CN111998710A - Horizontal multi-groove water energy storage system with layered temperature - Google Patents

Abstract

The invention relates to a temperature stratification type horizontal multi-tank water energy storage system which comprises a horizontal energy storage water tank body, wherein an upper water distributor, a lower water distributor and a flow stabilizing plate group are arranged in the horizontal energy storage water tank body, the horizontal energy storage water tank is divided into four water storage tanks by a left flow guide channel, a middle flow guide channel and a right flow guide channel, the water storage tanks are sequentially connected in series, water outlets are uniformly distributed on the upper water distributor and the lower water distributor, the water outlets of the upper water distributor face the upper wall in the horizontal energy storage water tank body, and the water outlets of the lower water distributor face the lower inner wall of the horizontal energy storage water tank body. This device design scientific and reasonable can build in positions such as building basement, has solved the device and has selected the difficulty in the site, area is big, the too high scheduling problem of water pressure, can effectively reduce energy memory's construction cost, and the setting of many aqua storage tanks can make water layering many times in energy memory, and the energy storage effect is better.

Description

Horizontal multi-groove water energy storage system with layered temperature

Technical Field

The invention belongs to the field of comprehensive utilization of energy, relates to an energy storage device technology, and particularly relates to a temperature stratification type horizontal multi-groove water energy storage system.

Background

The water energy storage technology can realize the dual purposes of water cold storage and water heat storage, solve the contradiction of unmatched time and space between heat energy supply and demand, fully utilize the national time-of-use electricity price policy, realize 'peak shifting and valley filling', and save the operating cost. At the present stage, with the increasing severity of environmental pollution and the increasing prominence of the problem of conventional energy shortage, medium and low temperature geothermal resources are widely applied in the fields of heating and refrigeration, and the combination of a ground source heat pump system and a water energy storage technology is the main mode of heating and refrigeration by utilizing geothermal energy at present.

In order to improve the energy storage capacity and the energy storage effect of a water energy storage system and meet the load requirements during heating and refrigeration, a temperature stratification type water energy storage device is mostly coupled to a ground source heat pump system in the existing composite energy supply mode. The temperature layering type water energy storage device can realize natural layering of cold water and hot water by utilizing the characteristic that the density of water is different at different temperatures, and temperature sections which are uniformly layered and distributed are formed in the energy storage water tank.

The existing water energy storage device mostly adopts a single vertical energy storage water tank or a cylindrical energy storage water tank, and has the problems of difficult site selection, high investment cost and the like due to overlarge volume and overhigh water pressure; in the existing temperature stratification type water energy storage device, although a relatively stable inclined temperature layer is formed between an upper warm water area and a lower cold water area of a water storage tank, a turbulent flow exists below the inclined temperature layer due to the interference of an inlet flow field, and a part of energy in the inclined temperature layer is brought to the lower part, so that the temperature stratification in the energy storage water tank is not uniform, and the energy storage effect of the existing temperature stratification type water energy storage device is not ideal; most of the existing horizontal water energy storage devices lack a flow stabilizing plate due to the fact that a middle water storage tank is lack of the flow stabilizing plate, temperature stratification is not uniform, and energy storage efficiency is reduced.

Through a search of prior published patent documents, the following several technically relevant published patent documents were found:

1. the utility model provides a steam circulation energy storage system for water heat accumulation (publication number: CN111351017A), relates to a steam circulation energy storage system for water heat accumulation, is used for storing the box that impounds and sets up in the box both sides and be used for the support column of support box including inside for hollow structure, its characterized in that: the device also comprises a separation component capable of separating the stored water, a heating component capable of controllably heating the separated stored water and a hot steam component for producing hot steam; the separating assembly is provided with two sets of and acts on the box inside jointly and becomes three independent cavity with box internal partitioning, and two adjacent independent cavities can give birth to and store different temperatures retaining, and another independent cavity can store hot steam. In short, the technical scheme of the application solves the problem that the traditional steam equipment for water heat storage and energy storage cannot store and generate hot water with different temperatures according to the use requirement through a coherent and compact structure, and further solves the problem that the traditional steam equipment for water heat storage is easy to influence the normal use of equipment and water storage due to water scales.

2. A circulating water energy storage device (publication number CN207945040U) relates to a circulating water energy storage device, and comprises a first water storage tank body and a second water storage tank body, wherein the gravity potential height of the first water storage tank body is higher than that of the second water storage tank body, a first pipe body and a second pipe body are connected between the first water storage tank body and the second water storage tank body, a hydraulic generator is arranged on the first pipe body, a water suction pump is arranged on the second pipe body, and a photovoltaic power generation assembly and a photovoltaic water pumping inverter are arranged at the top of the first water storage tank body; the solar water storage tank is simple in structure and reasonable in design, can convert solar energy into electric energy in the day of sufficient illumination, and then converts the gravitational potential energy into water to be stored in the first water storage tank body.

Compared with the present invention, the above-mentioned patent publications have similar technical problems, but have different technical features, and the technical features and the technical effects caused by the different technical features are not described in the above-mentioned patent publications.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a temperature-stratification type horizontal multi-tank water energy storage system, which can realize that a horizontal energy storage water tank is built at the basement of a building and other positions and can solve the problems of difficult site selection, large occupied area, high investment cost and the like of the existing energy storage device; meanwhile, the device divides the energy storage water tank into a plurality of water storage tanks by adding the partition plates and the water baffle plates, so that multiple layering of water in the energy storage device can be realized, and the upper and lower stabilizing plates are added between the middle water storage tanks, so that the temperature layering of the middle water storage tanks can be ensured to be uniform during heat supply, and the temperature layering can be ensured to be uniform during cold supply; in addition, the device can make the temperature layering in the aqua storage tank even, and high low temperature moisture layering is obvious, can solve among the current energy memory device a great deal of technical problem such as the thermocline vortex is too big, energy storage efficiency is low.

The technical problem to be solved by the invention is realized by adopting the following technical scheme:

the horizontal multi-tank water energy storage system comprises a horizontal energy storage water tank body, wherein an upper water distributor, a lower water distributor and a flow stabilizing plate group are arranged in the horizontal energy storage water tank body, a plurality of water storage tanks are separated from the inside of the horizontal energy storage water tank by a plurality of flow guide channels, and the water storage tanks are sequentially connected in series.

And the upper water distributor is arranged on one side in the horizontal energy storage water tank body through a hot water pipeline, the lower water distributor is arranged on the other side in the horizontal energy storage water tank body through a cold water pipeline, water outlets are uniformly distributed on the upper water distributor and the lower water distributor, the water outlet of the upper water distributor faces the upper wall in the horizontal energy storage water tank body, and the water outlet of the lower water distributor faces the lower inner wall of the horizontal energy storage water tank body.

And the flow guide channel comprises a left flow guide channel, a middle flow guide channel and a right flow guide channel, the flow stabilizing plate group is arranged in the water storage tank divided by the left flow guide channel and the right flow guide channel, the flow stabilizing plate group consists of two unit flow stabilizing plate groups, each unit flow stabilizing plate comprises an upper flow stabilizing plate and a lower flow stabilizing plate, the middle flow guide channel is arranged between the two unit flow stabilizing plate groups, and flow stabilizing plate holes are distributed on the upper flow stabilizing plate and the lower flow stabilizing plate.

And the left diversion channel consists of a left partition plate and a left water baffle, the left partition plate is connected with the inner lower wall of the horizontal energy storage water tank body, the left water baffle is connected with the inner wall of the horizontal energy storage water tank body, and the joint of the left partition plate and the left water baffle and the inner wall of the horizontal energy storage water tank body is jointed and sealed in a waterproof way.

And the right diversion channel is composed of a right water baffle and a right partition plate, the right water baffle is connected with the upper wall in the horizontal energy storage water tank body, the right partition plate is connected with the lower wall in the horizontal energy storage water tank body, and the joint of the right water baffle and the right partition plate with the inner wall of the horizontal energy storage water tank body is jointed and sealed in a waterproof manner.

And the middle diversion channel consists of a middle water baffle and a middle partition plate, the middle water baffle is connected with the inner upper wall of the horizontal energy storage water tank body, the middle partition plate is connected with the inner lower wall of the horizontal energy storage water tank body, and the middle water baffle and the middle partition plate are connected with the inner wall of the horizontal energy storage water tank body and are in waterproof sealing.

And the horizontal energy storage water tank is externally wrapped with an insulating layer.

The invention has the advantages and positive effects that:

1. according to the invention, the opening of the lower water distributor faces downwards, and the opening of the upper water distributor faces upwards, so that a water body is not directly mixed with water in the water storage tank when being injected into the water storage tank, but forms static pressure after being impacted and buffered by the inner wall of the horizontal energy storage water tank, thereby avoiding mixing of cold and hot fluids, and further improving the energy storage efficiency.

2. In the whole energy storage and discharge process of the horizontal energy storage water tank, the gaps between the partition plates and the water baffle plates and the liquid level at the bottom and the upper part of the water tank and the spaces between the partition plates and the water baffle plates play a role in flow guiding, water with higher temperature is arranged above all the subareas, water with lower temperature is arranged below all the subareas, and the density difference generated by different water temperatures is utilized to prevent cold water and hot water from being mixed, so that the energy storage efficiency is improved.

3. The upper and lower flow stabilizing plates are arranged on each water storage tank in the middle of the energy storage device, the flow stabilizing plates are uniformly provided with the small holes which are arranged in order and have the same aperture, and when the energy is stored and discharged, cold water and hot water firstly pass through the upper and lower flow stabilizing plates of the middle water storage tank, so that the flow speed of the cold water and the hot water is reduced, the cold water and the hot water are prevented from being mixed, and the energy storage efficiency is further improved.

4. The horizontal energy storage water tank is scientific and reasonable in design, can be built in a basement of a building and other positions, solves the problems of difficulty in site selection, large occupied area, overhigh water pressure and the like of the device, can effectively reduce the construction cost of the energy storage device, can divide the horizontal energy storage water tank into a plurality of water storage tanks according to requirements, can layer water in the energy storage device for multiple times, and has a better energy storage effect.

5. The invention overcomes the defects of the prior art and provides a temperature stratification type horizontal multi-tank water energy storage system, which can realize that a horizontal energy storage water tank is built at the basement of a building and other positions and can solve the problems of difficult site selection, large occupied area, high investment cost and the like of the existing energy storage device; meanwhile, the device divides the energy storage water tank into a plurality of water storage tanks by adding the partition plates and the water baffle plates, so that multiple layering of water in the energy storage device can be realized, and the upper and lower stabilizing plates are added between the middle water storage tanks, so that the temperature layering of the middle water storage tanks can be ensured to be uniform during heat supply, and the temperature layering can be ensured to be uniform during cold supply; in addition, the device can make the temperature layering in the aqua storage tank even, and high low temperature moisture layering is obvious, can solve among the current energy memory device a great deal of technical problem such as the thermocline vortex is too big, energy storage efficiency is low.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a front partial cross-sectional view of fig. 1.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments, which are illustrative only and not limiting, and the scope of the present invention is not limited thereby.

A temperature stratification type horizontal multi-tank water energy storage system is shown in figure 1 and comprises a horizontal energy storage water tank body 1, wherein an upper water distributor 6, a lower water distributor 9 and a flow stabilizing plate group are arranged in the horizontal energy storage water tank body, a heat insulation layer is wrapped outside the horizontal energy storage water tank body, the horizontal energy storage water tank body is divided into four water storage tanks by a left flow guide channel 2, a middle flow guide channel 4 and a right flow guide channel 5, the water storage tanks are sequentially connected in series, the upper water distributor is installed on one side inside the horizontal energy storage water tank body through a hot water pipeline 7, the lower water distributor is installed on the other side inside the horizontal energy storage water tank body through a cold water pipeline 10, water outlets are uniformly distributed on the upper water distributor and the lower water distributor, the water outlets of the upper water distributor face the upper wall inside the horizontal energy storage water tank body, and.

The flow stabilizing plate group is arranged in a water storage tank partitioned by the left flow guide channel and the right flow guide channel and consists of two unit flow stabilizing plate groups, wherein each unit flow stabilizing plate comprises an upper flow stabilizing plate 3 and a lower flow stabilizing plate 8, the middle flow guide channel is arranged between the two unit flow stabilizing plate groups, and flow stabilizing plate holes are distributed on the upper flow stabilizing plate and the lower flow stabilizing plate.

As shown in fig. 2, the left diversion channel is composed of a left partition plate 2-1 and a left water baffle 2-2, the left partition plate is connected with the inner lower wall of the horizontal energy storage water tank body, the left water baffle is connected with the inner wall of the horizontal energy storage water tank body, and the joint of the left partition plate and the left water baffle with the inner wall of the horizontal energy storage water tank body is jointed and sealed in a waterproof manner.

The right diversion channel is composed of a right water baffle 5-2 and a right partition plate 5-1, the right water baffle is connected with the inner upper wall of the horizontal energy storage water tank body, the right partition plate is connected with the inner lower wall of the horizontal energy storage water tank body, and the joint of the right water baffle and the right partition plate with the inner wall of the horizontal energy storage water tank body is connected and sealed in a waterproof mode.

The middle diversion channel is composed of a middle water baffle 4-2 and a middle partition plate 4-1, the middle water baffle is connected with the inner upper wall of the horizontal energy storage water tank body, the middle partition plate is connected with the inner lower wall of the horizontal energy storage water tank body, and the joint of the middle water baffle and the middle partition plate with the inner wall of the horizontal energy storage water tank body is jointed and sealed in a waterproof manner.

The upper end of the baffle plate and the lower end of the baffle plate are respectively spaced from the inner upper wall and the inner lower wall of the horizontal energy storage water tank body, and the upper flow stabilizing plate and the lower flow stabilizing plate are spaced from the inner upper wall and the inner lower wall of the horizontal energy storage water tank body.

When cold storage is carried out, cold water enters the lower water distributor from a cold water pipeline on the left side, water discharged from the lower water distributor flows into the bottom of the horizontal energy storage water tank, hot water in the horizontal energy storage water tank overflows from the top to enter the left flow guide channel, then passes through the bottom of the left water baffle, passes through the lower flow stabilizing plate to enter the left water storage tank in the middle, then passes through the upper flow stabilizing plate to enter the middle flow guide channel, then passes through the bottom of the left water baffle, passes through the lower flow stabilizing plate to enter the right water storage tank in the middle, then passes through the upper flow stabilizing plate to enter the right flow guide channel, finally passes through the bottom of the right water baffle, and flows out of the horizontal energy storage water tank through the upper water distributor and the hot water pipeline.

When the water is cooled, hot water enters the horizontal energy storage water tank from the water outlet of the upper water distributor on the right side, cold water in the horizontal energy storage water tank overflows from the bottom to enter the right diversion channel, then passes through the top of the right partition plate, passes through the upper flow stabilizing plate to enter the right water storage tank in the middle, then passes through the lower flow stabilizing plate to enter the middle diversion channel, then passes through the top of the middle partition plate, passes through the upper flow stabilizing plate to enter the left water storage tank in the middle, finally passes through the top of the left partition plate, and flows out of the horizontal energy storage water tank through the lower water distributor and the cold water pipeline.

During heat storage, hot water enters the horizontal energy storage water tank from the water outlet of the upper water distributor on the right side, cold water in the horizontal energy storage water tank overflows from the bottom to enter the right diversion channel, then passes through the top of the right partition plate, the upper flow stabilizing plate to enter the right water storage tank in the middle, then passes through the lower flow stabilizing plate to enter the middle diversion channel, then passes through the top of the middle partition plate, the upper flow stabilizing plate to enter the left water storage tank in the middle, then passes through the lower flow stabilizing plate to enter the left diversion channel, finally passes through the top of the left partition plate, and flows out of the horizontal energy storage water tank through the lower water distributor and the cold water pipeline.

When heat is released, cold water enters the lower water distributor from a cold water pipeline on the left side, flows into the bottom of the horizontal energy storage water tank through a water distributor outlet of the lower water distributor, hot water in the horizontal energy storage water tank overflows from the top to enter the left diversion channel, then passes through the bottom of the left water baffle, passes through the lower flow stabilizing plate to enter the left water storage tank in the middle, then passes through the upper flow stabilizing plate to enter the middle diversion channel, then passes through the bottom of the left water baffle, passes through the lower flow stabilizing plate to enter the right water storage tank in the middle, then passes through the upper flow stabilizing plate to enter the right diversion channel, finally passes through the bottom of the right water baffle, and flows out of the horizontal energy storage water tank through the upper water distributor and a hot water pipeline.

Although the embodiments of the present invention and the accompanying drawings are disclosed for illustrative purposes, those skilled in the art will appreciate that: various substitutions, changes and modifications are possible without departing from the spirit and scope of the invention and the appended claims, and therefore the scope of the invention is not limited to the disclosure of the embodiments and the accompanying drawings.

Claims (7)

1. The utility model provides a horizontal multislot water energy storage system of temperature layering type which characterized in that: the horizontal energy storage water tank comprises a horizontal energy storage water tank body, wherein an upper water distributor, a lower water distributor and a flow stabilizing plate group are arranged in the horizontal energy storage water tank body, the horizontal energy storage water tank is internally divided into a plurality of water storage tanks by a plurality of flow guide channels, and the water storage tanks are sequentially connected in series.

2. The temperature stratification type horizontal multi-tank water energy storage system according to claim 1, wherein: the upper water distributor is installed on one side inside the horizontal energy storage water tank body through a hot water pipeline, the lower water distributor is installed on the other side inside the horizontal energy storage water tank body through a cold water pipeline, water outlets are uniformly distributed on the upper water distributor and the lower water distributor, the water outlets of the upper water distributor face the upper wall inside the horizontal energy storage water tank body, and the water outlets of the lower water distributor face the lower inner wall of the horizontal energy storage water tank body.

3. The temperature stratification type horizontal multi-tank water energy storage system according to claim 1, wherein: the water storage tank is characterized in that the flow guide channel comprises a left flow guide channel, a middle flow guide channel and a right flow guide channel, the flow stabilizing plate groups are arranged in the water storage tank partitioned by the left flow guide channel and the right flow guide channel and are composed of two unit flow stabilizing plate groups, each unit flow stabilizing plate comprises an upper flow stabilizing plate and a lower flow stabilizing plate, the middle flow guide channel is arranged between the two unit flow stabilizing plate groups, and flow stabilizing plate holes are distributed on the upper flow stabilizing plate and the lower flow stabilizing plate.

4. The temperature stratification type horizontal multi-tank water energy storage system according to claim 3, wherein: the left diversion channel is composed of a left partition plate and a left water baffle, the left partition plate is connected with the inner lower wall of the horizontal energy storage water tank body, the left water baffle is connected with the inner wall of the horizontal energy storage water tank body, and the joint of the left partition plate and the left water baffle and the inner wall of the horizontal energy storage water tank body is connected and sealed in a waterproof mode.

5. The temperature stratification type horizontal multi-tank water energy storage system according to claim 3, wherein: the right diversion channel is composed of a right water baffle and a right partition plate, the right water baffle is connected with the upper wall in the horizontal energy storage water tank body, the right partition plate is connected with the lower wall in the horizontal energy storage water tank body, and the joint of the right water baffle and the inner wall of the right partition plate with the horizontal energy storage water tank body is connected with the water-proof seal.

6. The temperature stratification type horizontal multi-tank water energy storage system according to claim 3, wherein: the middle diversion channel is composed of a middle water baffle and a middle partition plate, the middle water baffle is connected with the upper wall in the horizontal energy storage water tank body, the middle partition plate is connected with the lower wall in the horizontal energy storage water tank body, and the middle water baffle and the middle partition plate are connected with the inner wall of the horizontal energy storage water tank body and are sealed in a waterproof mode.

7. The temperature stratification type horizontal multi-tank water energy storage system according to any one of claims 1, 2, 4, 5 and 6, wherein: and the horizontal energy storage water tank is externally wrapped with an insulating layer.

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