CN202902420U - Renewable energy and building integrated comprehensive utilization system - Google Patents

Renewable energy and building integrated comprehensive utilization system Download PDF

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Publication number
CN202902420U
CN202902420U CN 201220603630 CN201220603630U CN202902420U CN 202902420 U CN202902420 U CN 202902420U CN 201220603630 CN201220603630 CN 201220603630 CN 201220603630 U CN201220603630 U CN 201220603630U CN 202902420 U CN202902420 U CN 202902420U
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energy
water tank
pipeline
architecture
water
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CN 201220603630
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李立
常松山
张林森
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NINGXIA YINXIANG ENERGY PHOTOVOLTAIC EQUIPMENT MANUFACTURING Co Ltd
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NINGXIA YINXIANG ENERGY PHOTOVOLTAIC EQUIPMENT MANUFACTURING Co Ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B10/00Integration of renewable energy sources in buildings
    • Y02B10/20Solar thermal
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B10/00Integration of renewable energy sources in buildings
    • Y02B10/70Hybrid systems, e.g. uninterruptible or back-up power supplies integrating renewable energies
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B30/00Energy efficient heating, ventilation or air conditioning [HVAC]
    • Y02B30/12Hot water central heating systems using heat pumps

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Abstract

The utility model relates to a renewable energy and building integrated comprehensive utilization system. The renewable energy and building integrated comprehensive utilization system is characterized by comprising an outdoor earth energy heat exchange system (5), a ground source heat pump unit (6) and an indoor heating air-conditioning tail end system (3) which are communicated sequentially by a pipeline, an indoor floor heating pipe network (4) which is connected in parallel with the indoor heating air-conditioning tail end system (3), a system controller (10) and solar photovoltaic modules (1), wherein the ground source heat pump unit (6) is communicated with a water storage tank by the pipeline; and the water storage tank is communicated with a tap water pipe network (8) and an indoor water supply pipe network (2) respectively by the pipeline and is also communicated with a solar thermal collector (9) by the pipeline. The renewable energy and building integrated comprehensive utilization system has the advantages that the ordinary energy used by the conventional heating and refrigeration can be changed into renewable clean energy, so that energy conservation and emission reduction are realized, and the city environment is improved greatly; and the comprehensive building integrated application of solar photovoltaic, photo-thermal and ground source heat energy is realized.

Description

Regenerative resource and architecture-integral utilization system
Technical field
The utility model relates to a kind of regenerative resource and architecture-integral utilization system.
Background technology
Regenerative resource be can continuous utilization energy resources, such as water energy, wind energy, solar energy, ground source heat and biomass energy etc., do not have the resource exhaustion problem.The more rich zone of China's solar energy accounts for more than 2/3 of area, and year amount of radiation surpasses 6000MJ/m 2, the solar energy that annual earth's surface absorbs is about as much as the energy of 1.7 trillion tce; By Germany, Spain, the Wind Power Developments such as the Denmark rapidly experience of country carry out analogy analysis, and China can may surpass 3,000,000,000 kW for the wind energy resources amount of exploitation; The technical available stock number of marine energy resources estimates to be about 400,000,000-500,000,000 kW; The prospective reserves of geothermal energy resources is 1,353 hundred million tce, and proved reserves are 31.6 hundred million tce; China's Renewable Energy Resources is abundant in a word, has resources supplIes and the Technology Potential of large-scale development, can provide the enough energy for future society and economic development, and the development and use regenerative resource is well worth doing.
The demand that has proposed regenerative resource in short supply of the energy, and solar energy can be paid close attention at the energy that any sun can use where widely as a kind of, its use is from initial use at outlying district and power-shortage area, the use of transferring to the developed country city gradually; From simply using and install solar panel, can and build the combination that compares solar panel till now, so that solar energy power generating obtains more wide development space.In general solar module is installed in the roof of house or building, exit is connected with public electric wire net through controller and inverter, and to customer power supply, this has just formed the family grid-connected photovoltaic system by photovoltaic arrays and electrical network parallel connection.It has the function of peak regulation, environmental protection, also can replace common cladding glass with the glass curtain wall of solar photovoltaic generating in addition, so namely can do building materials can generate electricity again, further reduce the cost of photovoltaic generation, very unique, become one beautiful scenery in the city, also can directly do construction material with battery component.
The basic principle of solar energy heat utilization is that solar radiant energy is collected, and becomes heat energy to be used transform light energy.Solar energy equipment and Integration of building are not simple additions, but allow solar energy equipment become wing, when solar energy provides hot water for the user, play a role for the energy-saving and emission-reduction of whole building yet.Unit is registered one's residence, balcony wall-hanging, and the Split pressure-bearing formula is the thermal-arrest scheme that we take for dissimilar building.Adopt exactly split-type structural such as Split pressure-bearing formula solar water heating system, heat collector is separated with water tank, satisfy the high residential building user installation and use needs; Modular heat collector design has realized the perfect adaptation of solar energy and building.It is reported, solar water heating system can be realized building energy conservation 10% to 15%, and solar heating and air-conditioning system enter the dwelling house solution, will save about 45% for building energy consumption.
Geothermal energy is to be born with and to be stored in undergroundly in the sky, is not subjected to the impact of weather conditions, and both having can be used as base load can use, and also can provide as required use, thick one deck of underground 10 kms only, and quantity of heat storage just reaches 1.05 * 10 26Joule, be equivalent to 9.95 * 10 15The heat that standard coal discharges.The differently demand of temperature characteristics, Different climate characteristic, different changes in temperature characteristics can be scientifically satisfied in the ground temperature circulation, compare with the traditional heating air conditioning mode, environmental protection and energy saving, the hot alliance of changes in temperature, comfortable natural, reliable and stable, expense is cheap, control the aspect such as easy has very strong economic technology comprehensive advantage, is to solve optimal selection cold, warm in the low-density building, the hot-water integration supply option.
From resource situation and the state-of-art of present regenerative resource, Future Development faster regenerative resource dewaters outside the energy, mainly is biomass energy, wind energy, geothermal energy and solar energy.Mode of biomass energy utilization comprises generating, gas processed, heat supply and production liquid fuel, will become most widely used renewable energy technologies.Wind generating technology is mature on the whole, and economy will keep very fast development near conventional energy resource within the from now on long duration.The main direction of solar energy development is photovoltaic generation and heat utilization, and the staple market of photovoltaic generation is to generate electricity by way of merging two or more grid systems and remote districts independently-powered in the recent period.The developing direction of solar thermal utilization is the solar energy optical-thermal integrated building, and take conventional energy resource as the means of supplementing out economy, realizes round-the-clock heat supply, improves the reliability of solar-heating, on this basis further to the future development of solar heating and refrigeration.
The utility model content
The purpose of this utility model provides a kind of regenerative resource and architecture-integral utilization system, can realize energy-saving and emission-reduction.
A kind of regenerative resource and architecture-integral utilization system, its special feature is: comprise the outdoor ground energy heat-exchange system, earth source heat pump unit and the indoor heating air conditioning terminal system that are communicated with successively by pipeline, also comprise the indoor ground-heating pipe network in parallel with this indoor heating air conditioning terminal system; This earth source heat pump unit is communicated with water tank by pipeline, and this water tank also is communicated with tap water pipe network and indoor water supply network respectively by pipeline, and this water tank also is communicated with solar thermal collector by pipeline; Also comprise system controller, this system controller is electrically connected with the control section of earth source heat pump unit and water tank respectively, and solar photovoltaic assembly, thereby this solar photovoltaic assembly is electrically connected power supply with aforementioned earth source heat pump unit and system controller.
Wherein at water tank and tap water pipe network junction motor-driven valve is installed, the control section of this motor-driven valve is electrically connected with system controller.
Wherein water tank is communicated with solar thermal collector by feed pipe and return pipe respectively, at this feed pipe motor-driven valve is installed, and the control section of this motor-driven valve is electrically connected with system controller.
Wherein at return pipe water pump is installed, the control section of this water pump is electrically connected with system controller.
Wherein the pipeline between water tank and earth source heat pump unit is equipped with water pump, and the control section of this water pump is electrically connected with system controller.
Wherein the pipeline in water tank and the connection of indoor water supply network is equipped with water pump, and the control section of this water pump is electrically connected with system controller.
Wherein thereby solar photovoltaic assembly also is electrically connected power supply with indoor heating air conditioning terminal system.
Wherein system controller adopts industrial computer.
Further, wherein industrial computer also is connected with single-chip microcomputer or PLC respectively.
Wherein the control section of water tank comprises motor-driven valve and the interior temperature sensor of water tank that is installed on the interior pipeline of water tank.
Wherein system controller also respectively be installed in outdoor temperature sensor, temperature sensor on being installed in indoor temperature sensor and being connected solar thermal collector is connected.
Utilization system of the present utility model mainly possesses following several advantages: the common energy that (1) can use existing heating, refrigeration is with being changed to renewable and clean energy resource, and energy-saving and emission-reduction greatly improve urban environment; (2) the building complex integral application of realization photovoltaic, photo-thermal and the ground source heat energy; (3) not only can save in a large number the consumption of conventional electric energy and coal, can also remedy single power supply mode because the impact that the reasons such as environment, equipment fault produce; (4) by control system, can effectively control the complementation of photovoltaic, photo-thermal and the ground source heat energy and use, make its more effective use of energy sources; (5) set up the control system that the system service study of platform solves the comprehensive utilization of photovoltaic energy, the photo-thermal energy, three kinds of energy of geographical heat energy, realize unmanned, automatic alarm, automatic analysis, the heat demand between the automatic switchover three.
Description of drawings
Accompanying drawing 1 is logic theory block diagram of the present utility model.
Accompanying drawing 2 is working-flow figure of the present utility model.
The specific embodiment
As shown in Figure 1, the utility model is a kind of regenerative resource and architecture-integral utilization system, comprise the outdoor ground that is communicated with successively by pipeline can heat-exchange system 5, earth source heat pump unit 6 and indoor heating air conditioning terminal system 3, also comprise the indoor ground-heating pipe network 4 in parallel with this indoor heating air conditioning terminal system 3; This earth source heat pump unit 6 is communicated with water tank by pipeline, and this water tank also is communicated with tap water pipe network 8 and indoor water supply network 2 respectively by pipeline, and this water tank also is communicated with solar thermal collector 9 by pipeline; Also comprise system controller 10, this system controller 10 is electrically connected with the control section of earth source heat pump unit 6 and water tank respectively, and solar photovoltaic assembly 1, thereby this solar photovoltaic assembly 1 is electrically connected power supply with aforementioned earth source heat pump unit 6 and system controller 10.
Wherein at water tank and tap water pipe network 8 junctions motor-driven valve is installed, the control section of this motor-driven valve is electrically connected with system controller 10, water tank is communicated with solar thermal collector 9 by feed pipe and return pipe respectively, at this feed pipe motor-driven valve is installed, the control section of this motor-driven valve is electrically connected with system controller 10.At return pipe water pump 7 is installed, the control section of this water pump 7 is electrically connected with system controller 10, pipeline between water tank and earth source heat pump unit 6 is equipped with water pump 7, the control section of this water pump 7 is electrically connected with system controller 10, pipeline in water tank and 2 connections of indoor water supply network is equipped with water pump 7, and the control section of this water pump 7 is electrically connected with system controller 10.
Wherein thereby solar photovoltaic assembly 1 also is electrically connected power supply with indoor heating air conditioning terminal system 3.System controller 10 adopts industrial computer, and this industrial computer can also be connected with single-chip microcomputer or PLC respectively, thereby gathers the every terms of information that comprises temperature, and controls earth source heat pump unit 6, the action of motor-driven valve, water pump 7 etc. everywhere.The control section of water tank comprises motor-driven valve and the interior temperature sensor of water tank that is installed on the interior pipeline of water tank.System controller 10 also respectively be installed in outdoor temperature sensor, temperature sensor on being installed in indoor temperature sensor and being connected solar thermal collector 9 is connected.
The utility model is for the new building in the civil buildings of cities and towns, the construction style that will relate to according to project, by taking solar energy centralized collection+minute family feed system, under the reasonable prerequisite of economic technology, by applying of solar photoelectric, photo-thermal and earth source heat pump unit, substitute the conventional energy resource consumption of domestic hot-water for building and refrigeration and heating.
1) select hot water and the heating unit form of solar energy optical-thermal+earth source heat pump:
Adopt domestic and international mature experience, determine for multilayer, high level is newly-built and existing building is annual (relates to dwelling house and public building with solar energy hot water supply system form, system form comprises flat roof and inclined roof, balcony fence and exterior wall cladding installation form), while supporting earth source heat pump unit carries out winter heating and freeze summer.
Ground source heat and solar energy combine, both can overcome earth source heat pump for a long time continuously from soil heat-obtaining (or accumulation of heat), can make the temperature field of soil can not get for a long time efficient recovery, thereby cause the soil moisture constantly to reduce the limitation of (or raise), the limitation that can overcome again that solar radiation is subjected to round the clock, the enchancement factors such as the restriction of the natural conditions such as season, latitude and height above sea level and rainy weather affects.Owing to the heat effect that supplies of solar energy, the system that can realize is to the balance of underground heat extraction and heat-obtaining, thereby so that underground temperature field keeps stable variation, the unit operation operating mode is stable.
2) select applicable solar thermal collector 9 and earth source heat pump type:
In conjunction with the situations such as production kind, environment for use and mounting condition of solar thermal collector 9 and heat pump product, determine reliable in quality, be easy to safeguard, long service life meet solar thermal collector 9 and the earth source heat pump type that systems technology requires.
For example form a water system with each unit users, water tank is placed on attic floor, every building arranges unified solar thermal collector 9 on the roof, be each family water tank supply heat, each household arranges household water tank oneself and supplies water, because the increasing of collector area has guaranteed the hot water supply, simultaneously the additional hot system of electricity can guarantee the user in the winter time with the hot water supply of rainy weather.Solar energy and the operation of earth source heat pump unit associations have very large flexibility, have remedied the deficiency of independent earth source heat pump, can utilize throughout the year, have improved the usage factor of device.Although the total amount of solar energy is very large, its energy-flux density is lower, if adopt separately solar energy heating system, certainly will cause required solar thermal collector 9 areas of collection heat larger; Simultaneously since intensity of solar radiation along with season, sooner or later, change regularly round the clock, so the solar energy utilization also exists intermittent and instable problem, these problems all can be resolved by the cooperation with the earth source heat pump unit.
3) solar thermal collector 9 and architecture-integral:
The combination of heliotechnics and building will centered by architectural design and building function, be accomplished the combination of solar thermal collector 9 and building take building as main body, carries out multilayer and high layer solar hot water supply system and Integration of building demoncal ration.The optimization of solar thermal collector 9 pitched roofs and balcony fence installation form correspondence system design comprises for the water tank concentrated setting of public building with for the water tank of Separate Home charging splitting form.With a large amount of building element such as sunshading board, balconies etc. and solar thermal collector 9 organic combinations that repeat in the collective residence, when supplying with the energy, can think that building is more attractive in appearance.System of the present utility model is used for any building that needs auxiliary heating, ventilation or additional fresh air, system's simple installation, can be positioned on any outside of not firing body of wall and the existing opening of body of wall around, be convenient to the transformation of old building.
Operation principle of the present utility model and application process are as follows:
Utilization system of the present utility model comprises solar thermal collector 9, earth source heat pump unit 6, water tank, system controller 10, solar photovoltaic assembly 1 etc.System drafts and adopts the photovoltaic generation energy as main power source, and civil power is power supply as a supplement, and adopts solar thermal collector 9, earth source heat pump unit 6 etc. as energy conversion device.
Ground source heat can use as a kind of heat energy in native system, underground heat energy is exchanged by the interior heat energy of ground burying heat exchange tube and building, thus the effect that reaches Winter heat supply and freeze summer.
Solar thermal collector 9 can absorb energy a large amount of in the sunshine, thereby promotes the ground source heat energy, and can satisfy user domestic hot-water consumption.
Solar photovoltaic assembly 1 utilizes the unique high-quality energy of project as renewable energy comprehensive, for earth source heat pump unit 6 and system controller 10 etc. provides electric energy, so that the medium occurrence temperature of earth source heat pump changes.
Monitor by system controller 10, carry out indoor heating or refrigeration according to customer requirements, can accomplish according to can the settle a dispute by the parties concerned themselves control system of the comprehensive utilization that photovoltaic energy, the photo-thermal energy, ground source heat can three kinds of energy of user's initialization system, realize unmanned, automatic alarm, automatic analysis, the heat demand between the automatic switchover three.
The concrete supporting structure of system is as follows:
Need heating winter in the building and use hot water, to adopt solar thermal collectors 9 to be medium heat (at this moment water temperature can reach 35 spend) by system controller 10 control in the time of by day, then utilize compressor that refrigerant is done work in the middle of the medium suction earth source heat pump unit 6 after will heating up, with the heat absorption in the waterway circulating to refrigerant, in refrigerant circulation, pass through again the condensation of refrigerant in the evaporimeter, by the fan coil circulation heat absorption that refrigerant is entrained.Constantly be transferred in the indoor process at underground heat, with the form of hot blast more than 35 ℃ to indoor heating.
Utilize system controller 10 automatically to control in the time of evening and detect night and cloudy day, heat transport fluid is not directly entered earth source heat pump unit 6 by solar thermal collector 9 carry out indoor exchange heat by compressor.Simultaneously hot water is supplied to indoor living area to use.
Need refrigeration summer in the building and use hot water, this just can directly use solar thermal collector 9 to carry out domestic hot-water's supply by system controller 10, and then directly the compressors in the underground water suction earth source heat pump unit 6 are done work to refrigerant by system controller 10, make it carry out the circulation that vapour-liquid transforms.Evaporation by refrigerant in the evaporimeter will circulate entrained heat absorption to refrigerant by fan coil, in refrigerant circulation, pass through again the condensation of refrigerant in the condenser, the heat absorption that refrigerant is entrained that circulates by water, finally by water loop jump to underground water or soil.Constantly be transferred in the underground process at indoor heat, by fan coil, take the form of cold wind below 13 ℃ as the room cooling.
The generating of system controller 10 usefulness solar photovoltaic assemblies 1 control ground source heat can and the integrated application of solar energy heating, and provide electric energy for earth source heat pump unit 6.The waste of energy and the discharging of pollutant have fundamentally been broken off.System controller 10 can be placed on the less places of utilization rate such as indoor balcony or loft.1 of solar photovoltaic assembly utilizes the Around Buildings metope to carry out integrated with wall covering the PV plate.Separating of modern architecture support system and maintenance system makes the PV plate can resemble the surface lining that the prefabricated board samples such as timber, metal, stone material, concrete become the building external protecting system.The insulation that can solve building can also realize photovoltaic generation fully.Integrated PV plate decorative plate of outer wall and PV plate glass curtain wall (or windowpane) dual mode of mainly containing of PV board wall face.
Solar photoelectric glass is as the peripheral protective member of building, solar photoelectric glass incorporates glass with photoelectric technology, broken through the single Support Function of traditional glass curtain wall, the sunshine that was shielded as adverse factor in the past at building surface, be converted into the electric energy that can be utilized by people, this composite seldom takies construction area simultaneously.

Claims (11)

1. a regenerative resource and architecture-integral utilization system, it is characterized in that: comprise the outdoor ground energy heat-exchange system (5), earth source heat pump unit (6) and the indoor heating air conditioning terminal system (3) that are communicated with successively by pipeline, also comprise the indoor ground-heating pipe network (4) in parallel with this indoor heating air conditioning terminal system (3); This earth source heat pump unit (6) is communicated with water tank by pipeline, this water tank also is communicated with tap water pipe network (8) and indoor water supply network (2) respectively by pipeline, and this water tank also is communicated with solar thermal collector (9) by pipeline; Also comprise system controller (10), this system controller (10) is electrically connected with the control section of earth source heat pump unit (6) and water tank respectively, and solar photovoltaic assembly (1), this solar photovoltaic assembly (1) and aforementioned earth source heat pump unit (6) and system controller (10) thus be electrically connected power supply.
2. a kind of regenerative resource as claimed in claim 1 and architecture-integral utilization system, it is characterized in that: wherein at water tank and tap water pipe network (8) junction motor-driven valve is installed, the control section of this motor-driven valve is electrically connected with system controller (10).
3. a kind of regenerative resource as claimed in claim 1 and architecture-integral utilization system, it is characterized in that: wherein water tank is communicated with solar thermal collector (9) by feed pipe and return pipe respectively, at this feed pipe motor-driven valve is installed, the control section of this motor-driven valve is electrically connected with system controller (10).
4. a kind of regenerative resource as claimed in claim 3 and architecture-integral utilization system, it is characterized in that: wherein at return pipe water pump (7) is installed, the control section of this water pump (7) is electrically connected with system controller (10).
5. a kind of regenerative resource as claimed in claim 1 and architecture-integral utilization system, it is characterized in that: wherein the pipeline between water tank and earth source heat pump unit (6) is equipped with water pump (7), and the control section of this water pump (7) is electrically connected with system controller (10).
6. a kind of regenerative resource as claimed in claim 1 and architecture-integral utilization system, it is characterized in that: wherein the pipeline in water tank and indoor water supply network (2) connection is equipped with water pump (7), and the control section of this water pump (7) is electrically connected with system controller (10).
7. such as the described a kind of regenerative resource of any one in the claim 1 to 6 and architecture-integral utilization system, it is characterized in that: wherein solar photovoltaic assembly (1) also with indoor heating air conditioning terminal system (3) thus be electrically connected power supply.
8. such as the described a kind of regenerative resource of any one in the claim 1 to 6 and architecture-integral utilization system, it is characterized in that: wherein system controller (10) adopts industrial computer.
9. a kind of regenerative resource as claimed in claim 8 and architecture-integral utilization system, it is characterized in that: wherein industrial computer also is connected with single-chip microcomputer or PLC respectively.
10. such as the described a kind of regenerative resource of any one in the claim 1 to 6 and architecture-integral utilization system, it is characterized in that: wherein the control section of water tank comprises motor-driven valve and the interior temperature sensor of water tank that is installed on the interior pipeline of water tank.
11. such as the described a kind of regenerative resource of any one in the claim 1 to 6 and architecture-integral utilization system, it is characterized in that: wherein system controller (10) also respectively be installed in outdoor temperature sensor, temperature sensor on being installed in indoor temperature sensor and being connected solar thermal collector (9) is connected.
CN 201220603630 2012-11-15 2012-11-15 Renewable energy and building integrated comprehensive utilization system Expired - Lifetime CN202902420U (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102913978A (en) * 2012-11-15 2013-02-06 宁夏银星能源光伏发电设备制造有限公司 Renewable energy source and building integrated comprehensive utilization system
CN104567005A (en) * 2014-12-30 2015-04-29 昆明铁路局科学技术研究所 Building photovoltaic integrated system equipment

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102913978A (en) * 2012-11-15 2013-02-06 宁夏银星能源光伏发电设备制造有限公司 Renewable energy source and building integrated comprehensive utilization system
CN104567005A (en) * 2014-12-30 2015-04-29 昆明铁路局科学技术研究所 Building photovoltaic integrated system equipment

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