CN109237677A - A kind of thermal-arrest-radiation appliance and its refrigeration system - Google Patents

A kind of thermal-arrest-radiation appliance and its refrigeration system Download PDF

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Publication number
CN109237677A
CN109237677A CN201811130130.1A CN201811130130A CN109237677A CN 109237677 A CN109237677 A CN 109237677A CN 201811130130 A CN201811130130 A CN 201811130130A CN 109237677 A CN109237677 A CN 109237677A
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thermal
radiation
arrest
heat
tube
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CN201811130130.1A
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CN109237677B (en
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申利梅
陆青青
胡雍炎
刘泽宇
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Huazhong University of Science and Technology
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Huazhong University of Science and Technology
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F5/00Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater
    • F24F5/0007Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater cooling apparatus specially adapted for use in air-conditioning
    • F24F5/0014Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater cooling apparatus specially adapted for use in air-conditioning using absorption or desorption
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F13/00Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
    • F24F13/30Arrangement or mounting of heat-exchangers
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F5/00Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater
    • F24F5/0046Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater using natural energy, e.g. solar energy, energy from the ground
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F5/00Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater
    • F24F5/0046Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater using natural energy, e.g. solar energy, energy from the ground
    • F24F2005/0064Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater using natural energy, e.g. solar energy, energy from the ground using solar energy

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  • Engineering & Computer Science (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Sustainable Development (AREA)
  • Sustainable Energy (AREA)
  • Sorption Type Refrigeration Machines (AREA)

Abstract

The invention belongs to renewable energy and air-conditioning technical field, and disclose a kind of thermal-arrest-radiation appliance and its refrigeration system.It includes bracket and thermal-arrest-radiating element, and thermal-arrest-radiating element includes collecting part and radiation hot part, and collecting part includes reflective mirror and thermal-collecting tube, and mirror reflection sunshine heat and being gathered on thermal-collecting tube heats;Radiation hot part includes cooling tube and selective radiation film, and selective radiation film transmitting electromagnetic wave penetrates the outside irradiation space heat of atmospheric window, to reduce the temperature in cooling tube.The invention also discloses refrigeration systems, it includes thermal-arrest-radiation appliance and the absorption type refrigerating unit and cold water storage cistern that connect respectively with its both ends, daytime is freezed by driving refrigerating plant refrigeration after thermal-arrest-radiation appliance heating, night using the outside irradiation space heat of thermal-arrest-radiation appliance.Through the invention, the defect of sunlight and irradiation space poor refrigerating efficiency on daytime can not be utilized by compensating for night, realize the process of refrigerastion of nearly zero energy consumption.

Description

A kind of thermal-arrest-radiation appliance and its refrigeration system
Technical field
The invention belongs to renewable energy and air-conditioning technical field, more particularly, to a kind of thermal-arrest-radiation appliance and its Refrigeration system.
Background technique
Currently, greatly developing new and renewable energy is that China is current and the main target of future development, in China Social total energy consumption in, building energy consumption accounts for about 1/3, and the air conditioning energy consumption in building energy consumption is up to 42%, then, air conditioning energy consumption accounts for The 14% of China's total energy consumption.Therefore, the energy saving Journal of Sex Research of air-conditioning system just has highly important economic benefit and social effect.
Contain unlimited energy in the space of the length and breadth of land, the sun is the heat source that a temperature is up to 5800k, and cosmic space It is then the perfect cold source that a temperature only has 3K, the samming of the earth is 300K, between the two.The sun is all adding all the time Heat the earth, and the earth also radiates to the outer space;If air-conditioning energy can be greatly lowered two kinds of Utilizing Energy Sources in Reason Consumption.Nowadays relative maturity, biggest advantage are that seasonal adaptation is good for solar refrigeration technology development: on the one hand, the summer Season hot weather, people to refrigerating capacity require it is higher;On the other hand, summer intensity of solar radiation is big, utilizes Driven by Solar Energy system Cold can produce more cooling capacity.This demand just with summer people to air-conditioning matches.General solar refrigeration technology That hot water is generated using solar thermal collector, the hot water of generation is used to that Absorption Refrigerator is driven to work, it have to atmosphere without The advantages that pollution, movement-less part, quiet operation.But there are problems that solar energy night is not available.
Although the temperature in cosmic space, close to absolute zero, the presence of atmosphere hinders ground object and directly dissipates to it Heat, but in 8~13 mu m wavebands, water vapour, carbon dioxide and ozone are very weak to the absorbability of radiation in atmosphere, therefore, Atmosphere is very high in the transparency of this wave band, this usual wave band is known as " atmospheric window ", and object issues at normal temperature on the earth Infra-red radiation, " atmospheric window " can be penetrated just and be radiated the outer space, therefore a kind of material can be found as radiator, 8~13 mu m wavebands emissivity close to 1, and in the reflectivity of remaining wave band close to 1, then the radiation that object issues at normal temperature It will transmit through atmosphere and be radiated the outer space, and will be reflected from extraneous radiation, compare environment so that body surface is dropped to Lower temperature.Although irradiation space refrigeration can be under conditions of not consuming the energy or consuming a small amount of energy, by heat spoke It is mapped to the outer space, to achieve the purpose that refrigeration, but since selective radiation material is not ideal enough, can be absorbed on daytime more Solar radiation energy, cause irradiation space refrigeration daytime it is ineffective.
Summary of the invention
Aiming at the above defects or improvement requirements of the prior art, the present invention provides a kind of thermal-arrest-radiation appliance and its systems Cooling system, wherein design and be laid out by the structure to thermal-arrest-radiation appliance key component collecting part and radiation hot part, And by the mating connection with accessory part refrigerating plant, on the one hand make full use of collection heat radiation device in sunlight abundance When absorb the energy of sunlight, so that absorption type refrigerating unit be driven to freeze, on the other hand, it is contemplated that night sunlight does not fill The situation of foot dexterously reduces thermal-arrest-spoke using the principle of the outside space lunch electromagenetic wave radiation heat of selective radiation film In injection device in cooling tube liquid medium temperature, so that sunlight and irradiation space on daytime can not be utilized by mutually compensating for night The defect of poor refrigerating efficiency realizes the process of refrigerastion of nearly zero energy consumption, thus solves the technology of refrigeration system energy consumption height and effect difference Problem.
To achieve the above object, according to one aspect of the present invention, a kind of thermal-arrest-radiation appliance is provided, the device packet Include bracket and thermal-arrest-radiating element, which is characterized in that
The bracket is connect with thermal-arrest-radiating element, is used to support the thermal-arrest-radiating element;Thermal-arrest-the radiating element In tile, including collecting part and radiation hot part, the tie point around bracket and the collection thermal radiation unit rotates, and works as institute When stating collecting part towards sunlight, the collecting part work, when the collecting part makes the radiation backwards to sunlight When hot part is upward, the radiation hot part work;
The collecting part includes the reflective mirror of tile and the thermal-collecting tube of the reflective mirror focal point is arranged in, described reflective Heat is simultaneously gathered on the thermal-collecting tube by mirror reflected sunlight heat, with this liquid medium in thermal-collecting tube is added Heat;The back side of the collecting part, including cooling tube and selective radiation film, the cooling is arranged in the radiation hot part The back side of the reflective mirror is arranged in pipe, and the selective radiation film is attached to the surface of the cooling tube, absorbs the cooling The heat of liquid medium in pipe, then tranmitting frequency is the electromagnetic wave of 8 μm~13 mu m wavebands, and the electromagnetic wave of the wave band penetrates atmosphere The outside irradiation space heat of window, to reduce the temperature of the liquid medium in the cooling tube.
It is further preferred that the radiation hot part further includes being arranged between the cooling tube and selective radiation film Reflective heat conducting film, on the one hand for reflect extraneous electromagnetic wave avoid it is extraneous conduct heat to cooling tube, on the other hand pass through It is coated on the external contact area increased between the cooling tube and selective radiation film of the cooling tube, to enhance institute It states thermally conductive between cooling tube and selective radiation film.
It is further preferred that the radiation hot part further includes the full impregnated sexual isolation being arranged in above selective radiation film On the one hand film has very high Radiation Transmittance to all band, on the other hand for that will radiate hot part air-isolation, reduce empty Heat convection between gas and selective radiation film.
It is further preferred that the selective radiation film preferably uses polytetrafluoroethylene film or polyester film.
It is further preferred that the gap between the adjacent cooling tube, the gap between the cooling tube and reflective mirror In be filled with foamed material, for keeping the temperature of cooling tube.
It is another aspect of this invention to provide that provide a kind of refrigeration system, including the above-mentioned thermal-arrest-radiation appliance, And the absorption type refrigerating unit and cold water storage cistern being connect respectively with the thermal-arrest-radiation appliance both ends, which is characterized in that
When daytime, the thermal-arrest-radiation appliance is added by the liquid medium in reflected sunlight heat thermal-collecting tube Liquid medium circulation after heat, which flows into the refrigerating plant, constantly carries out heat exchange with the working medium in the refrigerating plant, from And refrigerating plant is driven, which freezes and obtains cooling water, and the water flow after cooling is to the cold water storage cistern In, extraneous temperature is reduced by the cold water storage cistern and extraneous heat exchange, process of refrigerastion is realized with this;
When night, the thermal-arrest-radiation appliance disconnects the connection with refrigerating plant, and passes through the cooling tube and cold water storage cistern It connects, the outside irradiation space heat of radiant section in the thermal-arrest-radiation appliance reduces liquid medium in the cooling tube Temperature is to reduce the temperature of water in the cold water storage cistern, and the cold water storage cistern and extraneous progress heat exchange reduce ambient temperature, with this reality Existing process of refrigerastion.
It is further preferred that the absorption type refrigerating unit includes gas-liquid separator, condenser, liquid distribution plate, absorber, steaming Device, U-tube, liquid storing barrel, solution heat exchanger, solution heating muff and crescent moon shaped channel thermal siphon solution elevation tube are sent out,
Thermal-arrest-the radiation appliance and the solution heating muff and the crescent moon shaped channel thermal siphon solution elevation tube phase Even, the liquid medium being heated enters in the solution heating muff and the crescent moon shaped channel thermal siphon solution elevation tube Afterwards, the Temperature of Working in the crescent moon shaped channel thermal siphon solution elevation tube increases boiling, and enters in the gas-liquid separator, The gas-liquid separator is used to the working medium being divided into steam and liquid solution, wherein
The steam enters in the condenser, and successively by forming cryogen in the U-tube, liquid distribution plate and evaporator Water, the evaporator are connect with the cold water storage cistern, and the water as refrigerant in the evaporator and the water in the cold water storage cistern carry out heat exchange, On the one hand the temperature for reducing water in the cold water storage cistern realizes process of refrigerastion, on the other hand the absorption heat shape in the evaporator Enter in the absorber at water vapour;
The liquid solution enters the absorber by the solution heat exchanger, and the water absorbed in the absorber steams It flows out, is returned to after the solution heat exchanger in the crescent moon shaped channel thermal siphon solution elevation tube from the absorber after vapour.
It is further preferred that the crescent moon shaped channel thermal siphon solution elevation tube includes inner and outer tubes, inner and outer tubes Between form crescent moon shaped channel, the liquid medium that is heated in the thermal-collecting tube flows into solution heating muff and solution elevating In pipe inner tube, the working medium in the crescent moon shaped channel is transferred heat to.
In general, through the invention it is contemplated above technical scheme is compared with the prior art, can obtain down and show Beneficial effect:
1, the present invention has complementary advantages solar energy and space cold source, and solving solar energy night with irradiation space refrigeration can not The problem of use, makes up the deficiency of irradiation space refrigeration effect on daytime difference with solar energy absorption type refrigeration, to ensure that whole day Wait complementary refrigeration;
2, the collecting part in the present invention in thermal-arrest-radiation appliance is not needing cold air in addition to the refrigeration from summer Winter, can be used as solar water heater and heat, hot water is provided;
3, two kinds of refrigeration modes that the present invention uses are passive refrigeration modes, and are mentioned using the channel thermal siphon of crescent or half moon type Riser replaces mechanical pump to obtain absorption system flow head, energy consumption is further decreased, to realize nearly zero energy consumption system Cold effect;
4, solar energy and space ultralow temperature cold source of the energy utilized in the present invention in nature, energy consumption is extremely low, Air conditioning energy consumption can be significantly reduced, and using water as refrigeration working medium, cleanliness without any pollution, the system can be widely applied to resident The building such as building, school, office block, hospital, airport, the hot Arid Area for being particluarly suitable for sunshine abundance uses, in wet weather It can be assisted with electric heating wire;
5, thermal-arrest-radiation appliance provided in the present invention and refrigeration system compatibility are strong, reequip at low cost, which can be with Traditional air conditioner and the compatible use of air energy air conditioner, do not need very big recondition expense, air-conditioning before can also be used as auxiliary system Cold to continue to use, in winter, the hot water that this system generates in one day can satisfy the hot water demand in an average family winter, fill out " the neutral gear phase " of refrigeration is mended.
Detailed description of the invention
Fig. 1 is thermal-arrest-radiating element structural schematic diagram constructed by preferred embodiment according to the invention;
Fig. 2 is thermal-arrest-radiation appliance structural schematic diagram constructed by preferred embodiment according to the invention;
Fig. 3 is atmospheric optical spec transmission curve constructed by preferred embodiment according to the invention;
Fig. 4 is the radiation refrigeration schematic diagram of selective radiator constructed by preferred embodiment according to the invention;
Fig. 5 is the energy diagram of ideal radiator constructed by preferred embodiment according to the invention;
Fig. 6 is the structural schematic diagram of refrigeration system constructed by preferred embodiment according to the invention;
Fig. 7 is crescent moon shaped channel thermal siphon solution elevation tube cross section structure constructed by preferred embodiment according to the invention Schematic diagram.
In all the appended drawings, identical appended drawing reference is used to denote the same element or structure, in which:
1- thermal-arrest-radiation appliance 2- heat-exchanger pump 3- gas-liquid separator 4- condenser 5- liquid distribution plate 6- absorber 7- steams Send out device 8- pressure reducing valve 9-U shape pipe 10- liquid receiver 11- solution heat exchanger 12- solution heating muff 13- crescent moon shaped channel Thermal siphon solution elevation tube 14- cold water storage cistern 15- water pump 16- capillary network radiation air-conditioner 17- water supply pump 18- whole-permeable every The reflective heat conducting film 21- cooling tube 22- reflective mirror 23- thermal-collecting tube 24- inner tube of scrapping off film 19- selective radiation film 20- 25- outer tube -26- crescent or half moon channel
Specific embodiment
In order to make the objectives, technical solutions, and advantages of the present invention clearer, with reference to the accompanying drawings and embodiments, right The present invention is further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, and It is not used in the restriction present invention.As long as in addition, technical characteristic involved in the various embodiments of the present invention described below Not constituting a conflict with each other can be combined with each other.
Fig. 1 is the structural schematic diagram of collection thermal radiation unit constructed by preferred embodiment according to the invention,
Fig. 2 is the structural schematic diagram for collecting heat radiation device constructed by preferred embodiment according to the invention, such as Fig. 1 and 2 Shown, a kind of collection heat radiation device, the device includes bracket sum aggregate thermal radiation unit, which is characterized in that
Bracket is connect with collection thermal radiation unit, is used to support the collection thermal radiation unit;Collecting thermal radiation unit is in tile, packet Collecting part and radiation hot part are included, the tie point around bracket and collection thermal radiation unit rotates, when collecting part is towards the sun Light time, collecting part work, when collecting part makes radiation hot part upward backwards to sunlight, radiation hot part work;
Collecting part includes the reflective mirror 22 of tile and the thermal-collecting tube 23 that the reflective mirror focal point is arranged in, reflective mirror 22 Heat is simultaneously gathered on thermal-collecting tube 23 by reflected sunlight heat, with this liquid medium in thermal-collecting tube is heated;
Radiation hot part is arranged in the lower section of collecting part, including cooling tube 21, selective radiation film 19, whole-permeable every The back side of reflective mirror 22 is arranged in scrapping off film 18 and reflective heat conducting film 20, cooling tube 21, and selective radiation film 19 is attached to cold But the surface of pipe 21 absorbs the heat of liquid medium in the cooling tube 21, and then tranmitting frequency is the electromagnetism of 8 μm~13 mu m wavebands Wave, the electromagnetic wave of the wave band penetrates the outside irradiation space heat of atmospheric window, to reduce the temperature of the liquid medium in cooling tube Degree;Reflective heat conducting film 20 is arranged between cooling tube 21 and selective radiation film 19, need to and ductility good using reflective function On the one hand good film avoids the external world from conducting heat to cooling tube, on the other hand passes through cladding for reflecting extraneous electromagnetic wave In the external contact area increased between cooling tube and selective radiation film of cooling tube, to enhance the cooling tube and choosing It is thermally conductive between selecting property radiation film;Whole-permeable isolated film is arranged above selective radiation film, is used for radiant heat portion Divide air-isolation, reduces the heat convection between air and selective radiation film;Selective radiation film preferably uses poly- four Fluoroethylene film or polyester film;Foamed material is filled in gap between adjacent cooling tube, for keeping cooling tube Temperature.
Fig. 3 is atmospheric optical spec transmission curve constructed by preferred embodiment according to the invention, as shown in figure 3, atmosphere There is different transmitances to the radiation of different wave length, in the higher section of transmitance, such as 8~13 mu m wavebands, the electromagnetism of the wave band Wave can be relatively free to penetrate atmosphere, these sections be called on meteorology " window " of atmosphere, and irradiation space freezes just The phenomenon that being based on " atmospheric window ", by a kind of selective radiator in the way of radiation heat transfer, this radiator 8~ 13 mu m wavebands have very high emissivity, and are not consuming or consuming a small amount of energy for whole reflections in the radiation of other wavelength periods In the case where source, heat is radiated the outer space, to achieve the purpose that refrigeration.Based on this principle, thermal-arrest provided by the invention Radiation appliance radiates heat into the outer space by the electromagnetic wave that selective radiation film therein emits 8~13 mu m wavebands, from And reach refrigeration purpose.
Fig. 4 is the radiation refrigeration schematic diagram of selective radiator constructed by preferred embodiment according to the invention, and Fig. 5 is The energy diagram of ideal radiator constructed by preferred embodiment according to the invention, as shown in Figures 4 and 5, ideally, The constantly outside irradiation space heat of selective radiator, and solar radiation only has sub-fraction energy and is absorbed by radiator, total The result is that the heat that radiator is radiate is greater than the energy absorbed, the temperature of radiator is constantly reduced, to reach refrigeration Purpose.Irradiation space refrigeration can obtain ideal refrigeration effect at night, but at this stage since (daytime is to too for the limitation of material 100%) reflectivity of sunlight is not accomplished, even if radiator material only has 0.1 absorptivity to the sunlight of short wavelength, absorption Solar radiation energy has been enough to offset most radiation refrigeration amount, therefore the effect of irradiation space refrigeration is not enough managed on daytime Think.Original based on this, the present invention wants to combine using collecting part and radiant section, generates heat using the heat of sunlight on daytime Amount driving refrigerating plant, so that reducing temperature reaches refrigeration effect, and night reduces the temperature in cooling tube using irradiation space, To reach refrigeration effect.
In one embodiment of the invention, thermal-collecting tube 23 uses vacuum tube, and cooling tube 21 uses copper tube, reflective thermally conductive Film 20 uses aluminium foil, and selective radiation film 19 uses polytetrafluoroethylene film, and whole-permeable isolated film 18 uses ldpe film.
Collection heat radiation device be followed successively by from convex surface to male and female face ldpe film, polytetrafluoroethylene film, aluminium foil, copper tube, Trough reflectors, vacuum tube.Wherein, vacuum tube is located at the focal point of trough reflectors;Ldpe film has very in 8~13 mu m wavebands High transmissivity completely cuts off air, reduces air and polytetrafluoroethylene film heat convection;Polytetrafluoroethylene film is at 8~13 μm Wave band has very high emissivity, passes through atmospheric window space-ward radiations heat energy;It is smeared between polytetrafluoroethylene film and aluminium foil Heat-conducting silicone grease enhances thermally conductive, reduction thermal contact resistance;Aluminium foil is partly wrapped on copper pipe, enhances copper tube and polytetrafluoroethylene film Heating conduction;Epoxy resin heat-conducting glue is smeared between aluminium foil and copper pipe to fix, and reduces thermal contact resistance;Poly- ammonia is used below copper pipe The filling heat preservation of ester foaming material.
Fig. 6 is the structural schematic diagram of refrigeration system constructed by preferred embodiment according to the invention, as shown in fig. 6, one Kind using collection heat radiation device refrigeration system, including collection heat radiation device 1, crescent moon shaped channel thermal siphon solution elevation tube 13, Gas-liquid separator 3, condenser 4, solution heat exchanger 11, liquid receiver 10, U-tube 9, evaporator 7, absorber 6,14 and of cold water storage cistern Capillary network radiation air-conditioner 16.Fig. 7 is casing profile structural schematic diagram constructed by preferred embodiment according to the invention, is such as schemed Shown in 7,13 sets of crescent moon shaped channel thermal siphon solution elevation tube is among solution heating muff 12.
Collect the thermal-arrest pipeline of 1 concave surface of heat radiation device after heat-exchanger pump, it is logical with solution heating muff and mososeries respectively The connection of road thermal siphon solution elevation tube constitutes heat source water loop.
Crescent moon shaped channel thermal siphon solution elevation tube 13, gas-liquid separator 3, solution heat exchanger 11, absorber 6, decompression Valve 8 constitutes absorbent circuit in absorption system.
Condenser 4, U-tube 9 are connected to evaporator 7, constitute refrigerant line.
The cooling line on collection 1 convex surface of heat radiation device is connected by water supply pump with cold water storage cistern, constitutes refrigerant water loop.
Heat source water loop, absorbent circuit, refrigerant line constitute the solar absorption refrigeration system to work by day;
Refrigerant water loop constitutes night irradiation space refrigeration system.
Crescent moon shaped channel thermal siphon solution elevation tube 13 replaces mechanical pump, reduces system energy consumption.
The solar absorption refrigeration system to work by day and the irradiation space refrigeration system worked at night share same Cold water storage cistern, and cold water storage cistern is connected to capillary network radiation air-conditioner.
Refrigeration system workflow of the invention is as follows: on daytime, thermal-arrest-radiation appliance 1 is concave upright, and sunlight is through collecting It is focused on thermal-collecting tube 23 after heat-radiation appliance concave reflection.Normal-temperature water in thermal-collecting tube 23, after being heated to 90 DEG C or so, It is divided into two-way and is sent into the sleeve 12 and crescent or half moon type channel riser 13 that heat along riser whole process from bottom respectively through heat-exchanger pump 2 It is interior, for heating the LiBr weak solution in channel simultaneously from inside to outside.It is being promoted in tube passage 13, due to crescent or half moon type channel wedge angle Place can self-assembling formation reinforced solution boiling the nucleus of boiling, weak solution be easy to the hot water laser heating outside by pipe to boil, shape At two phase flow, the motive force that then fluid density difference generates in liquid receiver 10 and thermal siphon is promoted to vapour liquid separator 3, The steam separated enters condenser 4 through separator channels and is condensed into water as refrigerant, and solvent portions concentration improves, and is formed dense molten Liquid.In refrigerant cycle, water as refrigerant enters evaporator 6 by U-tube 9 and evaporates, and concentrated solution enters after over-heat-exchanger 11 to be absorbed Device absorbs the water as refrigerant of evaporation, and the weak solution after absorption enters liquid receiver 10, circular flow again.At night, thermal-arrest-radiation appliance 1 automatic turning becomes convex surface work, and selective radiator can be radiated the heat of chilled water in cooling tube 21 by atmospheric window To space, to generate the lower cold water of temperature.Day and night both of which shares same set of chilled-water system, acquisition it is cold Water is used to indoor capillary network radiation air-conditioner, sends to cooling capacity for room.
In addition, the system can also converge solar energy by the concave surface of slot in winter, and the hot water of generation can meet in addition to refrigeration The part heat demand of user.
The solar absorption refrigeration system to work by day and the irradiation space refrigeration system worked at night share same Cold water storage cistern 14, and cold water storage cistern 14 is connected to capillary network radiation air-conditioner 16, passes through cold water storage cistern and capillary network radiation air-conditioner 16 Between carry out heat exchange, capillary network radiation air-conditioner 16 and it is extraneous carry out heat exchange, it is extraneous when the temperature in cold water storage cistern reduces Temperature is lowered, and thus reaches refrigeration effect.
Practical application effect of the invention is further described below in conjunction with specific parameter.
In daytime process of refrigerastion, table 1 is the design parameter for collecting the part-structure of heat radiation device, and table 2 is in refrigerating plant It is negative can to obtain each heat exchange equipment heat according to parameter value calculation in Tables 1 and 2 for the different parameters value of the members sometime measured The flow of lotus and each working media, is specifically shown in Table 3.
Table 1 collects heat radiation device parameter value
The parameter value table of the sometime members of table 2
3 performance parameter value of table
In night process of refrigerastion, the convex configuration for collecting heat radiation device uses material and relevant parameter respectively such as table 4 and table 5 It is shown.
4 selective radiation slot associated materials of table
5 selective radiation slot relevant parameter of table
When calculating night refrigerating capacity, if blackbody temperature is 300K, space temperature is 0K, can be approximate according to stefan law The radiant power of black matrix unit area is calculated,
PAlways=α T4=5.67 × 108×3004W/m2=459.27W/m2
Since selective radiator is 1 in the emissivity of 8~13 mum wavelengths, the emissivity of commplementary wave length is 0, therefore to this Wave band is integrated, and can be obtained:
The temperature of upper atmosphere (stratosphere) is 220K, therefore selective radiator absorbs the amount of radiation of atmosphere are as follows:
The two subtracts each other to obtain its net refrigerating capacity,
POnly=147.9W/m2-27.4W/m2=120.5W/m2
I.e. ideally night selective radiator unit area refrigerating capacity is 120.5W/m2.It is various cold considering After loss, testing the refrigerating capacity measured is 74.5W/m2, it can be seen that use refrigeration system refrigeration effect provided by the invention It is fabulous and close with the refrigerating capacity of theoretical calculation.
As it will be easily appreciated by one skilled in the art that the above is merely preferred embodiments of the present invention, not to limit The present invention, any modifications, equivalent substitutions and improvements made within the spirit and principles of the present invention should be included in this Within the protection scope of invention.

Claims (8)

1. a kind of thermal-arrest-radiation appliance, which includes bracket and thermal-arrest-radiating element, which is characterized in that
The bracket is connect with thermal-arrest-radiating element, is used to support the thermal-arrest-radiating element;Thermal-arrest-the radiating element is in watt Sheet, including collecting part and radiation hot part, the tie point around bracket and the collection thermal radiation unit rotates, when the collection When hot part is towards sunlight, the collecting part work, when the collecting part makes the radiant heat portion backwards to sunlight When dividing upward, the radiation hot part work;
The collecting part includes the reflective mirror (22) of tile and the thermal-collecting tube (23) that the reflective mirror focal point is arranged in, described Heat is simultaneously gathered on the thermal-collecting tube by mirror reflection sunshine heat, makes the liquid medium in the thermal-collecting tube with this It is heated;The back side of the collecting part, including cooling tube (21) and selective radiation film is arranged in the radiation hot part (19), the back side of the reflective mirror is arranged in the cooling tube, and the selective radiation film (19) is attached to the cooling tube Surface, absorb the heat of liquid medium in the cooling tube, then tranmitting frequency be 8 μm~13 mu m wavebands electromagnetic wave, the wave The electromagnetic wave of section penetrates the outside irradiation space heat of atmospheric window, to reduce the temperature of the liquid medium in the cooling tube (21) Degree.
2. a kind of thermal-arrest-radiation appliance as claimed in claim 1, which is characterized in that the radiation hot part further includes being arranged in institute The reflective heat conducting film (20) between cooling tube and selective radiation film is stated, is on the one hand avoided outside for reflecting extraneous electromagnetic wave Heat is conducted to cooling tube in boundary, on the other hand increases the cooling tube and selective spoke by being coated on the external of the cooling tube The contact area between film is penetrated, to enhance thermally conductive between the cooling tube and selective radiation film.
3. such as a kind of thermal-arrest-radiation appliance of claims 1 or 2, which is characterized in that the radiation hot part further includes that setting exists Whole-permeable isolated film (18) above selective radiation film, on the one hand has very high Radiation Transmittance to all band, another Aspect reduces the heat convection between air and selective radiation film for that will radiate hot part air-isolation.
4. such as a kind of thermal-arrest spoke-injection device of any one of claim 1-3, which is characterized in that the selective radiation film (18) polytetrafluoroethylene film or polyester film are preferably used.
5. such as a kind of thermal-arrest-radiation appliance of any one of claim 1-3, which is characterized in that the adjacent cooling tube (21) Between gap, foamed material is filled in the gap between the cooling tube and reflective mirror (22), for keeping cooling tube Temperature.
6. a kind of refrigeration system, including thermal-arrest-radiation appliance as described in any one in claim 1-5, and respectively with the collection Heat-radiation appliance both ends connection absorption type refrigerating unit and cold water storage cistern (14), which is characterized in that
When daytime, the thermal-arrest-radiation appliance is added by the liquid medium in reflected sunlight heat thermal-collecting tube (23) Liquid medium circulation after heat, which flows into the refrigerating plant, constantly carries out heat exchange with the working medium in the refrigerating plant, from And refrigerating plant is driven, which freezes and obtains cooling water, and the water flow after cooling is to the cold water storage cistern In, extraneous temperature is reduced by the cold water storage cistern (14) and extraneous heat exchange, process of refrigerastion is realized with this;
When night, the thermal-arrest-radiation appliance disconnects the connection with refrigerating plant, and passes through the cooling tube (21) and cold water storage cistern (14) it connects, the outside irradiation space heat of the radiant section in the thermal-arrest-radiation appliance reduces liquid in the cooling tube and is situated between For the temperature of matter to reduce the temperature of water in the cold water storage cistern, the cold water storage cistern and extraneous progress heat exchange reduce ambient temperature, with This realizes process of refrigerastion.
7. a kind of refrigeration system as claimed in claim 5, which is characterized in that the absorption type refrigerating unit includes gas-liquid separator (3), condenser (4), liquid distribution plate (5), absorber (6), evaporator (7), U-tube (9), liquid storing barrel (10), solution heat exchanger (11), solution heating muff (12) and crescent moon shaped channel thermal siphon solution elevation tube (13),
Thermal-arrest-the radiation appliance (1) and the solution heating muff (12) and the crescent moon shaped channel thermal siphon solution elevating It manages (13) to be connected, the liquid medium being heated enters the solution heating muff (12) and the crescent moon shaped channel thermal siphon After in solution elevation tube (13), the Temperature of Working in the crescent moon shaped channel thermal siphon solution elevation tube (13) increases boiling, and Into in the gas-liquid separator (3), the gas-liquid separator is used to the working medium being divided into steam and liquid solution, wherein
The steam enters in the condenser, and successively by shape in the U-tube (9), liquid distribution plate (5) and evaporator (7) At water as refrigerant, which connect with the cold water storage cistern (14), in the water as refrigerant in the evaporator and the cold water storage cistern (14) Water carry out heat exchange, on the one hand reduce water in the cold water storage cistern temperature realize process of refrigerastion, on the other hand in the evaporation Absorption heat in device forms water vapour and enters in the absorber;
The liquid solution enters the absorber by the solution heat exchanger (11), and the water absorbed in the absorber steams It is flowed out after vapour from the absorber, the crescent moon shaped channel thermal siphon solution elevation tube (13) is returned to after the solution heat exchanger In.
8. refrigeration system as claimed in claim 7, which is characterized in that the crescent moon shaped channel thermal siphon solution elevation tube includes inner tube (24) and outer tube (25) crescent moon shaped channel (26), are formed between inner and outer tubes, are heated in the thermal-collecting tube (23) described Liquid medium flows into solution heating muff (12) and solution elevation tube inner tube (24), transfers heat to the crescent moon shaped channel (26) working medium in.
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CN113587458B (en) * 2021-06-16 2022-09-06 东南大学 Device capable of simultaneously obtaining heat source from sun and cold source from deep space
WO2023020449A1 (en) * 2021-08-17 2023-02-23 苏州大学 Photo-thermal multiplexing apparatus based on sub-band reverse differential optical path
CN113899109A (en) * 2021-11-16 2022-01-07 南京索乐优节能科技有限公司 Efficient integrated system for medium-temperature heating and sky radiation refrigeration by utilizing solar radiation
CN115264992A (en) * 2022-05-27 2022-11-01 东南大学 Heat collection refrigeration plate capable of automatically adjusting heat radiation emission and reception and heat flow rectifier
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