CN201662276U - Solar absorption energy-storage refrigerating system - Google Patents
Solar absorption energy-storage refrigerating system Download PDFInfo
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- CN201662276U CN201662276U CN2009200690016U CN200920069001U CN201662276U CN 201662276 U CN201662276 U CN 201662276U CN 2009200690016 U CN2009200690016 U CN 2009200690016U CN 200920069001 U CN200920069001 U CN 200920069001U CN 201662276 U CN201662276 U CN 201662276U
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- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A30/00—Adapting or protecting infrastructure or their operation
- Y02A30/27—Relating to heating, ventilation or air conditioning [HVAC] technologies
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- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B30/00—Energy efficient heating, ventilation or air conditioning [HVAC]
- Y02B30/62—Absorption based systems
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- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/40—Solar thermal energy, e.g. solar towers
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Abstract
The utility model discloses a solar absorption energy-storage refrigerating system, which comprises a solar heat collector (101), an energy-storage water tank (102, 2), a medium/high temperature heat pump (3), a medium/high energy-storage mass transfer box (4), a medium/high solar heat collector (501), and an absorption refrigerating machine (6). The solar heat collector is connected with the medium/high energy-storage water tank to form an energy-storage solar heat-collecting circulation loop supplying heat at different times; the energy-storage water tank passes through a water-source medium/high temperature single-way heating pump (3) to be connected with a medium/high energy-storage mass transfer box (4); heat generated by the solar heat collector is stored in the energy-storage water tank, and the medium/high temperature heat pump heats the heat in the energy-storage water tank at off-peak period and transfers the heat to the medium/high temperature energy-storage mass transfer box. The heat in the medium/high energy-storage mass transfer box is further heated by the medium/high temperature solar heat-collecting circulation loop and provides heat requirements for refrigerating driving of the absorption refrigerating machine. The solar absorption energy-storage refrigerating system utilizes solar energy, and heat pump to heat at different times and different stages, so as to obtain heat required by refrigeration at low cost.
Description
Technical field
The utility model relates to a kind of solar absorption energy-storing refrigerating system, belongs to and utilizes the field of Refrigeration and Air-conditioning of solar energy for main energy sources.
Background technology
Conventional absorption type air conditioning system mainly comprises Absorption Refrigerator, air-conditioning box or several sections such as fan coil, boiler, wherein, Absorption Refrigerator mainly is made up of generator, condenser, evaporimeter and absorber, and the heat supply of freezing required adopts fuel boiler to be easy to generate environmental pollution.The solar energy absorption type air conditioning system of prior art is to increase solar heat collector, storage tank and automatic control system on this basis again.Solar energy absorption type refrigeration utilizes solar heat collector to provide its generator needed heat medium water for Absorption Refrigerator exactly, and the temperature of heat medium water is high more, and then the coefficient of performance of refrigeration machine (also claiming COP) is high more, and the refrigerating efficiency of air-conditioning system is also high more like this.For example, as if about 60 ℃ of heat medium water temperature, then refrigeration machine COP about 0.40; If about 90 ℃ of heat medium water temperature, then refrigeration machine COP about 0.70; If about 120 ℃ of heat medium water temperature, then refrigeration machine COP can reach more than 1.10.Though solar energy enormous amount, the annual solar radiant energy that arrives earth surface is about 130,000,000,000,000 tons of mark coals, but be characterized in having dispersiveness, discontinuity and unstability, the also difficult required high-temperature-hot-water of absorption type air-conditioner highly effective refrigeration that continuously produces of common solar energy absorption type air conditioning system, the maximum heating temperature that can reach in the refrigeration has only 80 ℃-85 ℃, refrigeration machine COP about 0.6, more is difficult to provide all-weather refrigerating operaton cheaply.
Adopt in the existing Refrigeration Technique of solar energy and the compound heat supply of heat pump, solar energy is the pre-thermal output of direct prime as heat pump, what constitute between the two is real-time working system system, operating cost is higher, usually run into the additional investment burden that to carry out the electrical network extending capacity reformation in the large-scale application and be difficult to popularization, in addition, system does not also possess the required heating output function of refrigeration that all-weather is used, and is difficult to practical requirement.A kind of solar heat pump air conditioner system and solar energy+air-source heat pump air conditioning system are disclosed as the Chinese patent literature CN1453516A (utility model title: solar heat pump air conditioner system and solar energy+air-source heat pump air conditioning system) that has announced, it has adopted solar energy and the compound heating system of heat pump, wherein, the outdoor heat exchange circulation of solar heat pump air conditioner system comprises a solar heat exchanger at least, constitute the outdoor peripheral passage of solar energy by this solar heat exchanger and source pump, its outdoor heat exchange circulation includes outdoor heat exchanger at least, this outdoor heat exchanger is serially connected with a solar heat exchanger at least, by this solar heat exchanger, outdoor heat exchanger and source pump constitute solar energy+outdoor peripheral passage, air source, utilize solar energy to improve the effect of the temperature of low-temperature heat source in the heat supply circulation to reach it.Solar energy wherein partly is the pre-thermal output of direct prime as heat pump, and what constitute between the two is real-time working system system, the function that can't realize utilizing paddy electricity energy storage and reduce the required heating operating cost of all-weather refrigeration.
In order to eliminate above-mentioned defective, with regard to the energy storage problem in the needs solution solar absorption refrigeration system, and assisting by means of other clean energy resource, just can reach the low cost movement that at utmost utilizes solar energy and environmental protection and energy saving, and the all-weather of the system of realization operation, wherein, the safeguards system operating cost is low is the most important index of elevator system performance; Secondly, when the supplementary energy electric heater unit of cleanings such as selection use heat pump, should fully use the paddy electric energy of electricity period, bear with the additional investment of exempting the electrical network extending capacity reformation, the reduction system is provided with cost and floor space, obtains the adaptability of installing and using of maximum.
Summary of the invention
The utility model is to provide solar absorption energy-storing refrigerating system a kind of environmental protection and energy saving more, low-cost round-the-clock highly effective refrigeration operation.
For this reason, the utility model has been taked following technical scheme: solar absorption energy-storing refrigerating system, comprise solar thermal collector, moderate and high temperature heat, Absorption Refrigerator, wherein the heat of solar thermal collector generation provides the heat demand of Absorption Refrigerator after the moderate and high temperature heat heating, it is characterized in that:
A, this solar absorption energy-storing refrigerating system also comprise the middle high temperature solar heat collecting closed circuit of mainly being made up of middle high-temp solar heat collector, middle high temperature energy-storage mass transfer case, middle high-temperature heat-transfer medium;
B, aforementioned solar thermal collector are connected with energy-accumulating water tank, form the energy-storage solar thermal-arrest closed circuit (1) of time-sharing heating;
C, aforementioned moderate and high temperature heat are that the heating output temperature is higher than high temperature unilateral system heat driven heat pump in 80 ℃ the water source, energy-accumulating water tank in aforesaid water source high temperature unilateral system heat driven heat pump with aforesaid in high temperature energy-storage mass transfer case be connected;
The heat that D, energy-storage solar thermal-arrest closed circuit (1) produce is stored in the aforesaid energy-accumulating water tank.
Solar absorption energy-storing refrigerating of the present utility model system, comprise high temperature unilateral system heat driven heat pump in energy-storage solar thermal-arrest closed circuit, the water source, middle high-temp solar heat collector and other conventional energy resource assisted heating devices, successively carry out classification heating, classification storage refrigeration machine institute calorific requirement, the cycling service of day and night is as follows:
1. by day, solar thermal collector absorbs solar energy and heat delivery is preserved to energy-accumulating water tank, so that offer high temperature unilateral system heat driven heat pump in the water source evening;
2. at night, start high temperature unilateral system heat driven heat pump in circulating pump, the water source, the heat in the energy-accumulating water tank is further heated, and high temperature energy-storage mass transfer case in being transported to;
3. daytime next day, middle high-temp solar heat collector absorbs solar energy, further adds and pines for heat in the high temperature energy-storage mass transfer case, heat demand so that the refrigerating operaton of Absorption Refrigerator to be provided.
In the utility model, high temperature unilateral system heat driven heat pump, middle high temperature solar heat collecting closed circuit improve heat successively step by step in energy-storage solar thermal-arrest closed circuit, the water source, thereby make Absorption Refrigerator in the temperature of heat medium water reach about in the of 100 ℃, the coefficient of performance COP of refrigeration machine reaches about 0.9, and refrigerating efficiency is greatly improved.
Solar absorption energy-storing refrigerating of the present utility model system, the heat of Absorption Refrigerator is provided, be mainly derived from utilization (energy-storage solar thermal-arrest closed circuit, middle high temperature solar heat collecting closed circuit) to solar energy, take into account and derive from the low ebb electric quantity consumption (high temperature unilateral system heat driven heat pump in the water source) of electricity period, make that this refrigeration system realizes that cost is set and operating cost is lower, also can exempt the electrical network extending capacity reformation.
In the utility model, the colling end of Absorption Refrigerator can connect refrigeration machine cooling tower circulation line; The heat that Absorption Refrigerator displaces during to indoor refrigeration is lowered the temperature by air cooling by refrigeration machine cooling tower circulation line, indoor heat is dispersed into outdoor, thereby reach the effect of refrigeration radiating.
In the utility model, the colling end of Absorption Refrigerator also can be connected with the colling end energy-accumulating water tank; The heat delivery that the Absorption Refrigerator colling end displaces stores or provides hot water output in the colling end energy-accumulating water tank.The colling end energy-accumulating water tank provides the domestic hot-water or/and heat, carry its heat to energy-accumulating water tank through water source unilateral system heat driven heat pump again through output interface.Like this, solar absorption energy-storing refrigerating of the present utility model system can not only reach the purpose of room temperature lowering, also the heat absorption in the original indoor environment being stored into the colling end energy-accumulating water tank utilizes again, cooling heat by absorption refrigeration is recycled, not only realize the secondary utilization of the energy, and eliminated thermal pollution to environment, realize, low-cost all-weather highly effective refrigeration operation environmental protection and energy saving more than prior art.
In the utility model, the colling end of Absorption Refrigerator also can be connected with soil buried tube type heat exchanger; The heat that the Absorption Refrigerator colling end displaces is buried by soil buried tube type heat exchanger and is stored in the underground.As everyone knows, with respect to the face of land, common underground rock-soil layer temperature below 5 meters is less with seasonal variations, has heat-retaining condition preferably, can be used as energy storage or heat exchange.The chamber heat exhaust is stored into underground, can not only anti-season utilizes again, and can exempt intensification influence, reduce thermal pollution face of land environment temperature.In addition, the colling end of Absorption Refrigerator also can be connected with underground heat accumulation liquid storehouse, and heat accumulation liquid storehouse is connected to the colling end energy-accumulating water tank; The heat that the Absorption Refrigerator colling end displaces during summer is stored in underground heat accumulation liquid storehouse by soil buried tube type heat exchanger, stored to the colling end energy-accumulating water tank by the heat delivery of circulating pump with heat accumulation liquid storehouse during winter, the colling end energy-accumulating water tank provides the domestic hot-water or/and heat, be transported to aforementioned energy-accumulating water tank through water source unilateral system heat driven heat pump again through output interface again.Like this, solar absorption energy-storing refrigerating of the present utility model system can not only reach the purpose of room temperature lowering, the heat discharging in the summer indoor environment can also be stored into underground, by the time export use during winter again.Like this, not only can turn waste into wealth, realize the secondary utilization of the energy, and can reach release the intensification adverse effect of face of land environment temperature and the environment protecting of reduction thermal pollution.
For the aforesaid solar absorption energy-storing refrigerating system that can realize the secondary utilization of the energy, also can be connected with the load loop of winter heating output on the middle high temperature energy-storage mass transfer case; The heat of high temperature energy-storage mass transfer case is used for heating in during winter.Like this, solar absorption energy-storing refrigerating of the present utility model system not only can be used for the refrigeration air-conditioner in summer, can also be used for heating winter heating.
In the utility model, the refrigeration output of Absorption Refrigerator also is connected with phase change cold-storage machine or underground cold accumulating liquid storehouse, is connected with refrigeration output load loop through phase change cold-storage machine or underground cold accumulating liquid storehouse.Described phase change cold-storage machine comprises as fluidization high-temperature phase-change cold-storage machine.Wherein, the high-temperature phase-change cool storage medium in the phase change cold-storage machine is fluidised ice slurry.Ice making main frame and Ice Storage Tank are carried out phase change cold-storage to water at low temperature, reach the purpose of utilizing the low ebb electricity further to realize phase transformation efficient storage cold.
The underground liquid storehouse that aforesaid underground heat accumulation liquid storehouse or cold accumulating liquid storehouse can be non-excavating construction; This underground liquid storehouse also is connected with an anti-season heat-exchanging water tank at least, and the anti-season heat-exchanging water tank utilizes the anti-season energy storage of carrying out summer or winter between the seasonal circumstance of temperature difference energy of nature and underground liquid storehouse.
In the utility model, in in high temperature energy-storage mass transfer case and the liquid circulation loop that is connected thereof middle high-temperature heat-transfer medium for the anti-operating temperature of boiling at 101 ℃-190 ℃ nanometer heat-transfer fluid or contain the anti-boiling conductive fluid of alcohols, wherein the Zui Jia anti-operating temperature of boiling is at 135 ℃-150 ℃.
In the utility model, described energy-accumulating water tank also can be connected institute through circulating pump by two water tanks of cycle heat exchange water tank and low temperature energy-accumulating water tank and form; Cycle heat exchange water tank wherein is arranged in the energy-storage solar thermal-arrest closed circuit, and the low temperature energy-accumulating water tank is connected with high temperature unilateral system heat driven heat pump in the water source; The cycle heat exchange water tank receives the heat that energy-storage solar thermal-arrest closed circuit produces, and stores in the low temperature energy-accumulating water tank through the circulating pump transfer heat.Like this, not only can reach the purpose that reduces single energy-accumulating water tank volume, the erection space of system can also reduce significantly, can significantly improve the operation stability of solar absorption energy-storing refrigerating system.
Aforesaid low temperature energy-accumulating water tank also can be connected with and comprise the big temperature difference unilateral system of source of the gas heat driven heat pump; When daytime, sunlight was not enough, it is less that solar thermal collector closed circuit 1 produces and be stored in the energy-accumulating water tank heat, can utilize the big temperature difference unilateral system of the source of the gas heat driven heat pump low ebb electricity period at night to propose operation, be transported to energy-accumulating water tank with heat absorption in the environment and after further heating.
The middle cryogenic heat transfer medium solution that matches with the low temperature energy-accumulating water tank, can be water, nanometer heat-transfer fluid or the solution that contains alcohols, also can be the phase change material operating temperature 45 ℃-99 ℃ contain water or nanometer heat-transfer fluid or contain the anti-boiling conductive fluid of alcohols or contain the middle low temperature phase change heat-storage medium solution of alcohol solution.
Description of drawings
Fig. 1 is the schematic diagram of a solar absorption energy-storing refrigerating embodiment of system of the present utility model;
Fig. 2 is the schematic diagram of solar absorption energy-storing refrigerating another embodiment of system of the present utility model;
Fig. 3 is the schematic diagram of the solar absorption energy-storing refrigerating another embodiment of system of the present utility model;
Fig. 4 is the schematic diagram to an embodiment after the further improvement embodiment illustrated in fig. 3;
Fig. 5 is the solar absorption energy-storing refrigerating of the present utility model system schematic diagram of an embodiment again.
The specific embodiment
For technological means, creative feature that the utility model is realized, reach purpose and effect is easy to understand, below in conjunction with concrete diagram, further set forth the utility model.
As shown in Figure 1, in the solar absorption energy-storing refrigerating system of present embodiment, comprise the energy-storage solar thermal-arrest closed circuit of mainly forming 1, comprise the middle high temperature solar heat collecting closed circuit of mainly forming 5 by middle high-temp solar heat collector 501, middle high temperature energy-storage mass transfer case 4, circulating pump P3 by solar thermal collector 101, energy-accumulating water tank 102, circulating pump P1.
Wherein, be connected with middle high temperature energy-storage mass transfer case 4 at energy-accumulating water tank 102 high temperature unilateral system heat driven heat pump 3 in a water source, promptly 3 of high temperature unilateral system heat driven heat pumps form the heat closed circuit through circulating pump P6 in energy-accumulating water tank 102 and water source, and 4 in high temperature unilateral system heat driven heat pump 3 and middle high temperature energy-storage mass transfer case also form the heat closed circuit through circulating pump P7 in the water source.
The heat that energy-storage solar thermal-arrest closed circuit 1 produces is stored in the aforesaid energy-accumulating water tank 102; In the aforesaid water source high temperature unilateral system heat driven heat pump 3 the low ebb electricity period with energy-accumulating water tank 102 in the heat heating, be transported in high temperature energy-storage mass transfer case 4; The heat demand of Absorption Refrigerator 6 after further being heated by middle high temperature solar heat collecting closed circuit 5, the heat of middle high temperature energy-storage mass transfer case 4 is provided.
In high temperature energy-storage mass transfer case 4 be connected with Absorption Refrigerator 6, promptly form the heat closed circuit through circulating pump P4 6 of middle high temperature energy-storage mass transfer case 4 and Absorption Refrigerators.The colling end of Absorption Refrigerator 6 connects refrigeration machine cooling tower circulation line 11 through circulating pump P5; The heat that displaces during the indoor refrigeration of 6 pairs of Absorption Refrigerators is lowered the temperature by air cooling by refrigeration machine cooling tower circulation line 11, heat is dispersed into outdoor.
Among this embodiment, Absorption Refrigerator 6 is connected to the load loop 61 of refrigeration output in summer behind phase change cold-storage machine 13.Described phase change cold-storage machine 13 comprises as fluidization high-temperature phase-change cold-storage machine.Wherein, the high-temperature phase-change cool storage medium that adopts in the phase change cold-storage machine 13 is fluidised ice slurry.Ice making main frame and Ice Storage Tank are carried out phase change cold-storage to the water at low temperature of Absorption Refrigerator 6 outputs, high-temp solar heat collector efficiently heats in the time of so can utilizing solar energy sufficient, Absorption Refrigerator has refrigeration cold output more than needed and utilize cold output the carrying out energy storage more than needed of night dip electricity period storage Absorption Refrigerator, for the refrigeration output on daytime of peak electricity period.
Among this embodiment, solar absorption energy-storing refrigerating system comprises high temperature unilateral system heat driven heat pump 3, middle high temperature solar heat collecting closed circuit 5 in the solar energy heating closed circuit 1, water source of energy storage operation, successively carry out classification heating, classification storage refrigeration machine institute calorific requirement, the cycling service of day and night is as follows:
1. by day, solar thermal collector 101 absorbs solar energy and heat delivery is preserved to energy-accumulating water tank 102, so that offer high temperature unilateral system heat driven heat pump in the water source evening;
2. at night, start high temperature unilateral system heat driven heat pump 3 in circulating pump P6, the water source, the heat in the energy-accumulating water tank 102 is further heated, and high temperature energy-storage mass transfer case 4 in being transported to;
3. daytime next day, middle high-temp solar heat collector 501 absorbs solar energy, further adds and pines for heat in the high temperature energy-storage mass transfer case 4, heat demand so that the refrigerating operaton of Absorption Refrigerator 4 to be provided.
Among this embodiment, successively heat is improved step by step by energy-storage solar thermal-arrest closed circuit 1, moderate and high temperature heat 3, middle high temperature solar heat collecting closed circuit 5, can so that Absorption Refrigerator 6 in the temperature of heat medium water reach about 90 ℃ to 130 ℃, the COP of Absorption Refrigerator is reached about 1.0 to 1.2, increase substantially refrigerating efficiency.In the solar absorption energy-storing refrigerating system of this embodiment, the heat that offers Absorption Refrigerator 6 is mainly derived from solar energy heating (energy-storage solar thermal-arrest closed circuit 1, middle high temperature solar heat collecting closed circuit 5), utilized night dip electricity period electric energy to heat up and shift heat in addition through heat pump, and the cooling water heat of discharging when Absorption Refrigerator worked carries out heat recovery through colling end energy-accumulating water tank 7 and water resource heat pump 8 and utilizes, makes this refrigeration system realize low-cost all-weather highly effective refrigeration operation.
Driving by high-temp solar heat collector in directly utilizing daytime, the colling end heat recovery and utilization of Absorption Refrigerator, and night dip electricity period low-temperature water heating that energy-storage solar thermal-arrest closed circuit and heat recovery are produced utilize moderate and high temperature heat to heat up to move heat, satisfy the efficient operation heat supply requirement of Absorption Refrigerator, add with the peak load shifting formula air conditioner refrigerating pattern of phase change cold-storage and combine, so just can exempt increase refrigeration plant afterload rise significantly cause to the requirement of electrical network extending capacity reformation.
Among this embodiment, in the middle high temperature energy-storage mass transfer case 4, and the middle high-temperature heat-transfer medium 401 in the liquid that is connected with the middle high temperature energy-storage mass transfer case 4 stream closed circuit (the liquid stream closed circuit that comprises 6 of the liquid stream closed circuit of 4 of high temperature unilateral system heat driven heat pumps 3 and middle high temperature energy-storage mass transfer case in the water source, middle high temperature solar heat collecting closed circuit 5, middle high temperature energy-storage mass transfer case 4 and Absorption Refrigerators) is for resisting the operating temperature of boiling at 101 ℃-190 ℃ nanometer heat-transfer fluid or contain the anti-boiling conductive fluid of alcohols, and wherein the Zui Jia anti-operating temperature of boiling is at 135 ℃-150 ℃.
3 pairs of energy-accumulating water tanks 102 of moderate and high temperature heat move heat and heating, with the heating after heat delivery in middle high temperature energy-storage mass transfer case 4, heat transfer medium 401 temperature in the middle high temperature energy-storage mass transfer case 4 are at least more than 80 ℃, in in the high temperature energy-storage mass transfer case 4 heat transfer medium 401 through in after the further heating of high temperature solar heat collecting closed circuit 5, temperature can reach more than 100 ℃, and the best can reach about 130 ℃.The anti-boiling conductive fluid of selecting to resist the higher nanometer heat-transfer fluid of the operating temperature of boiling or containing alcohols, can avoid liquid heat transfer medium to produce high pressure, avoid producing high pressure reaches the heat closed circuit that links to each other with middle high temperature energy-storage mass transfer case 4 to Absorption Refrigerator, middle high temperature energy-storage mass transfer case 4 harmful effect because of the phase transformation vaporization.
Among this embodiment, can have tap water supply pipeline K1 and domestic hot-water's output interface K2 on the energy-accumulating water tank 102.Domestic hot-water's energy-accumulating water tank (not shown) that also can connect a plurality of mutual parallel connections behind the energy-accumulating water tank 102 domestic hot-water's output interface K2 in the energy-storage solar thermal-arrest closed circuit 1 comprises providing the heat accumulation water temperature for 25 ℃-40 ℃ hot wash-water heat storage water tank with the heat accumulation water temperature is provided is 45 ℃ and above bath hot water heat storage water tank.
Among this embodiment, the automatically controlled device in each closed circuit, circulating pump, and high temperature unilateral system heat driven heat pump, Absorption Refrigerator, phase change cold-storage machine are electrically connected with controller 12 respectively in the water source.Described automatically controlled device comprises electricity consumption device commonly used in the building and heating air-conditioning systems such as the hot-water heating system such as solar energy of automatically controlled execution components and parts, water pump and electric heater etc. of sensor, electrically-controlled valve and solar energy.
Figure 2 shows that another embodiment, be that with the main distinction embodiment illustrated in fig. 1 the colling end of the Absorption Refrigerator 6 of solar absorption energy-storing refrigerating system is connected colling end energy-accumulating water tank 7.In addition, embodiment illustrated in fig. 2 in, energy-accumulating water tank is connected to form through circulating pump P2 by cycle heat exchange water tank 102 and 2 two water tanks of low temperature energy-accumulating water tank.
Among this embodiment, energy-accumulating water tank has adopted by cycle heat exchange water tank 102 and 2 two water tanks of low temperature energy-accumulating water tank and has connected to form, and promptly forms the heat closed circuit 2 of cycle heat exchange water tank 102 and low temperature energy-accumulating water tanks through circulating pump P2.Cycle heat exchange water tank 102 is positioned on the energy-storage solar thermal-arrest closed circuit 1, and low temperature energy-accumulating water tank 2 is connected with high temperature unilateral system heat driven heat pump 3 in the water source; Cycle heat exchange water tank 102 receives the heat that energy-storage solar thermal-arrest closed circuit produces, and preserves to low temperature energy-accumulating water tank 2 through circulating pump P2 transfer heat.Like this, not only can reach the purpose that reduces single energy-accumulating water tank volume, can also significantly improve the operational efficiency of solar absorption energy-storing refrigerating system and the efficient of Absorption Refrigerator colling end heat recovery operation.Obviously, the energy-accumulating water tank 102 in embodiment illustrated in fig. 1 also can be replaced by cycle heat exchange water tank 102 and 2 two water tanks of low temperature energy-accumulating water tank, and reaches the identical effect of Fig. 2 embodiment.
Among this embodiment, the colling end of Absorption Refrigerator 6 connects colling end energy-accumulating water tank 7, promptly forms the heat closed circuit 7 of Absorption Refrigerator 6 and colling end energy-accumulating water tanks through circulating pump P5.Colling end energy-accumulating water tank 7 is connected with low temperature energy-accumulating water tank 2, promptly 2 of colling end energy-accumulating water tank 7 and low temperature energy-accumulating water tanks through forming the heat closed circuit through circulating pump P10.Also can have tap water supply pipeline K5 and domestic hot-water's output interface K6 on the colling end energy-accumulating water tank 7, the domestic hot-water of bathing as the aforementioned or washing usefulness can outwards be provided by domestic hot-water's output interface K6.
The heat delivery that displaces during the indoor refrigeration of 6 pairs of Absorption Refrigerators stores to colling end energy-accumulating water tank 7, colling end energy-accumulating water tank 7 provides the domestic hot-water or/and again through 8 heating of water source unilateral system heat driven heat pump through output interface K6, wherein, water source unilateral system heat driven heat pump 8 is big temperature difference water source unilateral system heat driven heat pumps, by from colling end energy-accumulating water tank 7, moving heat and heating, heat delivery stored in the low temperature energy-accumulating water tank 2 and recycling.Like this, solar absorption energy-storing refrigerating of the present utility model system can not only reach the purpose that the room conditioning cooling is provided, also the heat absorption in the original indoor environment can be stored in the colling end energy-accumulating water tank 7 and utilize again, utilize the cooling heat of 8 pairs of absorption refrigerations of water source unilateral system heat driven heat pump to reclaim, realize the secondary utilization of the energy and the low-cost high-efficiency operation of system, and eliminated the thermal pollution discharging of Absorption Refrigerator to environment, than prior art environmental protection and energy saving more.
Figure 3 shows that another embodiment of the present utility model, be that with the main distinction embodiment illustrated in fig. 2 the colling end of the Absorption Refrigerator 6 of solar absorption energy-storing refrigerating system is connected soil buried tube type heat exchanger 10, promptly at Absorption Refrigerator 6 colling ends and 10 heat closed circuits that form heat radiation and heat accumulation through circulating pump P5 of soil buried tube type heat exchanger.
The heat that displaces during the indoor refrigeration of 6 pairs of Absorption Refrigerators by soil buried tube type heat exchanger 10 bury be stored in underground.The cold water output of Absorption Refrigerator is connected with phase change cold-storage machine 13, at this moment, circulating pump P11 starts, and valve K8 opens, when valve K9 closes, only 6 of phase change cold-storage machine 13 and Absorption Refrigerators through forming the heat closed circuit, the cold that Absorption Refrigerator 6 produces is stored in the phase change cold-storage machine 13, and when the load loop 61 of refrigeration output in summer needs cold is exported.
With respect to the face of land, common underground rock-soil layer temperature below 5 meters is less with seasonal variations, has heat-retaining condition preferably, can be as energy storage or heat radiation heat exchange.The heat of discharging during indoor refrigeration is stored into underground, can not only anti-season utilize, and the intensification that can exempt face of land environment temperature influences the reduction thermal pollution again.In addition, embodiment illustrated in figures 1 and 2 relatively, among the embodiment that Fig. 3 provides, Absorption Refrigerator 6 and 61 of output loops of refrigeration are except being connected phase change cold-storage machine 13, also be connected in parallel in and be arranged on underground cold accumulating liquid storehouse 15, this underground cold accumulating liquid storehouse 15 also can be connected with anti-season heat-exchanging water tank 16, i.e. 16 closed circuits that form an exchange heat through circulating pump P11 of cold accumulating liquid storehouse 15 and anti-season heat-exchanging water tank.This anti-season heat-exchanging water tank 16 is as exchanging with the Nature heat.Winter, through anti-season heat-exchanging water tank 16 the environment cold is changeed and to store underground cold accumulating liquid storehouse 15 into, the cold when again the cold of cold accumulating liquid library storage being offered refrigeration output loop 61 summer and being used to freeze output replenishes, with this further energy savings; In like manner, also can amount of heat be changeed to store in another underground heat accumulation liquid storehouse 14 summer and go, be made for the heating in winter through anti-season heat-exchanging water tank 16.
In addition, when heat is higher in the central high temperature energy-storage mass transfer case 4, can cause Absorption Refrigerator 6 to produce output cold more than needed, cold accumulating liquid storehouse 15 also can be used for temporarily storing Absorption Refrigerator output cold more than needed in summer, and the refrigeration output when being made for sun deficiency replenishes.At this moment, circulating pump P11 starts, and valve K8, valve K9 all opens, be stored in the phase change cold-storage machine 13 and be made for the output except form cold that heat transmission closed circuit produces Absorption Refrigerator 66 of phase change cold-storage machine 13 and Absorption Refrigerators, also can form one 6 of cold accumulating liquid storehouse 15 and Absorption Refrigerators and switch the heat transmission closed circuit that is connected, the cold that Absorption Refrigerator 6 is produced can be stored in the cold accumulating liquid storehouse 15, so that heat is less in the middle high temperature energy-storage mass transfer case 4, when the cold that Absorption Refrigerator 6 produces is not enough, being substituted by cold accumulating liquid storehouse 15 provides refrigeration output in summer, satisfies the refrigeration requirement of load loop 61.
Heat is higher in the central high temperature energy-storage mass transfer case 4, the cold that causes Absorption Refrigerator 6 to produce is a lot, and when simultaneously load loop 61 refrigeration demand of refrigeration output in summer are low, the cold that Absorption Refrigerator 6 produces can be stored in the cold accumulating liquid storehouse 15, at this moment, start circulating pump P11, and valve K8 closes, valve K9 opens, carry out the cold storage in cold accumulating liquid storehouse 15 and 6 formation of Absorption Refrigerator heat transmission closed circuit, so that provide cold to replenish when providing load loop 61 demands of refrigeration output in summer excessive or substitute, reach further energy-conservation and the purpose of falling.Obviously, in embodiment illustrated in figures 1 and 2, also can be connected underground cold accumulating liquid storehouse 15 at 61 of the load loops of Absorption Refrigerator 6 and refrigeration output in summer, underground cold accumulating liquid storehouse 15 also can be connected to anti-season heat-exchanging water tank 16, and reaches identical effect embodiment illustrated in fig. 3.
To embodiment shown in Figure 3, on energy-accumulating water tank 2, also can be connected with the big temperature difference unilateral system of source of the gas heat driven heat pump at Fig. 1; When daytime, sunlight was not enough, it is less that solar thermal collector closed circuit 1 produces and be stored in the energy-accumulating water tank heat, can utilize the big temperature difference unilateral system of source of the gas heat driven heat pump 9 in the period operation of night dip electricity, flow to energy-accumulating water tank with heat absorption in the environment and after further heating.The described big temperature difference heats heat pump and is meant that all heating front and back temperature rise can reach the unilateral system heat driven heat pump about 35 ℃-50 ℃.
To embodiment shown in Figure 3, on middle high temperature energy-storage mass transfer case 4, also can be connected with the conventional energy resource assisted heating device at Fig. 1.When the sunlight deficiency, when the heat that causes energy-storage solar thermal-arrest closed circuit 1, middle high temperature solar heat collecting closed circuit 5 to produce is all not enough, can utilize in electric heater, the boiler etc. high temperature conventional energy resource assisted heating device that heat is provided and be stored in drive for refrigeration in temperature or the high temperature energy-storage mass transfer case 4.
Fig. 4 is to aforementioned further improvement embodiment illustrated in fig. 3.The colling end of Absorption Refrigerator also can be arranged in the underground heat accumulation liquid storehouse 14, and underground heat accumulation liquid storehouse 14 is connected with colling end energy-accumulating water tank 7, promptly forms heat transmission closed circuit 7 of underground heat accumulation liquid storehouse and colling end energy-accumulating water tanks through circulating pump P5.During summer, the heat that displaces during the indoor refrigeration of 6 pairs of Absorption Refrigerators is stored in the underground heat accumulation liquid storehouse 14 by the colling end heat release, during winter, by circulating pump P5 the heat that stores in the heat accumulation liquid storehouse 14 is transferred to colling end energy-accumulating water tank 7, colling end energy-accumulating water tank 7 provides the domestic hot-water or/and again through 8 heating of big temperature difference water source unilateral system heat driven heat pump through output interface K6, give low temperature energy-accumulating water tank 2 with heat delivery, be made for high temperature unilateral system heat driven heat pump extraction heat in the water source, winter heating output is provided.Like this, the solar absorption energy-storing refrigerating system of present embodiment can not only reach the purpose of indoor refrigeration cool-down in summer, the heat absorption in the summer indoor environment can also be stored into underground, by the time winter, output was used.Like this, not only realize the anti-season energy storage utilization of the energy, but also reached the recycling environmental protection and energy saving tidemark of the part energy.
Similar with the cold accumulating liquid storehouse 15 in embodiment illustrated in fig. 3, heat accumulation liquid storehouse 14 in shown in Figure 5 also can be connected with an anti-season heat-exchanging water tank, and the anti-season heat-exchanging water tank utilizes anti-season energy storage and the utilization of carrying out summer or winter between the natural energy of environment and underground liquid storehouse.At this moment, the changeable load loop 62 that is connected with winter heating output on the middle high temperature energy-storage mass transfer case 4; High temperature energy-storage mass transfer case 4 can provide heat to be used for heating in during winter.Like this, the solar absorption energy-storing refrigerating system of this embodiment not only can freeze summer, can also heat winter.Obviously, for embodiment illustrated in fig. 3, can on middle high temperature energy-storage mass transfer case 4, be connected with the load loop 62 of winter heating output equally, provide heat to be used for the heating in winter, simultaneously, this solar absorption energy-storing refrigerating system secondary utilization and part that also can realize the energy is recycling.
Described underground heat accumulation liquid storehouse 14 or cold accumulating liquid storehouse 15 can be the underground liquid storehouses through non-excavating construction, underground liquid lab setting is underground below 5 meters or in first aquifer, with the effect that improves underground heat exchange and heat accumulation simultaneously and reduce influence, reduce construction volume or construction cost to the ground land seizure.
Be another embodiment of solar absorption energy-storing refrigerating system as shown in Figure 5, also be further improvement and the combination that all embodiment of Fig. 1 to Fig. 4 are carried out, wherein, the colling end of Absorption Refrigerator 6 can select to be connected to refrigeration machine cooling tower circulation line 11 or colling end energy-accumulating water tank 7 or soil buried tube type heat exchanger 10 as required.
The solar absorption energy-storing refrigerating system of this embodiment, comprise the energy-storage solar thermal-arrest closed circuit of mainly forming 1 by solar thermal collector 101, automatically controlled device, cycle heat exchange water tank 102 and circulating pump P1, thermal-arrest cycle heat exchange medium 201, comprise heat transfer medium solution 201, energy-accumulating water tank 102, with water source that energy-accumulating water tank 102 links to each other in high temperature unilateral system heat driven heat pump 3, comprise the Absorption Refrigerator 6 of band refrigeration machine cooling tower closed circuit 11.
High-temp solar heat collector 501, circulating pump P3 and automatically controlled device in being connected with on the middle high temperature energy-storage mass transfer case 4, high temperature solar heat collecting closed circuit 5 in constituting with high temperature energy-storage mass transfer case in this 4, in this in high temperature solar heat collecting closed circuit 5 and the described water source high temperature unilateral system heat driven heat pump 3 be in parallel and be connected.Wherein, in described high-temp solar heat collector 501 be meant heating-up temperature can reach 80 ℃-120 ℃ or above in-high-temp solar heat collector and operating temperature be at the high-temp solar heat collector more than 125 ℃; In the described water source high temperature unilateral system heat driven heat pump 3 be meant before and after the heating that temperature rise can reach that 20 ℃-40 ℃ or above, heating output temperature can reach in the water source more than 80 ℃ before and after warm unilateral system heat driven heat pump and the heating that temperature rise reaches that 25 ℃-50 ℃ or above, heating output temperature can reach more than 85 ℃ at least or even the water source more than 100 ℃ in-high temperature or high temperature unilateral system heat driven heat pump.And the heat pump that adopts in the existing solar heat pump technology is meant all that temperature rise reaches about 20-30 ℃ before and after the heating, the heating output temperature can reach about 55 ℃ common heat pump and also be generally air supply heat pump, it is worthy of note especially: when adopting the common heat pump to replace or the imagination to replace specific above-mentioned middle high temperature unilateral system heat driven heat pump of the utility model and big temperature difference unilateral system heat driven heat pump, can not realize and reach the technical solution of the utility model and invention effect fully, can not be equal to fully between the two.
In the present embodiment, the one end water inlet pipe and water outlet pipe of colling end energy-accumulating water tank 7 and refrigeration machine cooling tower 11 circulation lines of Absorption Refrigerator 6 colling ends are connected in parallel, and its other end water inlet pipe and water outlet pipe constitutes heat supply output circulation line through described big temperature difference water source unilateral system heat driven heat pump 8, circulating pump P10, circulating pump P9 with the water inlet pipe and water outlet pipe of described low temperature energy-accumulating water tank 2 and is connected.It is between the two through the two-tube connection of circulation line back and forth that circulation line connects.All have tap water supply pipeline K1, K5 and domestic hot-water's output interface K2, K6 on cycle heat exchange water tank 102 and the colling end energy-accumulating water tank 7.
Have tap water supply pipeline K1 and domestic hot-water's output interface K2 on the cycle heat exchange water tank 102.The domestic hot-water's energy-accumulating water tank that also connects a plurality of mutual parallel connections behind cycle heat exchange water tank 102 domestic hot-water's output interface K2 in the energy-storage solar thermal-arrest closed circuit 1 is (although not shown among Fig. 5, but do not influence usually to this set and the understanding that is connected), comprise that the heat accumulation water temperature is that 25 ℃-40 ℃ hot wash-water heat storage water tank and heat accumulation water temperature is 45 ℃ and above bath hot water heat storage water tank.In addition, also can be by tap water supply pipeline K5 and the domestic hot-water's output interface K6 that has on the colling end energy-accumulating water tank 7, under supplying water, obtains in top water domestic hot-water as bathing or washing usefulness.
The cycle heat exchange water tank 102 of energy-storage solar thermal-arrest closed circuit 1, big temperature difference water source unilateral system heat driven heat pump 8 constitute heat supply output circulation line through circulating pump P2, P10 with low temperature energy-accumulating water tank 2 respectively and are connected; The input of high temperature unilateral system heat driven heat pump 3 is connected with low temperature energy-accumulating water tank 2 circulation lines through its circulating pump P6 in the water source; The input of the heat supply end of high temperature unilateral system heat driven heat pump 3, Absorption Refrigerator 6 is connected with middle high temperature energy-storage mass transfer case 4 circulation lines through circulating pump P7, P4 respectively in this water source; Low temperature energy-accumulating water tank 2 high temperature unilateral system heat driven heat pump 3 and circulating pump P7 in this water source constitute heat supplies output circulation lines with middle high temperature energy-storage mass transfer case 4 and are connected; Low temperature energy-accumulating water tank 2 high temperature unilateral system heat driven heat pump 3 and circulating pump P7 in this water source constitute heat supplies transmission circulation lines with middle high temperature energy-storage mass transfer case 4 and are connected; Automatically controlled device in each closed circuit and the circulation line, circulating pump and above-mentioned water source unilateral system heat driven heat pump are electrically connected with controller 12 respectively.Also can be connected with the load loop of winter heating output on low temperature energy-accumulating water tank 2 and the middle high temperature energy-storage mass transfer case 4 respectively through its circulating pump, can include heating pipelines such as radiator, low temperature floor radiation in the load loop of winter heating output.
Low temperature energy-accumulating water tank 2 also is connected with the big temperature difference unilateral system of source of the gas thermoelectric heatpump 9 through circulating pump P8, is used for when sunshine is not enough, utilizes the electric energy of paddy electricity period at night, and low temperature energy-accumulating water tank 2 is carried out supplementary energy compensation electrical heating.The operating temperature of the low temperature of above-mentioned closed circuit and heating and energy-accumulating water tank, middle temperature or high temperature is to delimit according to the convention of solar energy optical-thermal industry, wherein, below 80 ℃ low temperature, 80 ℃-120 ℃ is middle temperature, be higher than and be high temperature more than 120 ℃, between 80 ℃ be middle high temperature more than-120 ℃, wherein, also often be called as high temperature to above liquid heating-up temperature between 100 ℃.
At least comprise a circulating pump P5 in the refrigeration machine cooling tower closed circuit 11 that Absorption Refrigerator 6 has.Go back parallel connection in the refrigeration machine cooling tower closed circuit 11 of Absorption Refrigerator 6 and be connected with soil buried tube type heat exchanger 10.The refrigeration machine cooling tower closed circuit 11 of Absorption Refrigerator 6 is to adopt the selectivity of electric three-way valve K4 to be connected in parallel with being connected in parallel of soil buried tube type heat exchanger 10 or colling end energy-accumulating water tank 7.Absorption Refrigerator 6 comprises corollary equipment used in the prior art.Also have the phase change cold-storage machine that connects refrigeration output on the refrigeration low-temperature water output of Absorption Refrigerator 6, described phase change cold-storage machine comprises as fluidization high-temperature phase-change cold-storage machine, wherein, high-temperature phase-change cool storage medium in the phase change cold-storage machine is fluidised ice slurry, through ice making main frame and Ice Storage Tank water at low temperature is carried out phase change cold-storage, because phase change cold-storage machine and Absorption Refrigerator 6 utilize the electric work of low ebb at night simultaneously, can reach the environmental protection and energy saving effect that the cold that utilizes the low ebb electricity further to realize phase transformation efficient storage cold and release storage by day carries out peak load shifting formula air conditioner refrigerating.Adopt electric three-way valve K3 to connect at soil buried tube type heat exchanger 10, Absorption Refrigerator 6,11 of refrigeration machine cooling recirculation systems.
The middle cryogenic heat transfer medium solution 201 that matches with low temperature energy-accumulating water tank 2 comprises water, nanometer heat-transfer fluid or contains the anti-boiling conductive fluid of alcohols, or the phase change material operating temperature is 45 ℃-99 ℃ contain water, nanometer heat-transfer fluid or contain the middle low temperature phase change heat-storage medium solution of the anti-boiling conductive fluid of alcohols.Employing water when adopting direct heat transfer to be connected between cycle heat exchange water tank and low temperature energy-accumulating water tank, if between the two when heat exchanger carries out the indirect heat exchange connection, can adopt nanometer heat-transfer fluid or alcohols or contain a kind of among the aqueous solution of alcohols, or the phase change material operating temperature is 45 ℃-99 ℃ contain water or nanometer heat-transfer fluid or contain the anti-boiling conductive fluid of alcohols or contain the middle low temperature phase change heat-storage medium solution of alcohol solution.
The middle high-temperature heat-transfer medium solution 401 that matches with middle temperature or high temperature energy-storage water tank, should in high-temperature heat-transfer medium solution be the anti-operating temperature of boiling at 101 ℃-190 ℃ or above nanometer heat-transfer fluid, contain the anti-boiling conductive fluid of alcohols, or the anti-middle high-temperature phase-change heat storage medium solution of operating temperature that boil at the solution of 101 ℃-190 ℃ or the above anti-boiling conductive fluid that contains nanometer heat-transfer fluid or alcohols.
The operation principle of the solar absorption energy-storing refrigerating system of this embodiment is as follows:
Solar thermal collector 101 when sunny, the big temperature difference unilateral system of source of the gas heat driven heat pump 9 low ebb electricity period at night when sunlight is not enough, produce heat and be stored in low temperature energy-accumulating water tank 2 → water source high temperature unilateral system heat driven heat pump 3 further will promote after the heating heat be stored in high temperature energy-storage mass transfer case 4 → middle high-temp solar heat collector 501 during further heating promotes high temperature energy-storage mass transfer case 4 heats → Absorption Refrigerator 6 refrigeration consumption of calorie export refrigeration low-temperature water or water-based cold accumulating liquid body mediums, phase change cold-storage machine 13 phase change cold-storages, and freeze through cooling circuit 61 output, make the average COP of Absorption Refrigerator can reach more than 0.9, simultaneously, through the colling end of Absorption Refrigerator 6 with indoor heat:
Through refrigeration machine cooling tower closed circuit 11 by air cooling lower the temperature be dispersed into outdoor; Or
2. be transported in the colling end energy-accumulating water tank 7 and exchange, K6 provides the domestic hot-water by output interface, or through water source unilateral system heat driven heat pump 8 further after the heating to low temperature energy-accumulating water tank 2 transfer of heat, thereby repeat above-mentioned circulation once more; Or
3. flow to soil buried tube type heat exchanger 10 and exchange, heat is buried be stored in undergroundly, will be stored in underground heat again winter and carry out above-mentioned 2 circulation.
In addition, the load loop 62 of winter heating output can also be connected on the heat circulation line of middle high temperature energy-storage mass transfer case 4 and 6 of Absorption Refrigerators through triple valve K7, heating pipelines such as radiator, low temperature floor radiation can be comprised in the load loop 62 of winter heating output.Like this, the solar absorption energy-storing refrigerating system of this embodiment can not only realize the refrigeration in summer, can also winter heating, obtain environmental protection and energy saving more, low-cost all-weather highly effective refrigeration operational effect.
More than be one of embodiment of the present utility model,, do not spend performing creative labour, on the basis of the foregoing description, can do multiple variation, can realize the purpose of this utility model equally for those skilled in the art.But this variation obviously should be in the protection domain of claims of the present utility model.
Claims (10)
1. solar absorption energy-storing refrigerating system, comprise solar thermal collector, moderate and high temperature heat, Absorption Refrigerator (6), wherein the heat of solar thermal collector generation provides the heat demand of Absorption Refrigerator (6) after the moderate and high temperature heat heating, it is characterized in that:
A, this solar absorption energy-storing refrigerating system also comprise the middle high temperature solar heat collecting closed circuit of mainly being made up of middle high-temp solar heat collector (501), middle high temperature energy-storage mass transfer case (4), middle high-temperature heat-transfer medium (5);
B, aforementioned solar thermal collector are connected with energy-accumulating water tank, form the energy-storage solar thermal-arrest closed circuit (1) of time-sharing heating;
C, aforementioned moderate and high temperature heat (3) are that the heating output temperature is higher than high temperature unilateral system heat driven heat pump in 80 ℃ the water source, and energy-accumulating water tank high temperature unilateral system heat driven heat pump (3) in this water source is connected with middle high temperature energy-storage mass transfer case (4);
The heat that D, energy-storage solar thermal-arrest closed circuit (1) produce is stored in the aforesaid energy-accumulating water tank.
2. solar absorption energy-storing refrigerating according to claim 1 system is characterized in that the colling end of described Absorption Refrigerator (6) is connected with refrigeration machine cooling tower circulation line (11).
3. solar absorption energy-storing refrigerating according to claim 1 system, the colling end that it is characterized in that described Absorption Refrigerator (6) is connected with the colling end energy-accumulating water tank, and this colling end energy-accumulating water tank is connected with energy-accumulating water tank through water source unilateral system heat driven heat pump (8).
4. solar absorption energy-storing refrigerating according to claim 1 system is characterized in that the colling end of described Absorption Refrigerator (6) is connected with soil buried tube type heat exchanger (10).
5. solar absorption energy-storing refrigerating according to claim 4 system, it is characterized in that: the colling end of described Absorption Refrigerator (6) is connected with underground heat accumulation liquid storehouse (14).
6. solar absorption energy-storing refrigerating according to claim 1 system is characterized in that: also switch the load loop (62) that is connected with winter heating output in described on the high temperature energy-storage mass transfer case (4).
7. according to the claim 2 described solar absorption energy-storing refrigerating of each claim system to the claim 5, it is characterized in that: the refrigeration output of described Absorption Refrigerator (6) also is connected with phase change cold-storage machine (13) or underground cold accumulating liquid storehouse (15), is connected with the load loop (61) of refrigeration output in summer through phase change cold-storage machine (13) or underground cold accumulating liquid storehouse (15).
8. solar absorption energy-storing refrigerating according to claim 7 system, it is characterized in that: described underground liquid storehouse also is connected with anti-season heat-exchanging water tank (16) at least.
9. solar absorption energy-storing refrigerating according to claim 1 system is characterized in that: the middle high-temperature heat-transfer medium in described in high temperature energy-storage mass transfer case (4) and the liquid stream closed circuit that is connected thereof for the anti-operating temperature of boiling 101 ℃-190 ℃ nanometer heat-transfer fluid or anti-boiling conductive fluid.
10. solar absorption energy-storing refrigerating according to claim 1 system is characterized in that: described energy-accumulating water tank is connected institute by (2) two water tanks of cycle heat exchange water tank (102) and low temperature energy-accumulating water tank through circulating pump (P2) and forms; Wherein, this cycle heat exchange water tank (102) is arranged in the energy-storage solar thermal-arrest closed circuit (1), and this low temperature energy-accumulating water tank (2) is connected with high temperature unilateral system heat driven heat pump (3) in the aforementioned water source; The heat that solar energy heating closed circuit (1) produces is transported to the low temperature energy-accumulating water tank (2) via circulating pump (P2) from cycle heat exchange water tank (102) and stores.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN102494437A (en) * | 2011-11-25 | 2012-06-13 | 武汉凯迪控股投资有限公司 | Cross-season energy-storage cold and heat supplying system |
CN102563960A (en) * | 2010-12-20 | 2012-07-11 | 新奥科技发展有限公司 | Solar combined cooling, heating and power system |
CN108251074A (en) * | 2018-01-03 | 2018-07-06 | 北京今日能源科技发展有限公司 | A kind of 89 degree of phase-changing energy storage materials |
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2009
- 2009-03-18 CN CN2009200690016U patent/CN201662276U/en not_active Expired - Fee Related
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
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CN102563960A (en) * | 2010-12-20 | 2012-07-11 | 新奥科技发展有限公司 | Solar combined cooling, heating and power system |
CN102563960B (en) * | 2010-12-20 | 2015-11-25 | 新奥科技发展有限公司 | Solar cold thermoelectricity combined supply system |
CN102494437A (en) * | 2011-11-25 | 2012-06-13 | 武汉凯迪控股投资有限公司 | Cross-season energy-storage cold and heat supplying system |
EP2784412A4 (en) * | 2011-11-25 | 2015-07-22 | Sunshine Kaidi New Energy Group Co Ltd | Seasonal energy-storage cooling and heating system |
CN108251074A (en) * | 2018-01-03 | 2018-07-06 | 北京今日能源科技发展有限公司 | A kind of 89 degree of phase-changing energy storage materials |
CN108251074B (en) * | 2018-01-03 | 2020-08-07 | 北京今日能源科技发展有限公司 | 89-degree phase change energy storage material |
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