hot mixing and heat exchange, improves the energy storage effect. Similarly, when releasing hot water, the hot water flows out of the upper cavity along the water distributor at the upper end in the direction opposite to the arrow shown in the figure.

When cold water is discharged, the cold water uniformly flows out from the water distributor at the lower end and flows out of the water storage device along the direction indicated by an arrow at the lower part, and the heat insulation layer 7 moves to the position where the pressure of the upper cavity and the pressure of the lower cavity are balanced, and the cold water and the hot water are completely isolated. Similarly, when storing cold water, the cold water flows into the lower chamber along the lower distributor in the direction opposite to the arrow shown in the figure.

This application has realized the synchronous energy storage of cold and hot fluid and has not interfered with each other, compares with traditional energy memory, and energy storage efficiency improves greatly.

Those of ordinary skill in the art will understand that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. 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 (9)

1. The water storage device with the physical interlayer is characterized by comprising a tank body (6), wherein a heat insulation layer (7) is arranged in the tank body (6), the heat insulation layer (7) divides the inner space of the tank body (6) into two cavities, and the heat insulation layer (7) is movably assembled with the tank body (6);

the two cavities are respectively communicated with water distributors arranged at two ends outside the tank body (6), when water is injected into the tank body (6) through the water distributors or water is discharged outwards from the tank body (6), the heat-insulating layer (7) can move under the action of pressure difference, and a sealing element (9) is arranged at an assembly position between the outer wall of the heat-insulating layer (7) and the inner wall of the tank body (6) to isolate the two cavities, so that the water in the two cavities is not communicated.

2. A water storage device with a physical compartment as claimed in claim 1, wherein the structure of said thermal insulation layer (7) comprises a housing, said housing is made of thermal insulation material, and a vacuum cavity is formed inside the housing.

3. A water storage device with a physical compartment as claimed in claim 2, wherein the structure of the thermal insulation layer (7) further comprises a support member (8), and the support member (8) is fixedly connected with the housing and is made of the same material as the housing.

4. The water storage device with the physical interlayer as claimed in claim 1, wherein the heat insulation layer (7) and the tank body (6) are movably assembled by using balls (10), the balls (10) are circumferentially arranged in mounting holes in the outer wall of the heat insulation layer (7), and the balls (10) are in rolling fit with the inner wall of the tank body (6).

5. The water storage device with the physical barrier according to claim 1, wherein the water storage device is of a central symmetrical structure and is arranged symmetrically with respect to the central axis of the tank body (6); the water storage device is installed along the vertical direction, and the cavity located at the upper part is used for storing hot water, and the cavity located at the lower part is used for storing cold water.

6. A water storage device with a physical separation layer according to claim 5, characterized in that a communication hole is arranged in the center of the heat insulation layer (7), the communication hole can be used for communicating the upper cavity and the lower cavity, a plug (11) is detachably connected in the communication hole, and the plug (11) is used for plugging the communication hole.

7. A water storage device with a physical partition according to claim 6, wherein the surface of the heat insulation layer (7) in the upper cavity is in a shape with high periphery and low middle, so that impurities deposited on the surface are gathered at the plug (11).

8. A water storage device with a physical interlayer as claimed in claim 5, wherein a sewage draining pipe (12) is arranged at the bottom of the lower cavity, and the sewage draining pipe (12) can be used for accommodating tools to go in and out for disassembling and assembling the plug (11).

9. A water storage device with a physical separation layer according to claim 1 or 5, wherein the water distributors at the two outer ends of the tank (6) have the same structure, and the structure of the water distributor at each end is as follows:

comprises a water inlet pipe (1), a shunt pipe (2), a connecting pipe (3), a balance pipe (4) and a water outlet pipe (5);

the water inlet pipe (1) is connected with one end of the shunt pipe (2);

holes are uniformly formed in the outer side surface of the flow distribution pipe (2) along the circumferential direction, and the flow distribution pipe (2) is respectively connected with one end of each of the connecting pipes (3) through the holes;

the balance pipe (4) is annular, inner side holes are uniformly formed in the inner side surface of the balance pipe (4) along the circumferential direction, and the balance pipe (4) is connected with the other ends of the connecting pipes (3) through the inner side holes respectively;

a bottom hole is formed in the bottom surface of the middle point of the arc section between every two adjacent inner side holes, the balance pipe (4) is connected with one end of the water outlet pipe (5) through the bottom hole, and the other end of the water outlet pipe (5) is connected with the end face of the tank body (6);

the jar body (6) are cylindric, inlet tube (1) sets up along the cylinder axis direction, balance pipe (4) with jar body (6) coaxial setting, connecting pipe (3) outlet pipe (5) use the cylinder axis respectively as central symmetry distribution.

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