CN219140883U - Novel zero-energy-consumption solar phase-change compensation type heating system - Google Patents

Abstract

The utility model discloses a novel zero-energy-consumption solar phase-change compensation type heating system, which is characterized in that a solar hot air collector group is connected end to end through a pipeline, a heat exchanger and a circulating fan are arranged on the end to end connecting pipeline, and a wind-water heat exchanger is connected with a phase-change energy storage box; the phase change energy storage box is connected with the external heating tail end through a pipeline and a heating circulating fan to realize heating; the solar hot air collector group is matched with a photovoltaic panel assembly, the photovoltaic panel assembly is connected with a controller and an inverter, and the controller and the inverter are connected with a storage battery and a power control cabinet. The device is integrally arranged, the power supply during the operation of the system is realized through the photovoltaic panel, the heat acquisition is realized through the solar hot air collector group, and the heat storage during the peak value of the solar heat collection is realized through the phase change energy storage box; when the system is operated, external power is not required, the system can be assembled in a modularized mode, and the system is suitable for being installed and used in a cooling area with sufficient illumination.

Description

Novel zero-energy-consumption solar phase-change compensation type heating system

Technical Field

The utility model belongs to the technical field of solar drying systems, and particularly relates to a novel zero-energy-consumption solar phase-change compensation type heating system.

Background

In the process of exploring a new path by using solar energy, hot air is directly sent into heating equipment through air type solar equipment, and indoor heating is realized through high-temperature air, so that the current new exploring direction is achieved.

In the practical exploration process of the application of the field, in the prior patent application (patent application number: 2022225803540) at the moment, the phase change material is adopted to realize heat energy storage, heat source drying complementation is realized through alternate operation in the daytime and at night, the equipment can stably operate in a personnel gathering area with sufficient liquid supply and electricity consumption, but the novel technical problem is encountered in the heating operation process of the heat source: the solar energy heating supply system has the advantages that the solar energy heating supply system is required to be compensated by power supply, the driving operation of various circulating fans is realized by power, the power resources in the western part of China are unbalanced, the addition of a high-voltage power supply system in any region cannot be ensured, and the normal operation driving of the solar energy heating supply system during scattered residence of personnel cannot be realized under the current situation.

At present, the current state of energy in western regions of China is that the solar energy has sufficient illumination, and the arrangement of multiple regions can be realized through the photovoltaic panel, so that the photovoltaic power generation is realized, and the supply of electric power energy can be realized through the arrangement of the photovoltaic panel.

In view of the above, the technical problem to be solved in the art is how to design a set of heating system, which can overcome the defect that no high-voltage power is supplied and power cannot be continuously supplied in remote areas, can utilize illumination resources, and can realize photovoltaic power supply while illumination heating.

Disclosure of Invention

In view of the above-mentioned shortcomings of the prior art, the utility model provides a novel zero-energy-consumption solar phase-change compensation type heating system, which adopts a mode of adding an energy storage module in the system, and simultaneously adds an off-grid photovoltaic system, and realizes an integrated operation after the photovoltaic power generation system is connected, thereby realizing a more environment-friendly heating operation mode without external power supply.

The technical scheme adopted for solving the technical problems is as follows:

the novel zero-energy-consumption solar phase-change compensation type heating system comprises a solar hot air collector group, wherein the solar hot air collector group is connected end to end through a pipeline, a heat exchanger and a circulating fan are arranged on the end to end connecting pipeline, and the wind-water heat exchanger is connected with a phase-change energy storage box; the phase-change energy storage box is connected with the external heating tail end through a pipeline to realize heating; the solar hot air collector group is matched with a photovoltaic panel assembly, the photovoltaic panel assembly is connected with a controller and an inverter, and the controller and the inverter are connected with a storage battery and a power control cabinet. The power control cabinet is connected with the circulating pump through a line and the heating circulating pump to realize power supply.

The temperature difference circulating fan is arranged between the wind-water heat exchanger and the phase change energy storage box, and temperature difference circulating control between the wind-water heat exchanger and the phase change energy storage box is realized through the temperature difference circulating fan.

The phase-change energy storage box is internally provided with a heat exchange coil, and a domestic water pipeline is externally connected with the heat exchange coil, so that the domestic water pipeline and a heating pipeline are not mutually crossed.

The utility model has the following beneficial effects: according to the design, the solar hot air collector group is connected end to end through the pipeline, the heat exchanger and the circulating fan are arranged on the end to end connecting pipeline, and the air-water heat exchanger is connected with the phase change energy storage box; the phase change energy storage box is connected with the external heating tail end through a pipeline and a heating circulating fan to realize heating; the solar hot air collector group is matched with a photovoltaic panel assembly, the photovoltaic panel assembly is connected with a controller and an inverter, and the controller and the inverter are connected with a storage battery and a power control cabinet. The device is integrally arranged, the power supply during the operation of the system is realized through the photovoltaic panel, the heat acquisition is realized through the solar hot air collector group, and the heat storage during the peak value of the solar heat collection is realized through the phase change energy storage box; when the system is operated, external power is not required, the system can be assembled in a modularized mode, is suitable for being installed and used in a cooling area with sufficient illumination, and is an ideal novel zero-energy-consumption solar phase-change compensation type heating system.

Drawings

The utility model will be further described with reference to the drawings and examples.

FIG. 1 is a schematic diagram of a frame structure of the present utility model;

in the figure, 1, a solar hot air collector group, 2, a photovoltaic panel assembly, 3, a wind-water heat exchanger, 4, a circulating fan, 5, a temperature difference circulating fan, 6, a phase change energy storage box, 7, a heat exchange coil, 8, a heating circulating fan, 9, a heating terminal I, 91, a heating terminal II, 10, a power unit, 11, a control unit, 12, an inverter, 13, a controller, 14 and a storage battery.

Detailed Description

The utility model is further described below by means of embodiments,

a novel zero-energy-consumption solar phase-change compensation type heating system is shown in the figure, and comprises a solar hot air collector group 1, wherein the solar hot air collector group 1 is formed by connecting a plurality of solar hot air collectors in series into a whole; the solar hot air collector group 1 formed by connecting a plurality of solar hot air collectors in series is provided with a pipeline at the head and the tail ends, the pipeline at the head and the tail ends is provided with a wind-water heat exchanger 3 and a circulating fan 4, and the wind-water heat exchanger 3 is connected with a phase change energy storage box 6; the phase change energy storage box 6 is connected with an external heating tail end I9 and an external heating tail end II 91 through pipelines and a heating circulating fan 8 to realize heating. On the basis of the above structural arrangement, the design key of the utility model is as follows: the solar hot air heat collector group 1 is matched with a photovoltaic panel assembly 2, the photovoltaic panel assembly is formed by arranging a plurality of photovoltaic panels, the photovoltaic panel assembly 2 is connected with a controller 13 and an inverter 12, the connection with a storage battery 14 and a power control cabinet is realized through the controller 13 and the inverter 12, the power control cabinet comprises a power unit 10 and a control unit 11, and alternating current converted by the inverter 12 is guided to a circulating fan 4, a heating circulating fan 8 and a temperature difference circulating fan 5 to realize alternating current power supply connection.

The above mentionedThe temperature difference circulating fan 5 is arranged between the wind-water heat exchanger 3 and the phase change energy storage box 6, and temperature difference circulating control between the wind-water heat exchanger 3 and the phase change energy storage box 6 is realized through the temperature difference circulating fan 5. The phase-change energy storage box is internally filled with a phase-change material, and the phase-change material adopts Na2CO3-BaCO ₃ MgO or Na2SO4/SiO2; because the thermal phase transformation potential and the specific heat capacity of Na2SO4/SiO2 are higher than those of Na2CO3-BaCO ₃ MgO, na2SO4/SiO2 was used in this example. The phase-change energy storage box 6 is internally provided with a plurality of heat exchange coils 7, and external hot water continuous supply is realized through the external heat supply pipeline of the heat exchange coils 7. The purpose of setting up temperature difference circulation fan 5 is, when daytime illumination is stronger, and wind water heat exchanger 3 accessible temperature difference circulation fan 5 carries a large amount of heat energy to the phase change energy storage case 6 in realize the heat energy storage, and when night illumination is not enough, solar hot-blast collector group 1 can't pass through solar energy heat supply, temperature difference circulation fan 5 closes, only realizes the heat supply to the heating region through phase change energy storage case 6.

The device is integrally arranged, power supply during operation of the system is realized through the photovoltaic panel assembly 2, heat acquisition is realized through the solar hot air collector group 1, and heat storage during peak value of solar heat collection is realized through the phase change energy storage box 6. When the system is operated, external power is not required, the system can be assembled and matched in a modularized manner, is suitable for being installed and used in a cooling area with sufficient illumination, can realize multiple full utilization of solar energy, complements power and heat energy, maximizes the solar energy utilization rate, and is an ideal novel zero-energy-consumption solar energy phase-change compensation heating system.

Claims (4)

1. A novel zero-energy-consumption solar phase-change compensation type heating system is characterized in that: the solar hot air collector comprises a solar hot air collector group, wherein the solar hot air collector group is connected end to end through a pipeline, a heat exchanger and a circulating fan are arranged on the end to end connecting pipeline, and a wind-water heat exchanger is connected with a phase change energy storage box; the phase-change energy storage box is connected with the external heating tail end through a pipeline to realize heating; the solar hot air collector group is matched with a photovoltaic panel assembly, the photovoltaic panel assembly is connected with a controller and an inverter, and the controller and the inverter are connected with a storage battery and a power control cabinet.

2. The novel zero-energy solar phase-change compensation heating system according to claim 1, wherein: and a temperature difference circulating fan is arranged between the wind-water heat exchanger and the phase change energy storage box.

3. The novel zero-energy solar phase-change compensation heating system according to claim 1, wherein: the phase-change energy storage box is internally provided with a heat exchange coil, and is externally connected with a domestic water pipeline through the heat exchange coil.

4. The novel zero-energy solar phase-change compensation heating system according to claim 1, wherein: the power control cabinet is connected with the circulating fan through a line and the heating circulating fan.

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