CN202914146U - Improved vacuum exhaust heat pump type steam turbine generating system - Google Patents

Abstract

The utility model discloses an improved vacuum exhaust heat pump type steam turbine generating system. The improved vacuum exhaust heat pump type steam turbine generating system comprises a boiler, a steam turbine, a generator, a steam condenser, an improved absorption heat pump, a cooling tower, a low temperature heating device, a vacuum exhaust heat collector and a vacuum pump. According to the improved vacuum exhaust heat pump type steam turbine generating system, cooling water of the steam condenser can be simultaneously cooled by the improved absorption heat pump and the cooling tower, a part of high temperature steam is extracted from the steam condenser to enter into the vacuum exhaust heat collector, latent heat can be effectively released and converted into high temperature vapor-water mixtures to serve as a driving heat source of the improved absorption heat pump, heat in hot steam discharged from the steam turbine is used for heating liquefied condensed backwater discharged from the steam condenser and condensation water discharged from a heat pump driving outlet to return to the boiler, thereby thermal discharge is reduced, the steam condensing effects are improved, output power of the steam turbine is improved, and power generating costs are reduced.

Description

Improve vacuum exhaust heat pump type steamer power generation system

Technical field

The utility model relates to a kind of steamer power generation system, particularly relates to improving vacuum exhaust heat pump type steamer power generation system.

Background technique

Power generation system is a kind of machine that mechanical energy is changed into electric energy, usually by steam turbine, water turbine or internal combustion engine drive.Power generation system with Steam Turbine Driven, the superheated vapor that is produced by boiler enters the acting of expanding in the steam turbine, make blade rotation and drive power generation system generating, the waste vapour after the acting through vapour condenser, circulating water pump, condensate pump, send boiler back to water heater etc. and recycle.

The high temperature hot steam of discharging for the steamer power generation system in the prior art generally adopts water-cooled or air cooling.Cooling procedure is the process of changing between the energy of the used heat of system discharging and environment.The heat-transfer coefficient of water-cooled is 1762W(m ²K), to do the heat-transfer coefficient of cooling medium be 62W(m to empty vapour ²K).Heat-transfer coefficient has characterized the intensity of diabatic process, and the larger diabatic process of numerical value is stronger.Because the air cooling system heat-transfer coefficient is little, economic efficacy is poor, therefore mainly adopts at present water cooling system.

Water cooling system need to consume a large amount of Water Energy as cooling water, and the heat in water-cooled or the air-cooled high-temperature steam that all steam turbine can be discharged be taken away, the thermal efficiency of thermal power generation on average only has 35%-40% according to statistics, and the energy major part system of being cooled takes away and produces a large amount of used heat, has reduced the utilization ratio of heat.Although can utilize by collecting for the used heat of discharging, but the power station is often distant apart from the urban district, need to be with waste heat to a very high temperature of discharging, and then from be transported to the urban district heat exchange station from the power station, because it is a lot of that transport temperature is higher than ambient temperature, therefore the cooling of serious heat loss in transportation process, and thermal expansion is had relatively high expectations to pipeline and relevant device, thereby causes the used heat that can't effectively utilize discharging.Therefore be badly in need of a kind of comprehensive refrigeration system that adopts other cooling technology auxiliary water coolings or the cooling of empty vapour and reduce temperature and vapor tension in the vapour condenser, realize simultaneously the energy recovery recycling, thus Effective Raise generating focus conversion efficiency.

Absorption heat pump is a kind of technology that can shift heat, is generally used for the chiller plants such as air-conditioning.Absorption heat pump its be take heat energy as power, take water as refrigeration agent, lithium-bromide solution is absorbing agent, utilizes principle of absorption to realize freezing.It is comprised of a plurality of parts such as generator, condenser, vaporizer, adsorber and heat exchangers.Can be divided into steam type, direct-burning type, hot-water type etc. by the driving heat source kind.Its equipment is installed simple, all take heat energy as power, and noise free, but it has following shortcoming when using:

(1) thermal source requires too high: thermal source must adopt uniform temperature, as be higher than 90 ℃ waste heat source water could be with the evaporation of the moisture in the lithium-bromide solution, and many discarded heat source temperatures are lower, can not be used effectively, for example 40-90 ℃ thermal source.

(2) conversion efficiency of thermal source is low: because liquid becomes gas in generator and vaporizer, therefore reduced degree of vacuum in generator and the vaporizer, so that in the liquid moisture to become gas more difficult, in like manner in condenser and adsorber, change liquid into owing to gas, pressure reduces, further become liquid thereby hinder gas, therefore so that the reduction of whole conversion efficiency.

Because there are these above defectives in absorption heat pump, causes the purposes of absorption heat pump technology in the prior art to receive certain limitation.

Summary of the invention

The utility model is finished in order to solve above deficiency of the prior art, the utility model improves by the absorption heat pump to prior art, between generator and condenser, be provided with compressor a, between adsorber and vaporizer, be provided with compressor b, compressor a makes degree of vacuum increase in the generator, the pressure increase promotes that liquid becomes gas in the generator in the condenser thereby make, and gas becomes liquid in the promotion condenser, therefore reduced that solution moisture content testing evaporates needed temperature in the generator, compressor a impels the gas in the condenser more easily to condense simultaneously, compressor b makes pressure increase in the adsorber, thereby degree of vacuum increases and promotes that liquid water becomes gas in the vaporizer in the vaporizer, gas becomes liquid in the adsorber, has therefore increased substantially the efficient of heat pump.The utility model also enters the vacuum exhaust heat collector by using vacuum pump to continue to extract hot steam from vapour condenser, so that the part hot steam fully discharges latent heat in the vacuum exhaust heat collector, become steam water interface, effectively reduce the solidifying gas burden of high temperature hot steam in the vapour condenser, and drive absorption heat pump in the utility model by the hot steam of extracting out, auxiliary cooling tower is lowered the temperature to the hot steam of discharging, condense, and by heat pump with the transfer of heat that is discharged in the steam turbine in the hot steam of vapour condenser, use this heat with vapour condenser condensation after heat steam condensation backwater and drive the water of condensation that exports discharge and carry out concurrent heating, and then again add in the boiler.Thereby take full advantage of exhaust steam, the heat in the steam, the minimizing hot driving of steam turbine discharging.Improved cooling effect and the heat energy recycle rate has reduced cost of electricity-generating.

Improvement vacuum exhaust heat pump type steamer power generation system of the present utility model is characterized in that: described improvement vacuum exhaust heat pump type steamer power generation system comprises boiler, steam turbine, generator, vapour condenser, the modified model absorption heat pump, cooling tower, low-temperature heating device, the vacuum exhaust heat collector, vacuum pump, described steam turbine has steam-expelling port, described vapour condenser has extraction opening, steam inlet, the water of condensation outlet, the cooling water inlet, coolant outlet, described cooling tower has the cooling tower water inlet, the cooling tower water outlet, described modified model absorption heat pump has generator, condenser, vaporizer, adsorber, recycle pump, compressor a, compressor b, Driver Entry, drive outlet, cold water inlet, cooling water outlet, heat entrance a, heat entrance b, heat outlet a, heat outlet b, described compressor a is arranged between generator and the condenser, and described compressor b is arranged between adsorber and the vaporizer.

Above-mentioned improvement vacuum exhaust heat pump type steamer power generation system is characterized in that: the Driver Entry of described modified model absorption heat pump and driving outlet are arranged on the generator, heat entrance a, heat the outlet a be arranged on the condenser, heat entrance b, heat the outlet b be arranged on the adsorber, cold water inlet, cooling water outlet are arranged on the vaporizer.

Above-mentioned improvement vacuum exhaust heat pump type steamer power generation system is characterized in that: described low-temperature heating device, boiler, steam turbine, generator links to each other successively by pipeline, described vapour condenser extraction opening links to each other with the vacuum exhaust heat collector by pipeline and vacuum pump, the vacuum exhaust heat collector links to each other with modified model absorption heat pump Driver Entry by pipeline, the turbine discharge mouth links to each other with the vapour condenser steam inlet by pipeline, the outlet of the water of condensation of described vapour condenser converges by pipeline with from the pipeline of the driving outlet of modified model absorption heat pump, and link to each other with the entrance b that heats of modified model absorption heat pump, heating entrance a and heating outlet b of modified model absorption heat pump communicates, heating outlet a links to each other with low-temperature heating device by pipeline, the coolant outlet of described vapour condenser is divided into two-way by pipeline, link to each other with the cold water inlet of cooling tower water inlet with the modified model absorption heat pump respectively, the cooling water outlet of modified model absorption heat pump converges afterwards by pipeline with the cooling tower water outlet and links to each other with the cooling water inlet of vapour condenser.

Above-mentioned improvement vacuum exhaust heat pump type steamer power generation system is characterized in that: the generator of described modified model absorption heat pump is connected with condenser by pipeline and compressor a, the generator bottom is with three pipelines, article one, links to each other with spray equipment in the adsorber by recycle pump, second links to each other with generator inner and upper spray equipment by recycle pump, article three, device for cleaning pipeline is crossed recycle pump and is linked to each other with absorber bottom, condenser is connected with vaporizer by pipeline and recycle pump, vaporizer is connected with adsorber by pipeline and compressor b, and base of evaporator is connected with vaporizer inner and upper spray equipment by recycle pump and pipeline.

The utility model improves absorption heat pump by using, greatly improved the efficient of heat pump, therefore can effectively utilize the hot steam of extracting out in the vapour condenser to drive absorption heat pump to the heat generation transportation, auxiliary hot steam to discharging is lowered the temperature in condenser, condense, reduce pressure and the temperature in the vapour condenser and improved generating efficiency, and by heat pump these heats are effectively shifted, use this heat with condensation after heat steam condensation backwater in the vapour condenser and drive the water that exports discharge and carry out concurrent heating, and again add in the boiler recycling, thereby take full advantage of the heat in the steam of extracting out in the vapour condenser, reduce hot driving, cooling efficiency of condensers is improved also can be strengthened vapour condenser condensing effect.The utility model is also by continuing to use vacuum pump, high strength extracts the hot steam in the vapour condenser, effectively reduce the solidifying atmospheric pressure of vapour condenser, the setting of vacuum exhaust heat collector then takes full advantage of the latent heat of hot steam, it is become the higher driving hot water of temperature, Effective Raise modified model absorption type heat pump efficiency.In a word, the utility model effectively improves the steam turbine output power, has reduced cost of electricity-generating by improving two aspects of thermoelectric conversion ratio and heat energy recycle.

Description of drawings

Fig. 1 heat of the present utility model is improved the auxiliary condensing cooling of heat pump power generation system

Fig. 2 modified model absorption heat pump of the present utility model

Fig. 3 vacuum exhaust heat collector of the present utility model

The figure number explanation

1 ... boiler, 2 ... steam extraction pump, 3 ... steam turbine, 4 ... generator, 5 ... vapour condenser,

6 ... the modified model absorption heat pump, 7 ... cooling tower, 8 ... low-temperature heating device,

9 ... the vacuum exhaust heat collector, 10 ... steam-expelling port, 11 ... steam inlet, 12 ... the water of condensation outlet, 13 ... the cooling water inlet

14 ... coolant outlet, 15 ... the cooling tower water inlet, 16 ... the cooling tower water outlet,

17 ... Driver Entry, 18 ... drive outlet, 19 ... cold water inlet, 20 ... cooling water outlet,

21 ... heat entrance b, 22 ... heat entrance a, 23 ... heat outlet b, 24 ... heat outlet a

25 ... generator, 26 ... condenser, 27 ... vaporizer, 28 ... adsorber, 29 ... recycle pump

30 ... compressor a, 31 ... compressor b, 32 ... tank body, 33 ... the heat collector entrance,

34 ... hot water pump, 35 ... outlet valve, 36 ... the heat collector outlet

Embodiment

Vacuum exhaust heat collector of the present utility model, in conjunction with Fig. 3, it specifically comprises tank body 32, heat collector entrance 33, hot water pump 34, outlet valve 35, heat collector outlet 36.By using heat collector, so that gas discharges latent heat in the heat collector tank body, become high-temperature-hot-water, thereby be used for driving the modified model absorption heat pump.

Fig. 1 and Fig. 2 below in conjunction with accompanying drawing are described in further detail improvement vacuum exhaust heat pump type steamer power generation system of the present utility model and the method for utilizing this power generation system generating.

Heat of the present utility model is improved vacuum exhaust heat pump type steamer power generation system, please refer to Fig. 1,2, described improvement vacuum exhaust heat pump type steamer power generation system comprises boiler 1, steam extraction pump 2, steam turbine 3, generator 4, vapour condenser 5, modified model absorption heat pump 6, cooling tower 7, low-temperature heating device 8, vacuum exhaust heat collector 9, vacuum pump 2, described steam turbine has steam-expelling port 10, described vapour condenser has extraction opening 32, steam inlet 11, water of condensation outlet 12, cooling water inlet 13, coolant outlet 14, described cooling tower has cooling tower water inlet 15, cooling tower water outlet 16, described modified model absorption heat pump has generator 25, condenser 26, vaporizer 27, adsorber 28, recycle pump 29, compressor a30, compressor b31, Driver Entry 17, drive outlet 18, cold water inlet 19, cooling water outlet 20, heat entrance a22, heat entrance b21, heat outlet a24, heat outlet b23, described compressor a30 is arranged between generator 25 and the condenser 26, and described compressor b31 is arranged between adsorber 28 and the vaporizer 27.

At the Driver Entry 17 of modified model absorption heat pump described in the utility model preferred embodiment with drive outlet 18 and be arranged on the generator 25, heat entrance a22, heat outlet a24 and be arranged on the condenser 26, heat entrance b21, heat the outlet b23 be arranged on the adsorber 28, cold water inlet 19, cooling water outlet 2027 are arranged on the vaporizer.

At low-temperature heating device 8 described in another preferred embodiment of the utility model, boiler 1, steam turbine 3, generator 4 links to each other successively by pipeline, described vapour condenser extraction opening 32 links to each other with vacuum exhaust heat collector 9 by pipeline and vacuum pump 2, vacuum exhaust heat collector 9 links to each other with modified model absorption heat pump Driver Entry 17 by pipeline, turbine discharge mouth 10 links to each other with vapour condenser steam inlet 11 by pipeline, the outlet 12 of the water of condensation of described vapour condenser 5 converges by pipeline with from the pipeline of the driving outlet 18 of modified model absorption heat pump 6, and link to each other with the entrance b21 that heats of modified model absorption heat pump 6, heating entrance a22 and heating outlet b23 of modified model absorption heat pump communicates, heating outlet a24 links to each other with low-temperature heating device 8 by pipeline, the coolant outlet 14 of described vapour condenser 5 is divided into two-way by pipeline, cold water inlet 19 with cooling tower water inlet 15 and modified model absorption heat pump links to each other respectively, and the cooling water outlet 20 of modified model absorption heat pump 6 converges afterwards by pipeline with cooling tower water outlet 16 and links to each other with the cooling water inlet 13 of vapour condenser 5.In another preferred embodiment of the utility model, the generator 25 of described modified model absorption heat pump 6 is connected with condenser 26 by pipeline and compressor a30, generator 25 bottoms are with three pipelines, article one, links to each other with spray equipment in the adsorber by recycle pump (not providing numbering among the figure), second links to each other with generator 25 inner and upper spray equipments by recycle pump 29, article three, device for cleaning pipeline is crossed recycle pump (not providing numbering among the figure) and is linked to each other with adsorber 28 bottoms, condenser 26 is connected connection by pipeline and recycle pump (not providing numbering among the figure) with vaporizer, vaporizer 27 is connected connection by pipeline and compressor b with adsorber, are connected the inner and upper spray equipment by recycle pump (not providing numbering among the figure) and pipeline and connect in vaporizer 27 bottoms with vaporizer.

The principle that the utility model utilizes above-mentioned improvement vacuum exhaust heat pump type steamer power generation system to generate electricity is done explanation with reference to figure 1, Fig. 2, Fig. 3, and it may further comprise the steps:

Step 1, heating boiler 1 makes water in the boiler 1 generation steam that is heated, and steam enters steam turbine 3 by pipeline, and steam turbine 3 outputting powers make generator 4 produce electric power;

Step 2, vacuum pump 2 extracts the part hot steam by extraction opening 32 from vapour condenser 5, enter vacuum exhaust heat collector 9, hot steam emits latent heat in vacuum exhaust heat collector 9 and liquefaction is hot water, hot water enters by pipeline and improves absorption heat pump Driver Entry 17 and be transported in the modified model absorption heat pump generator 25 work of driving heat pump;

Step 3, the hot steam that turbine discharge mouth 10 is discharged enters in the vapour condenser 5 by pipeline, the pipeline of cooling tower water outlet 16 by the cooling water outlet 20 on pipeline and the modified model absorption heat pump vaporizer 27 converges and from condenser cooling water entrance 13 cooling water sent into vapour condenser 5, temperature rising behind the heat of hot steam in the absorption vapour condenser 5, export 14 discharges and be divided into two-part from condenser cooling water, a part is returned the cooling tower cooling by pipeline from cooling tower water inlet 15, another part returns modified model absorption heat pump 6 by pipeline and cold water inlet 19 and emit the heat cooling in the vaporizer 27 of sorption type heat pump, discharges from cooling water outlet subsequently and again enters vapour condenser 5;

Step 4, after the water of condensation of discharging from the driving of modified model absorption heat pump outlet 18 are converged by pipeline with from the water of condensation that the water of condensation outlet 12 of vapour condenser 5 is discharged by pipeline with heat entrance b21 and link to each other, enter the adsorber 28 of modified model absorption heat pump, absorb first lithium bromide vapour concentrated solution and absorb heat of phase change and the solution heat intensification that water vapor discharges, then heat entrance a22 from heating to enter after outlet b23 discharges, discharge from heating outlet a24 after in condenser, absorbing again water recovery heat, enter low-temperature heating device 8 by pipeline, enter boiler 1 by pipeline again and finish circulation;

The step of wherein said modified model absorption heat pump refrigeration and output hot water comprises;

Step a, spray equipment in the generator 25 is drop by recycle pump 29 with generator bottom bromize lithium dilute solution spray, described drop contacts with the hot water pipeline from vacuum exhaust heat collector 9 that Driver Entry 17 enters, moisture is vaporized after absorbing heat, compressor a30 enters condenser 26 by the gas that pipeline extracts in the generator 25, keeps simultaneously generator 25 to keep higher vacuum; Steam runs into and heats the hot water that entrance a22 comes in condenser 26, emit heat, become the condensed water drop, heat that the backwater water that condenses that enters among the entrance a22 is logical have been absorbed steam liberated heat rising temperature and discharge from heating outlet a24, compressor a30 makes pressure reduction in the generator 25, moisture becomes carbonated drink steam in the liquid thereby pressure is increased promote in the generator 25, and promotes that carbonated drink steam becomes liquid in the condenser 26;

Step b, condensed water in the condenser 26 enters vaporizer by pipeline and recycle pump, and be drop by spray equipment spray in the vaporizer 27, the tube contacts of drop and vaporizer cold water inlet 19 absorbs wherein, and heat becomes the vapour low temperature and low pressure water vapor, cold water temperature reduces in the pipeline, and finishes refrigeration, cooling, heat recycle process from cooling water outlet 20 discharges of vaporizer 27;

Step c, steam in the condenser 26 by pipeline by compressor b31 suction adsorber 28, enter the spray equipment of adsorber 28 by recycle pump and pipeline from the bromize lithium concentrated solution of generator 25 bottoms, and the quilt spray is drop, steam and drop meet and absorb dissolving, water becomes liquid state by steam state and emits heat, heat transferred heats the backwater that condenses of coming among the entrance b21, the backwater that condenses absorbs heat and heats up rear by heating entrance b21 discharge, compressor b31 makes pressure reduction in the vaporizer 27, thereby pressure raises and promotes that liquid becomes gas in the vaporizer 27 in the adsorber 28, and gas becomes liquid in the adsorber 28;

Steps d, the bromize lithium concentrated solution in the adsorber 28 becomes bromize lithium dilute solution after absorbing steam, and again is transported to generator by pipeline and recycle pump, finishes circulation.

The principle of wherein said vacuum exhaust heat collector work comprises with reference to figure 3;

Step 1, vacuum pump is taken out the low-pressure saturated steam in the vapour condenser and is pressed onto in the tank body 32 through heat collector entrance 33 pipelines, constantly accumulation reaches 1 barometric pressure in tank body 32, at this moment along with pressure raises, part water vapour loses saturation ratio, become liquid, emit heat, cause temperature to raise, and in tank body 32 bottoms accumulation part water of condensation, be the high temperature saturated vapour in the body cavity;

Step 2, reach a barometric pressure above after, temperature reaches more than 100 degree, enough promotes the absorption type heat pump work, through hot water pump 34, extracts out from tank body 32, exports 36 pipelines through heat collector, passes into the absorption heat pump Driver Entry, drives heat pump work;

Step 3 is sneaked into the fixed gas of water vapour on a small quantity, and after reaching certain pressure, dehumidifying is discharged in the atmosphere by outlet valve 35.Reduce oxygen and sneak into system-wide corrosion, improve system works efficient.

From above-mentioned mode of execution, the utility model improves absorption heat pump by using, greatly improved the efficient of heat pump, therefore can effectively utilize the part hot steam of extracting out in the vapour condenser to change hot water into by gas accumulater and drive absorption heat pump to the heat generation transportation, auxiliary hot steam to the steam turbine discharging is lowered the temperature in vapour condenser, condense, improve the degree of vacuum in the vapour condenser and improved generating efficiency with the reduction cooling water temperature, and by heat pump the part heat is effectively shifted, use this heat with vapour condenser condensation after heat steam condensation backwater and drive the water that exports discharge and carry out concurrent heating, and again add in the boiler recycling, thereby part has been utilized the heat in the steam of steam turbine discharging, reduce hot driving, reduce the boiler energy consumption, reduced cost of electricity-generating by improving two aspects of thermoelectric conversion ratio and heat energy recycle.

Above-mentionedly only several specific embodiments in the utility model are illustrated; but can not be as protection domain of the present utility model; every equivalence variation of having done according to the design spirit in the utility model or modification or equal proportion zoom in or out etc., all should think to fall into protection domain of the present utility model.

Claims (4)

1. one kind is improved vacuum exhaust heat pump type steamer power generation system, it is characterized in that: described improvement vacuum exhaust heat pump type steamer power generation system comprises boiler, steam turbine, generator, vapour condenser, the modified model absorption heat pump, cooling tower, low-temperature heating device, the vacuum exhaust heat collector, vacuum pump, described steam turbine has steam-expelling port, described vapour condenser has extraction opening, steam inlet, the water of condensation outlet, the cooling water inlet, coolant outlet, described cooling tower has the cooling tower water inlet, the cooling tower water outlet, described modified model absorption heat pump has generator, condenser, vaporizer, adsorber, recycle pump, compressor a, compressor b, Driver Entry, drive outlet, cold water inlet, cooling water outlet, heat entrance a, heat entrance b, heat outlet a, heat outlet b, described compressor a is arranged between generator and the condenser, and described compressor b is arranged between adsorber and the vaporizer.

2. improvement vacuum exhaust heat pump type steamer power generation system according to claim 1 is characterized in that: the Driver Entry of described modified model absorption heat pump and driving outlet are arranged on the generator, heat entrance a, heat the outlet a be arranged on the condenser, heat entrance b, heat the outlet b be arranged on the adsorber, cold water inlet, cooling water outlet are arranged on the vaporizer.

3. improvement vacuum exhaust heat pump type steamer power generation system according to claim 2 is characterized in that: described low-temperature heating device, boiler, steam turbine, generator links to each other successively by pipeline, described vapour condenser extraction opening links to each other with the vacuum exhaust heat collector by pipeline and vacuum pump, the vacuum exhaust heat collector links to each other with modified model absorption heat pump Driver Entry by pipeline, the turbine discharge mouth links to each other with the vapour condenser steam inlet by pipeline, the outlet of the water of condensation of described vapour condenser converges by pipeline with from the pipeline of the driving outlet of modified model absorption heat pump, and link to each other with the entrance b that heats of modified model absorption heat pump, heating entrance a and heating outlet b of modified model absorption heat pump communicates, heating outlet a links to each other with low-temperature heating device by pipeline, the coolant outlet of described vapour condenser is divided into two-way by pipeline, link to each other with the cold water inlet of cooling tower water inlet with the modified model absorption heat pump respectively, the cooling water outlet of modified model absorption heat pump converges afterwards by pipeline with the cooling tower water outlet and links to each other with the cooling water inlet of vapour condenser.

According to claim 2 or 3 described improvement vacuum exhaust heat pump type steamer power generation systems it is characterized in that: the generator of described modified model absorption heat pump is connected with condenser by pipeline and compressor a, the generator bottom is with three pipelines, article one, links to each other with spray equipment in the adsorber by recycle pump, second links to each other with generator inner and upper spray equipment by recycle pump, article three, device for cleaning pipeline is crossed recycle pump and is linked to each other with absorber bottom, condenser is connected with vaporizer by pipeline and recycle pump, vaporizer is connected with adsorber by pipeline and compressor b, and base of evaporator is connected with vaporizer inner and upper spray equipment by recycle pump and pipeline.

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