CN203798594U - Water-glycol type water source heat pump machine set performance testing device - Google Patents
Water-glycol type water source heat pump machine set performance testing device Download PDFInfo
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- CN203798594U CN203798594U CN201420073691.3U CN201420073691U CN203798594U CN 203798594 U CN203798594 U CN 203798594U CN 201420073691 U CN201420073691 U CN 201420073691U CN 203798594 U CN203798594 U CN 203798594U
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Abstract
The utility model discloses a water-glycol type water source heat pump machine set performance testing device comprising a condenser water circulation system, a heat exchange system, an evaporator glycol circulation system and a glycol solution storage system which are connected in turn, and a heat dissipation system which is connected with the condenser water circulation system. Performance parameters of a water-glycol type water source heat pump machine set, such as refrigerating capacity, refrigeration power consumption and refrigeration energy efficiency ratio, and technical parameters, such as evaporator inlet and outlet water temperature, condenser inlet and outlet water temperature, evaporator inlet and outlet differential pressure, condenser inlet and outlet differential pressure, evaporator water flow and condenser water flow, can be accurately measured by the device so that important means are provided for performance tests and development and research of the water-glycol type water source heat pump machine set, and balance between heat generated by a condenser side of the water measured machine set and cooling capacity generated by an evaporator side is realized. Therefore, the device has advantages of being high in energy utilization rate and low in operation cost, and the all-weather and all-condition tests are met.
Description
Technical field
The utility model belongs to water source heat pump units test unit field, is specifically related to a kind of water-ethylene glycol type water source heat pump units performance testing device.
Background technology
Water source heat pump units is that one is utilized earth surface or shallow-layer water source (as underground water, river and lake), or artificial regeneration water source (industrial waste water, underground heat tail water etc.) not only can heat supply but also the high-efficiency energy-saving air conditioning system that can freeze.
It is crucial technical barrier that energy saving, the reliability that water source heat pump units is carried out system, optimization and how further to be improved such unit becomes.Being widely used of water source heat pump units also makes corresponding test macro and measuring technology face larger opportunity, also product test had higher requirement.
Traditional water source heat pump units performance testing device adopts water tank type, in test board, comprises three water tanks such as boiler, cold water storage cistern and mixing (middle temperature) water tank, and the medium that condenser side and vaporizer side all use is all water.0 DEG C of heat source side inflow temperature when the underground loop-type water source heat pump units name heating condition of country's Plays regulation, leaving water temperature is according to the definite discharge of nominal cooling condition, now leaving water temperature is inevitable lower than 0 DEG C, the leaving water temperature of minimum operation and variable parameter operation operating mode also can be lower than 0 DEG C, water build-ups ice below at 0 DEG C, therefore will test underground loop-type water source heat pump units, vaporizer side uses ethylene glycol solution medium.
Water-ethylene glycol type water source heat pump units performance testing device is a kind of test unit that performance test under test operation condition environment can be provided for water-ethylene glycol type water source heat pump units, refrigerating capacity that can Accurate Determining water-ethylene glycol type water source heat pump units, performance parameter and the evaporator Inlet and outlet water temperature such as refrigeration consumed power and refrigeration efficiency compare, condenser Inlet and outlet water temperature, evaporator inlet-outlet pressure reduction, condenser inlet outlet pressure differential, evaporator water flow, the technical parameters such as Water in Condenser flow, for performance test and the development research of water-ethylene glycol type water source heat pump units provide important means.
Summary of the invention
Technical matters: the utility model provides that a kind of capacity usage ratio is high, the steadily reliable and accurate water-ethylene glycol type of test result water source heat pump units performance testing device of operating mode.
Technical scheme: a kind of water-ethylene glycol type water source heat pump units performance testing device of the present utility model, comprise the Water in Condenser circulation system, heat-exchange system, evaporator Glycol Circulation System and the ethylene glycol solution storage system that connect successively, and the heat dissipation system being connected with the described Water in Condenser circulation system; The described Water in Condenser circulation system comprises the first threeway, the second threeway, the 3rd threeway, the 4th threeway, the first water pump and the first flow meter that connect successively, and the import of described the first water pump is connected with the 4th threeway, and outlet is connected with first flow meter; Described evaporator Glycol Circulation System comprises the 5th threeway, the 6th threeway, the 7th threeway, the second water pump, the second flowmeter that connect successively, and the expansion tank being connected with described the 7th threeway, the import of described the second water pump is connected with the 7th threeway, and outlet is connected with the second flowmeter; Described heat-exchange system comprises the 3rd water pump, ethylene glycol plate type heat exchanger, the 4th water pump, the import of described the 3rd water pump is connected with the second threeway, the 3rd water delivery side of pump is connected with the cooling water inlet end of ethylene glycol plate type heat exchanger, the ethylene glycol endpiece of ethylene glycol plate type heat exchanger is connected with the 6th threeway, the import of the 4th water pump is connected with the 5th threeway, the 4th water delivery side of pump is connected with the ethylene glycol entrance point of ethylene glycol plate type heat exchanger, and the coolant outlet end of ethylene glycol plate type heat exchanger is connected with the 3rd threeway; The water inlet end of described heat dissipation system is connected with the first threeway, and water side is connected with the 4th threeway; Recovery/supplementary the end of described ethylene glycol solution storage system is connected on the pipeline between the 7th threeway and the second water pump.
In the utility model device, heat dissipation system comprises cooling tower, the 5th water pump, heat interchanger, wind-cooled cold-water unit, constant temperature water tank, the 6th water pump and the 7th water pump, the cooling water inlet end of heat interchanger is the water inlet end of heat dissipation system, be connected with the first threeway, the cooling tower water endpiece of heat interchanger is connected with cooling tower backwater end, the water side of cooling tower is connected with the 5th unit fixed on water pump suction, the 5th exit of pump is connected with the cooling tower water entrance point of heat interchanger, the coolant outlet end of heat interchanger is connected with the top water inlet end of constant temperature water tank, water side, constant temperature water tank bottom is connected with the 6th unit fixed on water pump suction, the 6th exit of pump is connected with the entrance point of wind-cooled cold-water unit, the endpiece of wind-cooled cold-water unit is connected with the bottom water inlet end of constant temperature water tank, another endpiece of constant temperature water tank bottom is connected with the 7th unit fixed on water pump suction, the 7th exit of pump is the water side of heat dissipation system, be connected with the 4th threeway.
In the utility model device, ethylene glycol solution storage system comprises the first valve, the second valve, the 8th water pump, the 3rd valve, the 4th valve, the ethylene glycol storage box that connect successively, also comprises the 5th valve, the 6th valve and the 7th valve.One end of the first valve is connected with the second valve, and the other end is the recovery/supplementary end of ethylene glycol solution storage system, and the import of the 8th water pump is connected with the second valve, and outlet is connected with the 3rd valve; On pipeline between the first valve and the second valve, be also communicated with ethylene glycol charging line, the 5th valve is arranged on ethylene glycol charging line, one end of the 6th valve is connected on the pipeline between the 3rd valve and the 8th exit of pump, and the other end is connected on the pipeline between the first valve and the second valve; One end of the 7th valve is connected on the pipeline between the 3rd valve and the 4th valve, and the other end is connected on the pipeline between the 8th unit fixed on water pump suction and the second valve.
In a preferred version of the present utility model, in the Water in Condenser circulation system, be provided with bypass line, on bypass line, be provided with valve, one end of bypass line is connected on the pipeline between the first exit of pump and first flow meter, and the other end is connected to the 3rd threeway and the 4th threeway) between pipeline on; In evaporator Glycol Circulation System, be also provided with bypass line, on bypass line, be provided with valve, one end of bypass line is connected on the pipeline between the second exit of pump and the second flowmeter, and the other end is connected on the pipeline between the 6th threeway and the 7th threeway.
In the utility model device, the water side of the Water in Condenser circulation system, also the water side that is first flow meter is connected with tested unit condenser side, the water side of evaporator Glycol Circulation System, and also the water side of the second flowmeter is connected with tested unit vaporizer side.
The heating capacity of water-ethylene glycol type water source heat pump units condenser side equals the refrigerating capacity of water-ethylene glycol type water source heat pump units vaporizer side and the input work sum of compressor.In tested water-ethylene glycol type water source heat pump units condenser, in chilled water and evaporator, ethylene glycol solution, by the heat exchange of ethylene glycol plate type heat exchanger partition, is realized the exchange heat between chilled water and ethylene glycol solution.The heat of the mechanical equivalent of compressor input work scatters and disappears by cooling tower heat radiation water route and chilled water heat dissipation water route in heat dissipation system, between chilled water heat dissipation water route and cooling tower heat radiation water route, carry out wall-type heat exchange by heat interchanger, balance each other thereby realize by the cold of the heat of water-ethylene glycol type water source heat pump units condenser side generation and vaporizer side generation.Wind-cooled cold-water unit provides the cold water meeting the demands for constant temperature water tank, and constant temperature water tank provides cold water for condenser circulation.
In the utility model device, can can freely switch the water pipe of use in the import of condenser side chilled water and outlet layout three tunnels, the import of vaporizer side ethylene glycol and outlet also arrange that three tunnels can freely switch the water pipe of use, wherein Dou You mono-tunnel is disposed in the outside between experimental enviroment, meet the adapter demand of dissimilar adapter unit, improve distinct interface unit and taken over efficiency, can be provided with two tested units station is installed, Measurement and Control System shares, realize a unit in the time of test, another unit is installed outdoor, improve the testing efficiency of testing laboratory.
Beneficial effect: the utility model compared with prior art, has the following advantages:
(1) capacity usage ratio is high, has reduced the operating cost of proving installation, has improved adapter efficiency and testing efficiency.
This proving installation can realize the heat of tested unit condenser side generation and the cold of vaporizer side generation balances each other, vaporizer side ethylene glycol and condenser side chilled water adopt the heat exchange of ethylene glycol plate type heat exchanger partition, take full advantage of the cold and hot amount that tested unit produces, capacity usage ratio is high, reduce test run cost, greatly improved the economy of water-ethylene glycol type water source heat pump units performance testing device operation.Can freely switch the water pipe of use in the import of condenser side chilled water and outlet layout three tunnels simultaneously, the import of vaporizer side ethylene glycol and outlet also arrange that three tunnels can freely switch the water pipe of use, wherein Dou You mono-tunnel is disposed in the outside between experimental enviroment, meet the adapter demand of dissimilar adapter unit, improve distinct interface unit and taken over efficiency, can be provided with two tested units station is installed, Measurement and Control System shares, realize a unit in the time of test, another unit is installed outdoor, has improved the testing efficiency of testing laboratory.
(2) test operating mode is steadily reliable, and test result is accurate.
In the heat dissipation system of this proving installation, heat interchanger is set, realize part chilled water and the heat exchange of cooling tower water outlet partition, the heat of the mechanical equivalent of compressor input work by partition heat exchange after, scatter and disappear in the tower that can not only be cooled heat radiation water route, can also further scatter and disappear by heat dissipation water route, constant temperature water tank can provide temperature constant and the uniform chilled water water inlet of flow to the Water in Condenser circulation system, thereby can ensure to reach rapidly the desired test working condition of relevant criterion in water-ethylene glycol type water source heat pump units performance test process, proving installation working stability is reliable, test error is little, result is accurate.
(3) expand unit water temperature test specification, met the test condition of round-the-clock full operating mode.
This proving installation has increased the low-temperature receiver of two wind-cooled cold-water units as constant temperature water tank, in the time that summer temp is higher or move some special operation conditions (cooling water outlet temperature is lower), the heat of the mechanical equivalent of compressor input work can not scatter and disappear by cooling tower, open wind-cooled cold-water unit and provide cold water to constant temperature water tank, just met thus test condition round-the-clock, full operating mode, expand water-ethylene glycol type water source heat pump units water temperature test specification, met the lower test (as GB cryogenic refrigeration running test) of chilled water temperature.
Brief description of the drawings
Fig. 1 is the principle schematic of the utility model proving installation.
In figure: 1-Water in Condenser circulation system; The 11-the first threeway; The 12-the second threeway; The 13-the three threeway; The 14-the four threeway; The 15-the first water pump; 16-first flow meter; 2-evaporator Glycol Circulation System; The 21-the five threeway; The 22-the six threeway; The 23-the seven threeway; The 24-the second water pump; The 25-the second flowmeter; 26-expansion tank; 3-heat-exchange system; The 31-the three water pump; 32-ethylene glycol plate type heat exchanger; The 33-the four water pump; 4-heat dissipation system; 41-cooling tower; The 42-the five water pump; 43-heat interchanger; 44-wind-cooled cold-water unit; 45-constant temperature water tank; The 46-the six water pump; The 47-the seven water pump; 5-ethylene glycol solution storage system; The 51-the first valve; The 52-the second valve; The 53-the three valve; The 54-the four valve; The 55-the five valve; The 56-the six valve; The 57-the seven valve; The 58-the eight water pump; 59-ethylene glycol storage box; 61-tested water-ethylene glycol type water source heat pump units condenser side; 62-tested water-ethylene glycol type water source heat pump units vaporizer side; 7-water source.
Embodiment
Below in conjunction with Figure of description and embodiment, the utility model is described in further detail.
As shown in Figure 1, water-ethylene glycol type water source heat pump units performance testing device of the present utility model, comprise the Water in Condenser circulation system 1 being connected with tested water-ethylene glycol type water source heat pump units condenser side 61, the evaporator Glycol Circulation System 2 being connected with tested water-ethylene glycol type water source heat pump units vaporizer side 62, between the Water in Condenser circulation system 1 and evaporator Glycol Circulation System 2, be provided with the heat-exchange system 3 for carrying out exchange heat between chilled water and ethylene glycol, and the heat dissipation system 4 being connected with the Water in Condenser circulation system 1 and the ethylene glycol solution storage system 5 that is connected with evaporator Glycol Circulation System 2.
The Water in Condenser circulation system 1 comprises the first threeway 11, the second threeway 12, the 3rd threeway 13, the 4th threeway 14, the first water pump 15 and the first flow meter 16 that connect with pipeline successively, the import of the first water pump 15 is connected with the 4th threeway 14, and outlet is connected with first flow meter 16.
In a preferred embodiment of the present utility model, in the Water in Condenser circulation system 1, be provided with bypass line, on bypass line, be provided with valve, one end of bypass line is connected on the pipeline between the first water pump 15 outlets and first flow meter 16, and the other end is connected on the pipeline between the 3rd threeway 13 and the 4th threeway 14.
Evaporator Glycol Circulation System 2 comprises the ethylene glycol pipeline of the 5th threeway 21, the 6th threeway 22, the 7th threeway 23, the second water pump 24 and the second flowmeter 25 that connect with pipeline successively, and the expansion tank 26 being connected with the 7th threeway 23, the import of the second water pump 24 is connected with the 7th threeway 23, and outlet is connected with the second flowmeter 25.
In a preferred embodiment of the present utility model, in evaporator Glycol Circulation System 2, be provided with bypass line, on bypass line, be provided with valve, one end of bypass line is connected on the pipeline between the second water pump 24 outlets and the second flowmeter 25, and the other end is connected on the pipeline between the 6th threeway 22 and the 7th threeway 23.
Heat-exchange system 3 comprises the 3rd water pump 31, ethylene glycol plate type heat exchanger 32, the 4th water pump 33.Wherein, the import of the 3rd water pump 31 of heat-exchange system 3 is connected with the second threeway 12, the outlet of the 3rd water pump 31 is connected with the cooling water inlet end of ethylene glycol plate type heat exchanger 32, the ethylene glycol endpiece of ethylene glycol plate type heat exchanger 32 is connected with the 6th threeway 22, the import of the 4th water pump 33 is connected with the 5th threeway 21, the outlet of the 4th water pump 33 is connected with ethylene glycol plate type heat exchanger 32 ethylene glycol entrance points, and the coolant outlet end of ethylene glycol plate type heat exchanger 32 is connected with the 3rd threeway 13.
Heat dissipation system 4 comprises cooling tower 41, the 5th water pump 42, heat interchanger 43, wind-cooled cold-water unit 44, constant temperature water tank 45, the 6th water pump 46 and the 7th water pump 47, the cooling water inlet end of heat interchanger 43 is the water inlet end of heat dissipation system 4, be connected with the first threeway 11, the cooling tower water endpiece of heat interchanger 43 is connected with cooling tower 41 backwater ends, the water side of cooling tower 41 is connected with the 5th water pump 42 imports, the 5th water pump 42 outlets are connected with the cooling tower water entrance point of heat interchanger 43, the coolant outlet end of heat interchanger 43 is connected with the top water inlet end of constant temperature water tank 45, constant temperature water tank 45 water sides, bottom are connected with the 6th water pump 46 imports, the 6th water pump 46 outlets are connected with the entrance point of wind-cooled cold-water unit 44, the endpiece of wind-cooled cold-water unit 44 is connected with the bottom water inlet end of constant temperature water tank 45, another endpiece of constant temperature water tank 45 bottoms is connected with the 7th water pump 47 imports, the 7th water pump 47 outlets are the water side of heat dissipation system 4, be connected with the 4th threeway 14.Wherein, cooling tower 41, the 5th water pump 42 and heat interchanger 43 form cooling tower heat radiation water route, this water route is disposed in test bay outside, the water delivering orifice of cooling tower 41 is connected with the 5th water pump 42 imports, the 5th water pump 42 outlets are connected with the cooling tower water entrance point of heat interchanger 43, this is the outlet pipeline in cooling tower heat radiation water route, and the cooling tower water endpiece of heat interchanger 43 is connected with cooling tower 41 backwater ends, and this is the water return pipeline in cooling tower heat radiation water route; Constant temperature water tank 45, the 7th water pump 47, the 4th threeway 14, the first threeway 11 and heat interchanger 43 form chilled water heat dissipation water route, the first threeway 11 is connected with the cooling water inlet end of heat interchanger 43, be the water inlet end of heat dissipation system 4, the coolant outlet end of heat interchanger 43 is connected with constant temperature water tank 45, the water delivering orifice of constant temperature water tank 45 bottoms is connected with the 7th water pump 47 imports, and the 7th water pump 47 outlets are connected with the 4th threeway 14; Wind-cooled cold-water unit 44, constant temperature water tank 45 and the 6th water pump 46 form wind-cooled cold-water unit heat radiation water route, and constant temperature water tank 45 is connected with wind-cooled cold-water unit 44 through the 6th water pump 46 and forms closed circuit.
Ethylene glycol solution storage system 5 comprises the first valve 51, the second valve 52, the 8th water pump 58, the 3rd valve 53, the 4th valve 54, the ethylene glycol storage box 59 that connect successively, also comprises the 5th valve 55, the 6th valve 56 and the 7th valve 57.Wherein, one end of the first valve 51 is connected with the second valve 52, the other end is the recovery/supplementary end of ethylene glycol solution storage system 5, the import of the 8th water pump 58 is connected with the second valve 52, outlet is connected with the 3rd valve 53, on pipeline between the first valve 51 and the second valve 52, be also communicated with ethylene glycol charging line, described the 5th valve 55 is arranged on ethylene glycol charging line, one end of the 6th valve 56 is connected on the pipeline between the 3rd valve 53 and the 8th water pump 58 outlets, the other end is connected on the pipeline between the first valve 51 and the second valve 52, one end of the 7th valve 57 is connected on the pipeline between the 3rd valve 53 and the 4th valve 54, the other end is connected on the pipeline between the 8th water pump 58 imports and the second valve 52.
In the utility model device, the water side of the Water in Condenser circulation system 1, also the water side that is first flow meter 16 is connected with tested unit condenser side 61, the water side of evaporator Glycol Circulation System 2, and also the water side of the second flowmeter 25 is connected with tested unit vaporizer side 62.
In the time that water-ethylene glycol type water source heat pump units performance testing device is opened test:
Need the needed ethylene glycol amount of calculation of capacity of glycol concentration and system water pipeline, tested unit according to system, close the first valve 51, the 6th valve 56, the 7th valve 57, open the second valve 52, the 3rd valve 53, the 4th valve 54 and the 5th valve 55 simultaneously, utilize the 8th water pump 58 that the ethylene glycol of barreled is introduced to ethylene glycol storage box 59 by test aequum, then add tap water to be mixed with the ethylene glycol solution of desired concn, in this process, take to carve and measure ethylene glycol solution concentration with picnometer, in case that solution concentration is joined by institute is too low.Close the second valve 52, the 3rd valve 53 and the 5th valve 55, open the first valve 51, the 4th valve 54, the 6th valve 56 and the 7th valve 57 simultaneously, utilize the 8th water pump 58 ethylene glycol solution preparing by desired concn in ethylene glycol storage box 59 to be incorporated into the ethylene glycol pipeline of evaporator Glycol Circulation System 2, complete ethylene glycol solution and be filled into the process of vaporizer side glycol circulation pipeline.When test, condenser side chilled water is flowed through successively after the second threeway 12 and the 3rd water pump 31 and is entered from ethylene glycol plate type heat exchanger 32 cooling water inlet ends, with on the ethylene glycol pipeline of evaporator Glycol Circulation System 2 by the 5th threeway 21 ethylene glycol solution partition heat exchange entering from ethylene glycol plate type heat exchanger 32 ethylene glycol entrance points after the 4th water pump 33 of flowing through, after heat exchange, ethylene glycol solution turns back to the ethylene glycol pipeline of evaporator Glycol Circulation System 2 by the road from the 6th threeway 22 from ethylene glycol plate type heat exchanger 32 ethylene glycol endpiece, chilled water flows into the cooling water pipeline of the Water in Condenser circulation system 1 from the 3rd threeway 13 by the road from ethylene glycol plate type heat exchanger 32 coolant outlet ends, realize the exchange heat between water-ethylene glycol type water source heat pump units condenser side chilled water and vaporizer side ethylene glycol solution by ethylene glycol plate type heat exchanger 32 wall-type heat exchanges thus, the 3rd water pump 31 is responsible for cooling water channel solution and is transported, the 4th water pump 33 is responsible for ethylene glycol pipeline solution and is transported, freezing pipeline while simultaneously regulating the 4th water pump 33 frequency converters effectively to prevent solution low temperature.When flowing through the cooling water flow of the first water pump 15 in the Water in Condenser circulation system 1 when larger, open the valve on bypass line in parallel with it and form circulation, can effectively reduce discharge and prevent water attack.When flowing through the ethylene glycol solution flow of the second water pump 24 in evaporator Glycol Circulation System 2 when larger, open the valve on bypass line in parallel with it and form circulation, can effectively reduce ethylene glycol flow and prevent liquid hammer, guaranteeing that water-ethylene glycol type water source heat pump units performance testing device safely and steadily runs.By pump variable frequency technology, regulate the frequency converter of the first water pump 15 to realize leaving water temperature (discharge) control of chilled water, 31 the frequency converter that adjusting is watered the 3rd water pump on heat exchanging pipe is realized the inflow temperature (discharge) of ethylene glycol and is controlled, and the leaving water temperature (discharge) that regulates the frequency converter of the second water pump 24 to realize chilled water is controlled.
The heat of the mechanical equivalent of compressor input work is scattered and disappeared by heat dissipation system 4, wall-type heat exchange is carried out by heat interchanger 43 in chilled water heat dissipation water route and cooling tower heat radiation water route, in the cooling water pipeline of the Water in Condenser circulation system 1 part chilled water be introduced into by the first threeway 11 after the cooling water inlet end of heat interchanger 43 with introduced by heat interchanger 43 cooling tower water entrance points from the cooling tower water partition heat exchange in the outlet pipeline of cooling tower heat radiation water route, the heat exchange afterwards chilled water of self cooling condenser water circulation system 1 flows into constant temperature water tank 45 from the coolant outlet end of heat interchanger 43, cooling tower water from cooling tower 41 flows back to cooling tower 41 from the cooling tower water endpiece of heat interchanger 43 through cooling tower water return pipeline, now in heat dissipation system 4, complete part chilled water and the cooling tower water partition heat transfer process through heat interchanger 43, the heat that when partition heat exchange, cooling tower water absorbs is dissipated by the cooling tower heat radiation water route being arranged in outside test bay, chilled water after partition heat exchange flows into constant temperature water tank 45, if cooling water temperature is also higher, this part surplus heat is is further scattered and disappeared by chilled water heat dissipation water route, just complete thus the heat loss of the mechanical equivalent of compressor input work.Control cooling tower heat-sinking capability by controlling blower fan of cooling tower frequency, thereby control constant temperature water tank 45 water temperatures, blower fan frequency is higher, and radiating effect is better, and water tank temperature declines lower.In the heat loss process of the mechanical equivalent of compressor input work, the water outlet of constant temperature water tank 45 is flowed into the cooling water pipeline of the Water in Condenser circulation system 1 by the 4th threeway 14 through the 7th water pump 47, this pipeline is the inlet ductwork of chilled water in the Water in Condenser circulation system 1, regulates the frequency converter of the 7th water pump 47 can realize the control to cold in-water temperature (discharge).Because glassware for drinking water has incompressibility, therefore in the time that adding cold water, the Water in Condenser circulation system also needs to discharge hot water, and add like this cold water to discharge hot water and just can control Water in Condenser circulation system water temperature.The power resources in chilled water heat dissipation water route are the 7th water pump 47, and the power resources in cooling tower heat radiation water route are the 5th water pump 42.Water source 7 can be cooling tower 41 by pipeline and constant temperature water tank 45 supplies water.
Further, the utility model test unit has increased wind-cooled cold-water unit heat radiation water route, and the low-temperature receiver of two wind-cooled cold-water units 44 as constant temperature water tank 45 is set, and ensures that constant temperature water tank 45 water temperatures are constant.Waterway circulating is realized by the 6th water pump 46 in wind-cooled cold-water unit heat radiation water route, and the water in constant temperature water tank 45 flows into after wind-cooled cold-water unit 44 is changed temperature and sends back to constant temperature water tank 45 again through the 6th water pump 46.In the time that summer temp is higher or move some special operation conditions (cooling water outlet temperature is lower), the heat of the mechanical equivalent of compressor input work can not by cooling tower dispel the heat water route scatter and disappear, at this moment close the 5th water pump 42, open wind-cooled cold-water unit 44 and the 6th water pump 46, meet test condition round-the-clock, full operating mode by wind-cooled cold-water unit heat radiation water route for constant temperature water tank 45 provides cold water, just expand thus water-ethylene glycol type water source heat pump units water temperature test specification.
After off-test, close the 5th valve 55, the 6th valve 56 and the 7th valve 57, open simultaneously and open the first valve 51, the second valve 52, the 3rd valve 53 and the 4th valve 54, utilize the 8th water pump 58 that the ethylene glycol solution in vaporizer side ethylene glycol pipeline is introduced to ethylene glycol storage box 59, complete ethylene glycol and reclaim;
Finally, a kind of water-ethylene glycol type water source heat pump units performance testing device can freely switch the water pipe of use in the import of condenser side chilled water and outlet layout three tunnels, the import of vaporizer side ethylene glycol and outlet also arrange that three tunnels can freely switch the pipeline of use, wherein all Ge You mono-tunnel is disposed in the outside between experimental enviroment, can meet the adapter demand of dissimilar adapter unit, improve adapter efficiency, two tested units also can be set station is installed, Measurement and Control System shares, having realized one of tested unit another unit in the time of test can install outdoor, thereby improve the testing efficiency of testing laboratory.
Claims (5)
1. a water-ethylene glycol type water source heat pump units performance testing device, it is characterized in that, this proving installation comprises the Water in Condenser circulation system (1), heat-exchange system (3), evaporator Glycol Circulation System (2) and the ethylene glycol solution storage system (5) that connect successively, and the heat dissipation system (4) being connected with the described Water in Condenser circulation system (1);
The described Water in Condenser circulation system (1) comprises the first threeway (11), the second threeway (12), the 3rd threeway (13), the 4th threeway (14), the first water pump (15) and the first flow meter (16) that connect successively, the import of described the first water pump (15) is connected with the 4th threeway (14), and outlet is connected with first flow meter (16);
Described evaporator Glycol Circulation System (2) comprises the 5th threeway (21), the 6th threeway (22), the 7th threeway (23), the second water pump (24), the second flowmeter (25) that connect successively, and the expansion tank (26) being connected with described the 7th threeway (23), the import of described the second water pump (24) is connected with the 7th threeway (23), and outlet is connected with the second flowmeter (25);
Described heat-exchange system (3) comprises the 3rd water pump (31), ethylene glycol plate type heat exchanger (32), the 4th water pump (33), the import of described the 3rd water pump (31) is connected with the second threeway (12), the outlet of the 3rd water pump (31) is connected with the cooling water inlet end of ethylene glycol plate type heat exchanger (32), the ethylene glycol endpiece of ethylene glycol plate type heat exchanger (32) is connected with the 6th threeway (22), the import of the 4th water pump (33) is connected with the 5th threeway (21), the outlet of the 4th water pump (33) is connected with the ethylene glycol entrance point of ethylene glycol plate type heat exchanger (32), the coolant outlet end of ethylene glycol plate type heat exchanger (32) is connected with the 3rd threeway (13),
The water inlet end of described heat dissipation system (4) is connected with the first threeway (11), and water side is connected with the 4th threeway (14); Recovery/supplementary the end of described ethylene glycol solution storage system (5) is connected on the pipeline between the 7th threeway (23) and the second water pump (24).
2. a kind of water-ethylene glycol type water source heat pump units performance testing device according to claim 1, it is characterized in that, described heat dissipation system (4) comprises cooling tower (41), the 5th water pump (42), heat interchanger (43), wind-cooled cold-water unit (44), constant temperature water tank (45), the 6th water pump (46) and the 7th water pump (47), the cooling water inlet end of described heat interchanger (43) is the water inlet end of heat dissipation system (4), be connected with the first threeway (11), the cooling tower water endpiece of heat interchanger (43) is connected with cooling tower (41) backwater end, the water side of cooling tower (41) is connected with the 5th water pump (42) import, the 5th water pump (42) outlet is connected with the cooling tower water entrance point of heat interchanger (43), the coolant outlet end of heat interchanger (43) is connected with the top water inlet end of constant temperature water tank (45), constant temperature water tank (45) water side, bottom is connected with the 6th water pump (46) import, the 6th water pump (46) outlet is connected with the entrance point of wind-cooled cold-water unit (44), the endpiece of wind-cooled cold-water unit (44) is connected with the bottom water inlet end of constant temperature water tank (45), another endpiece of constant temperature water tank (45) bottom is connected with the 7th water pump (47) import, the 7th water pump (47) outlet is the water side of heat dissipation system (4), be connected with the 4th threeway (14).
3. a kind of water-ethylene glycol type water source heat pump units performance testing device according to claim 1 and 2, it is characterized in that, described ethylene glycol solution storage system (5) comprises the first valve (51) connecting successively, the second valve (52), the 8th water pump (58), the 3rd valve (53), the 4th valve (54), ethylene glycol storage box (59), also comprise the 5th valve (55), the 6th valve (56) and the 7th valve (57), one end of described the first valve (51) is connected with the second valve (52), the other end is the recovery/supplementary end of ethylene glycol solution storage system (5), the import of the 8th water pump (58) is connected with the second valve (52), and outlet is connected with the 3rd valve (53),
On pipeline between the first valve (51) and the second valve (52), be also communicated with ethylene glycol charging line, described the 5th valve (55) is arranged on ethylene glycol charging line;
One end of described the 6th valve (56) is connected on the pipeline between the 3rd valve (53) and the outlet of the 8th water pump (58), and the other end is connected on the pipeline between the first valve (51) and the second valve (52);
One end of described the 7th valve (57) is connected on the pipeline between the 3rd valve (53) and the 4th valve (54), and the other end is connected on the pipeline between the 8th water pump (58) import and the second valve (52).
4. a kind of water-ethylene glycol type water source heat pump units performance testing device according to claim 1 and 2, it is characterized in that, in the described Water in Condenser circulation system (1), be provided with bypass line, on described bypass line, be provided with valve, one end of bypass line is connected on the pipeline between the first water pump (15) outlet and first flow meter (16), and the other end is connected on the pipeline between the 3rd threeway (13) and the 4th threeway (14);
In described evaporator Glycol Circulation System (2), be also provided with bypass line, on described bypass line, be provided with valve, one end of bypass line is connected on the pipeline between the second water pump (24) outlet and the second flowmeter (25), and the other end is connected on the pipeline between the 6th threeway (22) and the 7th threeway (23).
5. a kind of water-ethylene glycol type water source heat pump units performance testing device according to claim 1 and 2, it is characterized in that, the water side of the described Water in Condenser circulation system (1), also the water side that is first flow meter (16) is connected with tested unit condenser side (61), the water side of evaporator Glycol Circulation System (2), also the water side of the second flowmeter (25) is connected with tested unit vaporizer side (62).
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103913316A (en) * | 2014-02-20 | 2014-07-09 | 南京师范大学 | Water and ethylene glycol type water source heat pump unit performance testing device |
CN113916569A (en) * | 2021-07-22 | 2022-01-11 | 中国北方车辆研究所 | Radiator open type cooling water cleaning and heat exchange quantity stable improvement device |
-
2014
- 2014-02-20 CN CN201420073691.3U patent/CN203798594U/en not_active Withdrawn - After Issue
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103913316A (en) * | 2014-02-20 | 2014-07-09 | 南京师范大学 | Water and ethylene glycol type water source heat pump unit performance testing device |
CN103913316B (en) * | 2014-02-20 | 2016-08-17 | 合肥天时测控技术有限公司 | A kind of water-ethylene glycol type water source heat pump units performance testing device |
CN113916569A (en) * | 2021-07-22 | 2022-01-11 | 中国北方车辆研究所 | Radiator open type cooling water cleaning and heat exchange quantity stable improvement device |
CN113916569B (en) * | 2021-07-22 | 2023-07-14 | 中国北方车辆研究所 | Radiator open type cooling water cleaning and heat exchange quantity stabilization improvement device |
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