CN218379554U - Green wisdom industrial park heat supply cooling system - Google Patents
Green wisdom industrial park heat supply cooling system Download PDFInfo
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- CN218379554U CN218379554U CN202222830821.0U CN202222830821U CN218379554U CN 218379554 U CN218379554 U CN 218379554U CN 202222830821 U CN202222830821 U CN 202222830821U CN 218379554 U CN218379554 U CN 218379554U
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Abstract
The application relates to building heat supply technical field particularly, relates to a green wisdom industrial park heat supply cooling system, can solve the energy consumption and the problem that the carbon emission increases of industrial park to a certain extent. Green wisdom industrial park heat supply cooling system includes: the park building is provided with a heat supply pipeline communicated with the heat supply assembly and a cold supply pipeline communicated with the cold supply assembly; a heat source for providing heat towards the park building; the heat supply assembly is connected between the heat source and a heat supply pipeline of the park building and used for supplying heat to the park building; and the refrigerating assembly is connected between the heat source and a cooling pipeline of the park building and is used for cooling the park building.
Description
Technical Field
The application relates to building heat supply technical field particularly, relates to a green wisdom industrial park heat supply cooling system.
Background
The building heating design refers to that a proper heating mode and a proper heating system are selected according to the local heat source condition (central heating or other heat sources) from the knowledge of local meteorological data; and then, according to the building envelope condition, carrying out heating heat load calculation, selecting a radiator, carrying out plane arrangement, drawing a pipeline system diagram, and carrying out calculation to obtain a design scheme.
In the design process of building heat supply of some industrial parks, in order to shorten the time required by design and improve the efficiency of construction, heat supply in the industrial park is selected to be supplied through a pipeline for unified heat supply in the heat supply design.
However, there are the different buildings of multiple functions in the industry garden, because there is great difference in the temperature of the receiving terminal of pipeline and the temperature of output when supplying heat through unified pipeline, need personnel in the garden to carry out ambient temperature's regulation by oneself, and then can lead to the energy consumption and the carbon emission increase in industry garden.
SUMMERY OF THE UTILITY MODEL
In order to solve the problem that the energy consumption and the carbon emission of industrial park increase, this application provides a green wisdom industrial park heat and cold supply system.
The embodiment of the application is realized as follows:
the embodiment of the application provides a green wisdom industry garden heat supply cooling system, it includes:
the park building is provided with a heat supply pipeline communicated with the heat supply assembly and a cold supply pipeline communicated with the cold supply assembly;
a heat source for providing heat towards the park building;
the heat supply assembly is connected between the heat source and a heat supply pipeline of the park building and used for supplying heat to the park building;
and the refrigerating assembly is connected between the heat source and a cold supply pipeline of the park building and used for supplying cold to the park building.
In some embodiments, when the park building is implemented as a factory building or an office building, the heat source is municipal steam, the heat supply component is implemented as a heating heat exchanger, and the heat supply component communicates the park building with the heat source.
In some embodiments, the park building is implemented as a factory building or an office building, when the heat source adopts municipal steam, the cooling component is implemented as a steam type lithium bromide refrigerating unit, one end of the cooling component is communicated with the heat source, and the other end of the cooling component is communicated with the cooling pipeline.
In some embodiments, when the park building is implemented as a living area or hotel, the heat source is implemented as geothermal heat, and the heat supply assembly and the cold supply assembly are both implemented as ground source heat pumps.
In some embodiments, when the campus building is implemented as a living area or a hotel and the heat source is implemented as geothermal heat, the cooling module further comprises an electric refrigerator, the cooling module being in communication with a cooling pipe of the campus building.
In some embodiments, when the park building is implemented as a single-storey convention centre, the heat source is implemented as light and heat, the heat supply assembly is implemented as a heat exchange device, the output of the heat supply assembly being in communication with the park building; the cold supply component is implemented as a water source heat pump and is used for receiving hot water of the heat supply component, converting the hot water into cold air and conveying the cold air to the park building.
In some embodiments, when the park building is implemented as a single-storey convention centre and the heat source is implemented as photo-thermal, the heat supply assembly further comprises a ground source heat pump, the heat supply assembly being in communication with a heat supply pipeline of the park building.
In some embodiments, when the campus building is implemented as a single-storey convention center and the heat source is implemented as light and heat, the cooling assembly further comprises an electric refrigerator, the cooling assembly being in communication with a cooling duct of the campus building.
The beneficial effect of the application is that through the arrangement of the heat supply assembly and the cold supply assembly, the heat supply assembly directly receives heat generated by a heat source and transmits the heat to a heat supply pipeline of the park building, so that the environmental temperature of the park building can be conveniently increased; the cold supply assembly generates cold air under the pushing of heat generated by the heat source and transfers the cold air to a cold supply pipeline of the garden building, so that the environmental temperature of the garden building can be conveniently reduced, and the environmental temperature of the garden building can be adjusted; thereby the heat that produces through the heat source drives heat supply subassembly and cooling module work, can also reduce the energy that the normal operation of maintenance garden needs the consumption.
Drawings
In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.
Fig. 1 is a schematic diagram of a heating and cooling system of a green intelligent industrial park according to an embodiment of the present application.
Detailed Description
To make the objects, embodiments and advantages of the present application clearer, the following description of exemplary embodiments of the present application will clearly and completely describe the exemplary embodiments of the present application with reference to the accompanying drawings in the exemplary embodiments of the present application, and it is to be understood that the described exemplary embodiments are only a part of the embodiments of the present application, and not all of the embodiments.
It should be noted that the brief descriptions of the terms in the present application are only for the convenience of understanding the embodiments described below, and are not intended to limit the embodiments of the present application. These terms should be understood in their ordinary and customary meaning unless otherwise indicated.
The terms "first", "second", "third", and the like in the description and claims of this application and in the foregoing drawings are used for distinguishing between similar or analogous objects or entities and are not necessarily meant to limit a particular order or sequence unless otherwise indicated. It is to be understood that the terms so used are interchangeable under appropriate circumstances.
The terms "comprises" and "comprising," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a product or apparatus that comprises a list of elements is not necessarily limited to all elements expressly listed, but may include other elements not expressly listed or inherent to such product or apparatus.
As shown in fig. 1. FIG. 1 is a diagram of a heating and cooling system for a green intelligent industrial park according to an embodiment of the present application.
In some embodiments, the present application provides a green intelligent industrial park heating and cooling system, which includes a park building, a heat source, a heating component, and a cooling component. The park building comprises a factory building, a living area, a hotel and a conference center, wherein a heat supply pipeline for introducing heat supply and a cold supply pipeline for introducing cold air are embedded in the park building; the heat source is used to provide heat towards the park building.
The heat supply assembly is used for exchanging heat with heat provided by a heat source and is communicated with a heat supply pipeline of the park building so as to supply heat to the park building; the cold supply assembly is also communicated with the heat source and used for refrigerating under the pushing of heat generated by the heat source, and the generated cold air is transferred towards a cold supply pipeline for introducing the cold supply air into the garden building, so that the cold supply assembly refrigerates towards the garden building.
By arranging the heat supply assembly and the cold supply assembly, the heat supply assembly directly receives heat generated by a heat source and transmits the heat to a heat supply pipeline of the park building, so that the environmental temperature of the park building is conveniently increased; the cold supply assembly generates cold air under the pushing of heat generated by the heat source and transfers the cold air to a cold supply pipeline of the garden building, so that the environmental temperature of the garden building can be conveniently reduced, and the environmental temperature of the garden building can be adjusted; thereby the heat that produces through the heat source drives heat supply subassembly and cooling module work, can also reduce the energy that the normal operation of maintenance garden needs the consumption.
In some embodiments, when the park building is implemented as a factory building or an office building, since the total amount of the cold and heat loads of the factory building is relatively large and the difference value of the cold and heat loads is large, the heat source is set to be municipal steam, the heat supply assembly adopts a heating heat exchanger, one side of the heating heat exchanger is directly communicated with the output port of the heat source, and the other side of the heating heat exchanger is communicated with the heat supply pipeline of the factory building.
The large and large factory building area with the total cold and hot load is heated by directly adopting municipal steam, so that the problem of serious energy loss caused by self heating in a small range in a factory building is reduced, and the total energy consumption of a park is reduced.
In some embodiments, when the park building is implemented as a factory building and the heat source is set to municipal steam, the cooling assembly is implemented as a steam type lithium bromide refrigeration unit, the input end of the cooling assembly is communicated with the heat source, and the output end of the cooling assembly is communicated with the cooling pipeline of the factory building.
The heat through the heat source is towards the transmission of cooling subassembly, and the cooling subassembly produces air conditioning under the thermal promotion of heat source to with the transmission of air conditioning towards the cooling pipeline of factory building, thereby conveniently reduce factory building's ambient temperature, thereby improve the convenience of adjusting factory building ambient temperature.
In some embodiments, when the park building is implemented as a living area or a hotel, the heat source is implemented as geothermal heat, and the heat supply component and the cooling component are both implemented as ground source heat pumps, a heat supply port of the ground source heat pump is communicated with a heat supply pipe of the park building, and a cooling port of the ground source heat pump is communicated with a cooling supply pipe of the park building.
Receiving energy generated by geothermal heat through a ground source heat pump, and generating heat according to the requirement and transmitting the heat to a heat supply pipeline of a park building; and produce the delivery of cooling air towards the cooling supply pipeline of garden building to the convenience is adjusted the temperature of garden building, improves the convenience of adjusting garden building temperature.
In some embodiments, when the campus building is implemented as a living area or a hotel and the heat source is implemented as geothermal heat, the cooling module further comprises an electric refrigerator, the cooling module being in communication with a cooling pipe of the campus building.
When the cold air that produces through the ground source heat pump can't make living area and hotel realize cold and hot balance, increase the supply of refrigerator as cold air to the cooling pipeline through the increase to conveniently adjust the ambient temperature in living area and the hotel and adjust, improve the comfort level of personnel's life in living area and the hotel.
In some embodiments, when the park building is implemented as a single-storey convention center, the heat source is implemented as light and heat, the heat supply assembly is implemented as a heat exchange device, the output end of the heat supply assembly is in communication with the heat supply pipeline of the park building; the cooling component is implemented as a water source heat pump and is used for receiving hot water of the heating component, converting the hot water into cold air and conveying the cold air to the garden building.
Because the individual layer conference center is the individual layer building, roof area is great, so install the solar water heating component as heat transfer device at the house top, thereby utilize solar energy through heat transfer device, and the hot water that produces heat transfer device is towards the heat supply pipeline transmission of garden building, thereby satisfy the heat supply load of garden building, moreover, the water source heat pump set who uses with heat transfer device is supporting can provide cold water towards the conference center, thereby realize the regulation to the ambient temperature of conference center, reduce the energy loss of conference center in the use, reduce the output that carbon discharged.
In some embodiments, the park building is implemented as a single-storey convention center, and when the heat source is implemented as photo-thermal, the heat supply assembly further comprises a ground source heat pump, the heat supply assembly being in communication with a heat supply pipeline of the park building.
When the hot water generated by the heat exchange device is difficult to maintain the stability of the environmental temperature of the garden building, the heat generated by the ground source heat pump is used for supplementing the garden building, so that the garden building is conveniently maintained to operate at a more proper temperature.
In some embodiments, where the campus building is implemented as a single-floor convention center and the heat source is implemented as photo-thermal, the cooling assembly further includes an electric chiller having a cold air port in communication with a cooling duct of the campus building.
When cold water generated by a water source heat pump matched with the heat exchange device is difficult to maintain the stability of the environment temperature of the garden building, the garden building is supplemented by cold air generated by the electric refrigerator, so that the garden building is conveniently maintained to operate at a relatively proper temperature, and meanwhile, the purpose of reducing energy loss can be realized.
The embodiment of the part has the advantages that by arranging the heat supply assembly and the cold supply assembly, the heat supply assembly directly receives heat generated by a heat source and transmits the heat to a heat supply pipeline of the building in the garden so as to conveniently increase the environmental temperature of the building in the garden; the cold supply assembly generates cold air under the pushing of heat generated by the heat source and transfers the cold air to a cold supply pipeline of the garden building, so that the environmental temperature of the garden building can be conveniently reduced, and the environmental temperature of the garden building can be adjusted; thereby drive heat supply subassembly and cooling subassembly work through the heat that the heat source produced, can also reduce and maintain the normal operating energy that needs the consumption in garden.
The foregoing description, for purposes of explanation, has been presented in conjunction with specific embodiments. However, the foregoing discussion in some embodiments is not intended to be exhaustive or to limit the embodiments to the precise forms disclosed above. Many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles and the practical application, to thereby enable others skilled in the art to best utilize the embodiments and various embodiments with various modifications as are suited to the particular use contemplated.
Claims (8)
1. The utility model provides a green wisdom industrial park heat supply cooling system which characterized in that includes:
the park building is provided with a heat supply pipeline communicated with the heat supply assembly and a cold supply pipeline communicated with the cold supply assembly;
a heat source for providing heat towards the park building;
the heat supply assembly is connected between the heat source and a heat supply pipeline of the park building and used for supplying heat to the park building;
and the refrigerating assembly is connected between the heat source and a cold supply pipeline of the park building and used for supplying cold to the park building.
2. The green intelligent industrial park heating and cooling system of claim 1, wherein when the park building is implemented as a factory building or an office building, the heat source is municipal steam, the heating component is implemented as a heating heat exchanger, and the heating component communicates the park building with the heat source.
3. A green intelligent industrial park heating and cooling system as claimed in claim 2, wherein when said park building is implemented as a factory building or an office building, and said heat source uses municipal steam, said cooling module is implemented as a steam type lithium bromide refrigerator set, one end of said cooling module is communicated with said heat source, and the other end of said cooling module is communicated with said cooling pipe.
4. The green intelligent industrial park heating and cooling system of claim 1, wherein when the park building is implemented as a living quarter or a hotel, the heat source is implemented as geothermal heat, and the heating component and the cooling component are implemented as ground source heat pumps.
5. The green intelligent industrial park heating and cooling system according to claim 4, wherein when the park building is implemented as a living quarter or a hotel and the heat source is implemented as geothermal heat, the cooling module further comprises an electric refrigerator, and the cooling module is in communication with a cooling pipe of the park building.
6. A green intelligent industrial park heating and cooling system as defined in claim 1, wherein when said park building is implemented as a single-storey conference center, said heat source is implemented as light and heat, said heating module is implemented as a heat exchange device, the output of said heating module is in communication with said park building; the cooling component is implemented as a water source heat pump and is used for receiving hot water of the heat supply component, converting the hot water into cold air and conveying the cold air to the park building.
7. The green intelligent industrial park heating and cooling system of claim 6, wherein when the park building is implemented as a single-floor convention center and the heat source is implemented as light and heat, the heating assembly further comprises a ground source heat pump, the heating assembly being in communication with the heating pipeline of the park building.
8. A green intelligent industrial park heating and cooling system as defined in claim 6, wherein when said park building is implemented as a single-story conference center and said heat source is implemented as light and heat, said cooling module further comprises an electric refrigerator, said cooling module being in communication with a cooling duct of said park building.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202222830821.0U CN218379554U (en) | 2022-10-26 | 2022-10-26 | Green wisdom industrial park heat supply cooling system |
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| Application Number | Priority Date | Filing Date | Title |
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| CN202222830821.0U CN218379554U (en) | 2022-10-26 | 2022-10-26 | Green wisdom industrial park heat supply cooling system |
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| CN218379554U true CN218379554U (en) | 2023-01-24 |
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| CN202222830821.0U Active CN218379554U (en) | 2022-10-26 | 2022-10-26 | Green wisdom industrial park heat supply cooling system |
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