CN213483203U - Display system for simulating multiple power generation modes - Google Patents

Abstract

The utility model belongs to the technical field of the power generation model, a display system of multiple power generation mode of simulation is disclosed, including nuclear power generation model, thermal power generation model, pumped storage model, mountain wind power generation model, hydroelectric generation model, water wind power generation model, transformer substation, electricity tower and the station that steps up, the station that steps up is all installed to mountain wind power generation model and the next door of water wind power generation model, the transformer substation is all installed to the next door of nuclear power generation model, thermal power generation model, pumped storage model, hydroelectric generation model, the electricity tower is all installed to transformer substation and the next door of the station that steps up, the electricity tower all is connected with centralized control center, centralized control center is connected with energy storage power storage device. The system combines various models to enable visitors to know the power generation principle and effect more clearly and visually, and know the source and use of green energy, thereby playing a good role in science popularization and education.

Description

Display system for simulating multiple power generation modes

Technical Field

The utility model relates to a power generation model technical field especially relates to a display system of multiple electricity generation mode of simulation.

Background

The establishment of a green ecological community is the mainstream trend of the current society, the green community or sustainable communities is a community which integrates the society, economy and nature and accords with the ecosystem, the high-efficiency cyclic utilization of resources and energy is realized by maintaining the balance of the original community ecosystem, the waste discharge is reduced, the harmonious community, the high-efficiency community and the benign ecological cycle are realized, and the defects of energy dispersion, no concentration, difficult collection, unstable energy, inconvenient development and utilization, long power transmission distance and the like of the existing renewable energy sources are overcome, so that the defects of low output power, unstable energy, high power transmission cost and the like are brought to the development and utilization of the renewable energy sources, a plurality of power generation systems open up a new way for the combined utilization of the new energy sources, new attempts are provided for realizing stable, high-power and low-cost energy output, and the popularization of the electric power related to the plurality of power generation modes in the prior art all adopt a picture form, not intuitive enough and not good in display effect.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a display system of multiple power generation mode of simulation, utilize nuclear power generation model, thermal power generation model, the pumped storage model, mountain wind power generation model, hydroelectric power generation model, wind power generation model generates electricity on water, the electric current that will produce is handled through transformer substation and booster station, recycle the electric tower and flow the current to centralized control center, combine to let the visitor more clear through multiple model, audio-visual understanding generates electricity principle and effect, know the source and the use of the green energy, the problem among the prior art has been solved.

In order to achieve the above object, the utility model provides a following technical scheme: a display system for simulating multiple power generation modes comprises a nuclear power generation model, a thermal power generation model, a pumped storage model, a high mountain wind power generation model, a hydraulic power generation model, an over-water wind power generation model, a transformer substation, an electric tower and a booster station, wherein the high mountain wind power generation model is installed at a high altitude, the hydraulic power generation model is arranged at the position with the largest river fall, the pumped storage model is installed at the downstream of the hydraulic power generation model, the thermal power generation model is installed at the left bank of a downstream sea outlet of the pumped storage model, the nuclear power generation model is installed at the right bank of the downstream sea outlet of the pumped storage model, the over-water wind power generation model is installed at the sea, the booster station is installed beside the high mountain wind power generation model and the over-water wind power generation model, and the transformer substations are installed beside the nuclear power generation model, the thermal power generation model, the pumped storage model and, electric towers are installed beside the transformer substation and the booster station, the electric towers are connected with a centralized control center, and the centralized control center is connected with an energy storage and power storage device.

Preferably, the electric tower is a tower-shaped building with a trapezoid shape, a triangular shape and the like, the height of the tower is 25-40mm, and the tower is of a steel frame structure.

Preferably, the thermal power generation model is a power generation model for converting electric power devices into electric energy by using thermal energy.

Preferably, the high mountain wind power generation model and the water wind power generation model drive the windmill blades to rotate by wind power.

Preferably, the hydroelectric generation model utilizes water flow to push the water turbine to rotate.

Nuclear power generation model, thermal power generation model, pumped storage model, mountain wind power generation model, hydroelectric power generation model, water wind power generation model are the known model of prior art, all exist in this display system in the required part of electricity generation etc. in every model.

Preferably, the display system further comprises a power supply assembly, and the power supply assembly controls the nuclear power generation model, the thermal power generation model, the pumped storage model, the high mountain wind power generation model, the hydraulic power generation model and the water wind power generation model to be powered on or powered off respectively.

Compared with the prior art, the beneficial effects of the utility model are as follows:

the utility model discloses a display system of multiple power generation mode of simulation, including nuclear power generation model, thermal power generation model, pumped storage model, mountain wind power generation model, hydroelectric generation model, aquatic wind power generation model, transformer substation, electricity tower and the station of stepping up, the station of stepping up is all installed to mountain wind power generation model and the next door of aquatic wind power generation model, the transformer substation is all installed to the next door of nuclear power generation model, thermal power generation model, pumped storage model, hydroelectric generation model, the electricity tower is all installed to transformer substation and the next door of the station of stepping up, the electricity tower all is connected with centralized control center, centralized control center is connected with energy storage power storage device. The system combines various models to enable visitors to know the power generation principle and effect more clearly and visually, and know the source and use of green energy, thereby playing a good role in science popularization and education.

Drawings

FIG. 1 is a block diagram of the present invention;

fig. 2 is an overall schematic view of the present invention;

in the figure: 1. a nuclear power generation model; 2. a thermal power generation model; 3. a pumped storage model; 4. a high mountain wind power generation model; 5. a hydroelectric power generation model; 6. an overwater wind power generation model; 7. a transformer substation; 8. an electric tower; 81. a centralized control center; 82. an energy storage and power storage device; 9. and a booster station.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only 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.

Referring to fig. 1-2, a display system for simulating multiple power generation modes comprises a nuclear power generation model 1, a thermal power generation model 2, a pumped storage model 3, a mountain wind power generation model 4, a hydroelectric generation model 5, an overwater wind power generation model 6, a transformer substation 7, a power tower 8 and a booster station 9, wherein the mountain wind power generation model 4 is installed at a high altitude, the hydroelectric generation model 5 is arranged at a position with the largest river fall, the hydroelectric generation model 5 pushes a water turbine to rotate by utilizing the water flow with potential energy at the high altitude of rivers and lakes and the like to move to a low altitude, so as to push the generator to generate electric energy, fully utilize the potential energy of water, provide a flood-fighting regulation function while generating power, the pumped storage model 3 is installed at the downstream of the hydroelectric generation model 5, the pumped storage model 3 pumps water to an upper reservoir by utilizing the electric energy at the low ebb of the power load, and discharges water to a lower reservoir to generate, therefore, the power supply level of the electric load at the peak time and the low peak time is well adjusted, the left bank of the downstream sea outlet of the pumped storage model 3 is provided with a thermal power generation model 2, the thermal power generation model 2 is a power generation model which utilizes the heat energy generated when solid, liquid and gas fuels such as coal, petroleum, natural gas and the like are combusted to push an electric power device to be converted into electric energy, the right bank of the downstream sea outlet of the pumped storage model 3 is provided with a nuclear power generation model 1, the nuclear power generation model 1 utilizes the heat energy released by nuclear fission in a nuclear reactor to generate electricity, the nuclear reactor and a steam generator are used as boilers, the chemical energy of mineral fuel is replaced by nuclear fission energy, an offshore wind power generation model 6 is arranged on the sea, the high mountain wind power generation model 4 and the offshore wind power generation model 6 utilize wind power to drive windmill blades to rotate so as to promote the generator, the method has the advantages that resources are not generated and consumed when electric energy is generated, the green and environment-friendly effect is achieved, the booster stations 9 are arranged beside the high-mountain wind power generation model 4 and the overwater wind power generation model 6, the electric energy generated by the high-mountain wind power generation model 4 and the overwater wind power generation model 6 is boosted to reach the standard of household electricity by the booster stations 9, the transformer stations 7 are arranged beside the nuclear power generation model 1, the thermal power generation model 2, the pumped storage model 3 and the hydroelectric generation model 5, the electric towers 8 are arranged beside the transformer stations 7 and the booster stations 9, the transformer stations 7 and the booster stations 9 process the electricity and then send the electricity to the centralized control center 81 through the electric towers 8, the electric towers 8 are trapezoidal, triangular and other tower-shaped buildings, the height is 25-40mm, the buildings are of steel frame structures, the electric towers 8 are connected with the centralized control center 81, the centralized control center 81 integrates the current and then sends the, centralized control center 81 is connected with energy storage power storage device 82, utilizes energy storage power storage device 82 to carry out the energy storage to unnecessary electricity, strengthens centralized control center 81's power supply ability when power supply load is great, has accomplished the make full use of electric energy, has improved resource utilization efficiency, combines to let the visitor more clear understanding the electricity generation principle and effect through multiple model, knows the source and the use of the green energy.

The working principle is as follows: utilize nuclear power generation model 1, thermal power generation model 2, pumped storage model 3, mountain wind power generation model 4, hydroelectric power generation model 5, wind power generation model 6 on water generates electricity, the electric current that will produce is handled through transformer substation 7 and booster station 9, reuse electric tower 8 with the electric current flow to centralized control center 81, centralized control center 81 sends to the user after with the electric current integration, centralized control center 81 is connected with energy storage power storage device 82, utilize energy storage power storage device 82 to carry out the energy storage to unnecessary electricity, strengthen centralized control center 81's power supply ability when power load is great, multiple model combines to let the visitor's more clear understanding generate electricity principle and effect.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or model 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 model.

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 (6)

1. The display system for simulating multiple power generation modes is characterized in that: the system comprises a nuclear power generation model (1), a thermal power generation model (2), a pumped storage model (3), a high mountain wind power generation model (4), a hydraulic power generation model (5), an overwater wind power generation model (6), a transformer substation (7), an electric tower (8) and a booster station (9), wherein the high mountain wind power generation model (4) is installed at an altitude, the hydraulic power generation model (5) is arranged at the position with the largest river fall, the pumped storage model (3) is installed at the downstream of the hydraulic power generation model (5), the thermal power generation model (2) is installed at the left bank of the downstream sea outlet of the pumped storage model (3), the nuclear power generation model (1) is installed at the right bank of the downstream sea outlet of the pumped storage model (3), the overwater wind power generation model (6) is installed at sea, and the booster station (9) is installed beside the high mountain wind power generation model (4) and the overwater wind power generation model (, the nuclear power generation system is characterized in that a transformer substation (7) is installed beside the nuclear power generation model (1), the thermal power generation model (2), the pumped storage model (3) and the hydraulic power generation model (5), an electric tower (8) is installed beside the transformer substation (7) and the booster station (9), the electric tower (8) is connected with a centralized control center (81), and the centralized control center (81) is connected with an energy storage and power storage device (82).

2. The display system for simulating multiple power generation modes according to claim 1, wherein: the electric tower (8) is trapezoidal or triangular, has the height of 25-40mm and is of a steel frame structure.

3. The display system for simulating multiple power generation modes according to claim 1, wherein: the thermal power generation model (2) is a power generation model which utilizes heat energy to drive an electric power device to convert into electric energy.

4. The display system for simulating multiple power generation modes according to claim 1, wherein: the high mountain wind power generation model (4) and the water wind power generation model (6) drive the windmill blades to rotate by utilizing wind power.

5. The display system for simulating multiple power generation modes according to claim 1, wherein: the hydroelectric generation model (5) utilizes water flow to push the water turbine to rotate.

6. The display system for simulating multiple power generation modes according to claim 1, wherein: the power supply module is used for controlling the nuclear power generation model (1), the thermal power generation model (2), the pumped storage model (3), the mountain wind power generation model (4), the hydraulic power generation model (5) and the overwater wind power generation model (6) to be powered on or powered off.

Images