CN103528145B

CN103528145B - A kind of haze air pollutants cancelling air-conditioning system

Info

Publication number: CN103528145B
Application number: CN201310542321.XA
Authority: CN
Inventors: 王全龄
Original assignee: Individual
Current assignee: Individual
Priority date: 2013-11-05
Filing date: 2013-11-05
Publication date: 2016-03-30
Anticipated expiration: 2033-11-05
Also published as: CN103528145A

Abstract

The present invention relates to a kind of haze air pollutants cancelling air-conditioning system, comprise air conditioner cooling tower fountain contaminated air washing, purifying system, pollutant filters adsorption system, blower fan supercharging and noise elimination silene system, spray washing liquid purification processes system and spray liquid formula water source heat pump air conditioning system; Air conditioner cooling tower fountain contaminated air washing, purifying system is filtered adsorption system with pollutant and is connected, its spray liquid return liquid output, stoste input respectively with spray washing liquid purification processes system spray liquid returns liquid input, stoste output is connected, by heat exchanger and spray liquid formula water source heat pump air conditioning system coupled and heat-exchange; Pollutant filters adsorption system and is connected with noise elimination silene system with blower fan supercharging.The present invention can realize central air-conditioning summer air-conditioning refrigeration, winter utilizes regenerative resource to substitute coal-burning stove for heating heat supply, haze air pollutants can be removed again, be not only mankind's economized stone fuel, reach the effect that haze contaminated air is treated both principal and secondary aspect of disease.

Description

A kind of haze air pollutants cancelling air-conditioning system

Technical field

The present invention relates to central air-conditioning system technical field, particularly relate to a kind of haze air pollutants cancelling air-conditioning system.

Background technology

At present, each enterprises and institutions are generally provided with central air conditioner system, and these central air conditioner systems are mostly run at cooling in summer, can not run by heating in the winter time.In addition, the haze air pollution weather that haze weather still annoyings world's majority state, particularly China is very serious, but haze weather mostly appears at winter.If by single for the summer of existing central air conditioner system refrigerating function, be transformed into and can freeze and heat bifunctional central air conditioner system, so existing central air conditioner system just can become can at cooling in summer operation of air conditioner, can run by heating in the winter time again, the spray cooling system of existing air-condition cooling tower can also be utilized, become haze air spray washing purifier.This innovative change to central air conditioning function with utilize cooling tower spray cooling system to eliminate the revolutionary transformation of haze contaminated air, not only utilize the heat supply of air renewable energy source winter heating, for the mankind save huge fossil energy, reduce the pollutant of combustion of fossil fuel discharge, can eliminate haze contaminated air for the world again, be a kind of good approach for the treatment of both principal and secondary aspect of disease to haze pollution weather.

Summary of the invention

The object of the present invention is to provide a kind of haze air pollutants cancelling air-conditioning system, the cooling in summer winter heating function of central air-conditioning can be realized, the object removing haze air pollutants can be realized again.

For reaching this object, the present invention by the following technical solutions:

The invention provides a kind of haze air pollutants cancelling air-conditioning system, comprise air conditioner cooling tower fountain contaminated air washing, purifying system, pollutant filters adsorption system, blower fan supercharging and noise elimination silene system, spray washing liquid purification processes system and spray liquid formula water source heat pump air conditioning system;

The ventilation input that the ventilation output of described air conditioner cooling tower fountain contaminated air washing, purifying system filters adsorption system through airduct and described pollutant is connected, and the ventilation output that described pollutant filters adsorption system is connected with the ventilation input of noise elimination silene system with described blower fan supercharging through airduct; The spray liquid of described air conditioner cooling tower fountain contaminated air washing, purifying system returns liquid output and returns liquid input through pipeline with the dilution spray liquid of described spray washing liquid purification processes system and be connected; The spray liquid stoste input of described air conditioner cooling tower fountain contaminated air washing, purifying system is connected through the spray liquid stoste output of pipeline with described spray washing liquid purification processes system;

Described air conditioner cooling tower fountain contaminated air washing, purifying system carries out coupled and heat-exchange by heat exchanger and described spray liquid formula water source heat pump air conditioning system.

Preferably, described air conditioner cooling tower fountain contaminated air washing, purifying system comprises air conditioner cooling tower, cooling tower air inlet, cooling tower spray system, blower fan of cooling tower, cooling tower air conditioning purge conversion air-valve, cooling tower air conditioning purge conversion air-valve and isolation heat exchanger;

The delivery port of the lower end of described air conditioner cooling tower is connected with through pipeline that spray liquid goes back to liquid filtration cycle pond, spray liquid goes back to liquid filtration cycle pond in turn;

Described spray liquid goes back to liquid filtration cycle pond and comprises the spray liquid liquid return tank, spray liquid liquid return tank sieves and the spray liquid circulatory pool that connect successively;

Described spray liquid circulatory pool and described spray liquid circulatory pool are equipped with spray liquid and return liquid output and spray liquid stoste input;

Described cooling tower spray system is arranged at the inside of described air conditioner cooling tower;

Primary side one end of described isolation heat exchanger connects the spray liquid output of described spray liquid circulatory pool and the spray liquid output of described spray liquid circulatory pool respectively, and the other end of described isolation heat exchanger primary side connects described cooling tower spray system;

The ventilation output of described air conditioner cooling tower filters adsorption system by cooling tower air conditioning purge conversion air-valve with described pollutant through airduct and is connected;

The haze air spray washing liquid of described air conditioner cooling tower fountain contaminated air washing, purifying system is alkalescent anti-icing fluid.

Preferably, described air conditioner cooling tower fountain contaminated air washing, purifying system comprises air conditioner cooling tower, cooling tower air inlet, cooling tower spray system and isolation heat exchanger;

The ventilation output of described air conditioner cooling tower filters adsorption system through described airduct and described pollutant and is connected;

Preferably, described pollutant filtration adsorption system comprises the moisture trap, air roughing efficiency air filter, air medium effeciency filter and the absorbent charcoal adsorber that connect successively through described airduct;

Described moisture trap is changed air-valve through described airduct with described cooling tower air conditioning purge and is connected;

Described absorbent charcoal adsorber is connected with noise elimination silene system with described blower fan supercharging through described airduct.

Preferably, described blower fan supercharging and noise elimination silene system comprise the fan induced draught side muffler, booster fan, blower fan air draft side muffler, high-efficiency air filter, clean air plenum chamber and the rainproof exhaust outlet that are connected successively through described airduct;

The outside of described booster fan is provided with fan shock-absorbing silencing apparatus, and described fan shock-absorbing silencing apparatus is provided with fan shock-absorbing basis;

Described fan induced draught side muffler is connected with described absorbent charcoal adsorber through described airduct.

Preferably, described blower fan supercharging and noise elimination silene system comprise through described airduct successively connecting fan air draft side muffler, high-efficiency air filter, clean air plenum chamber and rainproof exhaust outlet;

Described blower fan air draft side muffler is connected with described absorbent charcoal adsorber through described airduct.

Preferably, described spray washing liquid purification processes system comprises dilution spray liquid purifying plant and spray liquid stoste generator;

Described dilution spray liquid purifying plant by spray liquid purify control valve, spray liquid purification processes tank, dilution spray liquid, dilution spray liquid heats secondary pump, dilution spray liquid heating heat exchanger, dilution spray liquid heats Primary pumps, check-valves, dilution spray liquid heat control valve, dilution spray liquid heats electrothermal tube and dilution spray liquid electrothermal tube power connects and composes;

One end of described dilution spray liquid heating secondary pump connects one end of described spray liquid purification processes tank and dilution spray liquid purification rear pump respectively, the other end of described dilution spray liquid heating secondary pump connects secondary side one end of described dilution spray liquid heating heat exchanger, and the other end of the secondary side of described dilution spray liquid heating heat exchanger connects described spray liquid purification processes tank; Primary side one end of described dilution spray liquid heating heat exchanger connects one end of described dilution spray liquid heating Primary pumps, the other end of described dilution spray liquid heating Primary pumps connects one end of described check-valves, and the other end of described check-valves connects one end, intermediate water side of cooling and warming switching valve in described spray liquid formula water source heat pump air conditioning system and the second refrigeration compression cycle circuit condenser respectively; The other end of the primary side of described dilution spray liquid heating heat exchanger connects one end of described dilution spray liquid heat control valve, the other end of described dilution spray liquid heat control valve connects cooling and warming switching valve one end in the other end of the intermediate water side of described second refrigeration compression cycle circuit condenser and described liquid-spraying type water source heat pump air conditioning system and fan coil respectively, and the heating of above formation dilution spray liquid is purified and provided the heat supplying loop of thermal source by described spray liquid formula water source heat pump air conditioning system;

Described dilution spray liquid heating electrothermal tube is powered by described dilution spray liquid electrothermal tube power, forms and heats electrothermal tube high-temperature heating loop by dilution spray liquid;

Described spray liquid stoste generator comprises spray liquid stoste device for formulating and spray liquid stoste output device;

Described spray liquid stoste device for formulating is connected and composed through pipeline by spray liquid concentration proportioning tank, spray liquid stoste, spray liquid stoste rear pump, spray liquid stoste mixing pump, check-valves and running water supply valve;

Described spray liquid stoste output device is connected and composed through the spray liquid stoste input of pipeline respectively by valve and described spray liquid circulatory pool and described spray liquid circulatory pool by described spray liquid stoste rear pump;

The other end of described dilution spray liquid purification rear pump connects one end of check-valves, and the other end of described check-valves is connected with described spray liquid concentration proportioning tank with described check-valves respectively, more than forms the output loop after the purification of dilution spray liquid;

The spray liquid stoste of described spray washing liquid purification processes system is alkaline anti-freezing solution.

One end of described dilution spray liquid heating secondary pump connects one end of described spray liquid purification processes tank and dilution spray liquid purification rear pump respectively, the other end of described dilution spray liquid heating secondary pump connects secondary side one end of described dilution spray liquid heating heat exchanger, and the other end of the secondary side of described dilution spray liquid heating heat exchanger connects described spray liquid purification processes tank, primary side one end of described dilution spray liquid heating heat exchanger connects one end of described dilution spray liquid heating Primary pumps, the other end of described dilution spray liquid heating Primary pumps connects one end of described check-valves, the other end of described check-valves connects one end of the dilution spray liquid heating valve in described spray liquid formula water source heat pump air conditioning system and one end of dilution spray liquid heating valve respectively, the other end of described dilution spray liquid heating valve connects one end, intermediate water side of the heat recovering heat exchanger in described spray liquid formula water source heat pump air conditioning system, the other end of described dilution spray liquid heating valve connects one end of the intermediate water side of the first refrigeration compression cycle circuit condenser in described spray liquid formula water source heat pump air conditioning system respectively, one end of cooling and warming switching valve and cooling and warming switching valve, more than forming the heating of dilution spray liquid purifies by the heat supply loop of described spray liquid formula water source heat pump air conditioning system recuperation of heat,

Described spray liquid stoste device for formulating is connected and composed through pipeline by spray liquid concentration proportioning tank, spray liquid stoste, spray liquid stoste mixing pump, check-valves and running water supply valve;

The other end of described dilution spray liquid purification rear pump connects one end of check-valves, and the other end of described check-valves is connected with described spray liquid concentration proportioning tank with described check-valves respectively, more than forms the output loop after the purification of dilution spray liquid.

Preferably, described spray liquid formula water source heat pump air conditioning system is made up of following loop:

First refrigeration compression cycle circuit refrigeration compressor, the first refrigeration compression cycle circuit condenser, the first refrigeration compression cycle circuit expansion valve and the first refrigeration compression cycle loop evaporator connect and compose first order heat pump successively;

Second refrigeration compression cycle circuit refrigeration compressor, described second refrigeration compression cycle circuit condenser, the second refrigeration compression cycle circuit expansion valve, the second refrigeration compression cycle loop evaporator connect and compose second level heat pump successively;

Described first order heat pump and described second level heat pump form double loop heat pump assembly;

Described first order heat pump and described second level heat pump connect and compose coupled and heat-exchange loop, double loop through double loop coupling cycle pump and single twin-stage conversion valve;

Air-conditioning exports circulating pump and connects and composes air-conditioning output system successively through the intermediate water side of check-valves, described cooling and warming switching valve, described second refrigeration compression cycle circuit condenser and described fan coil;

The refrigeration connecting and composing double loop heat pump assembly through pipeline by cooling and warming switching valve with heat conversing circuits;

Connect and compose spray liquid by isolation recuperated cycle pump, isolation switching valve, isolation switching valve and isolation switching valve through pipeline to isolate and direct-coupling heat-exchanging loop.

Double loop coupled water tank is configured with between described first refrigeration compression cycle circuit condenser and described second level heat pump second refrigeration compression cycle loop evaporator;

Accumulation of energy attemperater and isolation and amplifier heat exchanger is configured with between described second refrigeration compression cycle circuit condenser and described fan coil;

One end of described double loop coupling cycle pump connects described double loop coupled water tank, the other end of described double loop coupling cycle pump connects one end of described cooling and warming switching valve, the other end of described cooling and warming switching valve connects one end, intermediate water side of described first refrigeration compression cycle circuit condenser and one end of described cooling and warming switching valve respectively, the other end of described first refrigeration compression cycle circuit condenser intermediate water side connects one end of cooling and warming switching valve and one end of cooling and warming switching valve respectively, the other end of described cooling and warming switching valve connects described double loop coupled water tank, more than form first order pump coupled heat water tank type closed circuit,

One end of described second refrigeration compression cycle loop evaporator water side connects described double loop coupled water tank, the other end of described second refrigeration compression cycle loop evaporator water side connects coupling cycle water pump one end, double loop, the other end of described double loop coupling cycle water pump connects described double loop coupled water tank, above formation second level pump coupled heat water tank type closed circuit;

One end of the intermediate water side of described second refrigeration compression cycle circuit condenser connects one end of described accumulation of energy attemperater and described cooling and warming switching valve and described dilution spray liquid heat control valve respectively, the other end of described second refrigeration compression cycle circuit condenser intermediate water side connects one end and check-valves one end of described cooling and warming switching valve respectively, the other end of described cooling and warming switching valve connects described cooling and warming switching valve and check-valves one end, the other end of described check-valves connects one end of energy storage circulation pump, the other end of described energy storage circulation pump connects described accumulation of energy attemperater, more than form air-conditioner energy-accumulation loop,

One end of described isolation and amplifier heat exchanger primary side connects described accumulation of energy attemperater, the other end of described isolation and amplifier heat exchanger primary side connects one end of exoergic circulating pump, the other end of described exoergic circulating pump is connected with described accumulation of energy attemperater, above formation air-conditioning exoergic loop;

Described accumulation of energy attemperater connects described energy storage circulation pump, described check-valves, described cooling and warming switching valve, the intermediate water side of described second refrigeration compression cycle circuit condenser and described accumulation of energy attemperater successively through pipeline and forms heating hot water accumulation of heat loop;

Primary side one end of described isolation and amplifier heat exchanger connects the other end formation heating hot water heat release loop of the primary side of described exoergic circulating pump, described accumulation of energy attemperater and described isolation and amplifier heat exchanger successively through pipeline;

Described accumulation of energy attemperater connects described energy storage circulation pump, described check-valves, described cooling and warming switching valve, the water side of described first refrigeration compression cycle loop evaporator and described cooling and warming switching valve successively through pipeline and forms air conditioner cold accumulation loop to accumulation of energy attemperater;

Described air-conditioning exports circulating pump and connects the secondary side of described isolation and amplifier heat exchanger and described fan coil successively through pipeline and connect and compose air-conditioning and export the circulatory system;

Described air-conditioner energy-accumulation loop also comprises described check-valves.

First refrigeration compression cycle circuit refrigeration compressor, heat recovering heat exchanger, the first refrigeration compression cycle circuit condenser, the first refrigeration compression cycle circuit expansion valve and the first refrigeration compression cycle loop evaporator connect and compose single-stage heat pump successively;

Water side and the described fan coil of air-conditioning output circulating pump, check-valves, described cooling and warming switching valve, described first refrigeration compression cycle circuit condenser connect and compose air-conditioning output loop successively;

The refrigeration connecting and composing described single-stage heat pump through pipeline by cooling and warming switching valve with heat conversing circuits;

Connect and compose spray liquid by isolation recuperated cycle pump, isolation switching valve, isolation switching valve and isolation switching valve through pipeline to isolate and direct-coupling heat-exchanging loop;

One end of described heat recovering heat exchanger intermediate water side connects one end of domestic hot-water's valve and one end of dilution spray liquid heating valve, and the other end of described domestic hot-water's valve connects domestic hot-water's attemperater; The other end of described heat recovering heat exchanger intermediate water side connects one end of check-valves and one end of described dilution spray liquid heating valve respectively; The other end of described check-valves connects one end of domestic hot-water's circulating pump, and the other end of described domestic hot-water's circulating pump connects described domestic hot-water's attemperater; The other end of described dilution spray liquid heating valve connects one end of dilution spray liquid heating heat exchanger and one end of dilution spray liquid heat control valve;

One end, described heat recovering heat exchanger primary coolant side is connected with the exhaust end of described first refrigeration compression cycle circuit refrigeration compressor, and the other end of described heat recovering heat exchanger primary coolant side connects one end of described first refrigeration compression cycle circuit condenser primary coolant side;

Described domestic hot-water's attemperater is configured with domestic hot-water's outlet valve and tap water supply valve.

Beneficial effect of the present invention is:

Haze air pollutants cancelling air-conditioning system provided by the invention, by the single refrigerating function of the cooling tower spray cooling system of the central air-conditioning of prior art, after configuring relevant equipment and anti-icing fluid, just become air conditioner cooling tower fountain contaminated air washing, purifying system.Utilize anti-icing fluid to extract regenerative resource in air, after converting the low-temperature heat quantity in winter cold gas the low-temperature heat quantity of anti-icing fluid to, input water resource heat pump supports water source heat pump heating heat supply running as heat source water; Utilize alkaline anti-icing fluid to wash the air-polluting pernicious gas of haze and fume through the spray cooling system of air-condition cooling tower simultaneously, realize the object eliminating haze air pollutants.

In addition, spray liquid formula water source heat pump air conditioning system of the present invention can when the Northeast Cold Area outside air temperature ﹣ 35 DEG C of China, 65 DEG C of heating hot waters are supplied by double loop water resource heat pump, and 65 DEG C of heating hot waters will not be decayed with temperature Change, can substitute coal-burning stove for heating heating system completely.Utilize air regenerative resource heating, utilize again the regenerative resource in the spray anti-icing fluid extraction air of air conditioner cooling tower simultaneously, the anti-icing fluid spray system washing haze contaminated air of recycling air conditioner cooling tower, can arrive the beneficial effect for the treatment of both principal and secondary aspect of disease to haze air pollution.

Accompanying drawing explanation

Fig. 1 is the structural representation of the haze air pollutants cancelling air-conditioning system that the embodiment of the present invention one provides;

Fig. 2 is the structural representation of the haze air pollutants cancelling air-conditioning system that the embodiment of the present invention two provides;

Fig. 3 is the structural representation of the haze air pollutants cancelling air-conditioning system that the embodiment of the present invention three provides.

Wherein:

A, air conditioner cooling tower fountain contaminated air washing, purifying system; B, pollutant filter adsorption system; C, blower fan supercharging and noise elimination silene system; D, spray washing liquid purification processes system; E, spray liquid formula water source heat pump air conditioning system;

1, air conditioner cooling tower; 2, cooling tower air inlet; 3, cooling tower spray system; 4, blower fan of cooling tower; 5, airduct; 6, moisture trap; 7, air roughing efficiency air filter; 8, air medium effeciency filter; 9, absorbent charcoal adsorber; 10, fan induced draught side muffler; 11, fan shock-absorbing silencing apparatus; 12, booster fan; 13, fan shock-absorbing basis; 14, blower fan air draft side muffler; 15, high-efficiency air filter; 16, clean air plenum chamber; 17, the first rainproof exhaust outlet; 18, the second rainproof exhaust outlet; 19, the first spray liquid by-pass valve control; 20, the second spray liquid by-pass valve control; 21, the first spray liquid goes back to liquid filtration cycle pond; 22, the second spray liquid goes back to liquid filtration cycle pond; 23, the first spray liquid liquid return tank; 24, the second spray liquid liquid return tank; 25, the first spray liquid liquid return tank sieves; 26, the second spray liquid liquid return tank sieves; 27, the first spray liquid circulatory pool; 28, the second spray liquid circulatory pool; 29, the first spray liquid circulating pump; 30, the second spray liquid circulating pump; 31, the first spray liquid purification control valve; 32, the second spray liquid purification control valve; 33, spray liquid purification processes tank; 34, spray liquid is diluted; 35, spray liquid heating secondary pump is diluted; 36, spray liquid heating heat exchanger is diluted; 37, spray liquid heating Primary pumps is diluted; 38, the first check-valves; 39, spray liquid heating electrothermal tube is diluted; 40, spray liquid electrothermal tube power is diluted; 41, spray liquid concentration proportioning tank; 42, spray liquid stoste; 43, spray liquid stoste rear pump; 44, spray liquid stoste mixing pump; 45, running water supply valve; 46, heat exchanger is isolated; 47, the first refrigeration compression cycle loop evaporator; 48, recuperated cycle pump is isolated; 49, the first cooling and warming switching valve; 50, the second cooling and warming switching valve; 51, the 3rd cooling and warming switching valve; 52, the first refrigeration compression cycle circuit refrigeration compressor; 53, the first refrigeration compression cycle circuit condenser; 54, the first refrigeration compression cycle circuit expansion valve; 55, double loop coupling cycle pump; 56, the second refrigeration compression cycle loop evaporator; 57, the 4th cooling and warming switching valve; 58, the second refrigeration compression cycle circuit refrigeration compression; 59, described second refrigeration compression cycle circuit condenser; 60, the second refrigeration compression cycle circuit expansion valve; 62, the 5th cooling and warming switching valve; 63, air-conditioning exports circulating pump; 64, fan coil; 65, the 6th cooling and warming switching valve; 66, the 7th cooling and warming switching valve; 67, double loop coupling cycle water pump; 68, double loop coupled water tank; 69, the 8th cooling and warming switching valve; 70, spray liquid heat control valve is diluted; 71, energy storage circulation pump; 72, the second check-valves; 73, exoergic circulating pump; 74, isolation and amplifier heat exchanger; 75, accumulation of energy attemperater; 76, heat recovering heat exchanger; 77, the first dilution spray liquid heating valve; 78, the second dilution spray liquid heating valve; 79, the 3rd dilution spray liquid heating valve; 80, domestic hot-water's attemperater; 81, domestic hot-water's outlet valve; 82, tap water supply valve; 83, domestic hot-water's valve; 84, domestic hot-water's circulating pump; 85, the 3rd check-valves; 86, the first cooling tower air conditioning purge conversion air-valve; 87, the second cooling tower air conditioning purge conversion air-valve; 88, the first isolation switching valve; 89, the second isolation switching valve; 90, spray liquid purification rear pump is diluted; 91, the 4th check-valves; 92, the 5th check-valves; 93, the first valve; 94, the second valve; 95, the 9th cooling and warming switching valve; 96, the 3rd isolation switching valve; 97, the 6th check-valves.

Detailed description of the invention

Technical scheme of the present invention is further illustrated by specific embodiment below in conjunction with accompanying drawing.

Embodiment one

As shown in Figure 1, a kind of haze air pollutants cancelling air-conditioning system that the present embodiment provides, comprises air conditioner cooling tower fountain contaminated air washing, purifying system A, pollutant filters adsorption system B, blower fan supercharging and noise elimination silene system C, spray washing liquid purification processes system D and spray liquid formula water source heat pump air conditioning system E.

The ventilation input that the ventilation output of air conditioner cooling tower fountain contaminated air washing, purifying system A filters adsorption system B through airduct and pollutant is connected, and the ventilation output that pollutant filters adsorption system B is connected with the ventilation input of blower fan supercharging with noise elimination silene system C through airduct.The spray liquid of air conditioner cooling tower fountain contaminated air washing, purifying system A returns liquid output and returns liquid input through pipeline with the dilution spray liquid of spray washing liquid purification processes system D and be connected.The spray liquid stoste input of air conditioner cooling tower fountain contaminated air washing, purifying system A is connected through the spray liquid stoste output of pipeline with spray washing liquid purification processes system D.Air conditioner cooling tower fountain contaminated air washing, purifying system A carries out coupled and heat-exchange by heat exchanger and spray liquid formula water source heat pump air conditioning system E.

Wherein, air conditioner cooling tower fountain contaminated air washing, purifying system A comprises air conditioner cooling tower 1, cooling tower air inlet 2, cooling tower spray system 3, blower fan of cooling tower 4, first cooling tower air conditioning purge conversion air-valve 86, second cooling tower air conditioning purge conversion air-valve 87 and isolation heat exchanger 46, and cooling tower spray system 3 is arranged at the inside of air conditioner cooling tower 1.In addition, utilize the Push And Release of the first cooling tower air conditioning purge conversion air-valve 86, second cooling tower air conditioning purge conversion air-valve 87, realize spray cooling system independent operating or the air conditioner cooling tower fountain contaminated air washing, purifying system independent operating of air-condition cooling tower.

The delivery port of the lower end of air conditioner cooling tower 1 is connected with the first spray liquid in turn through pipeline and returns liquid filtration cycle pond 21, second spray liquid and go back to liquid filtration cycle pond 22.First spray liquid goes back to liquid filtration cycle pond 21 and comprises the first spray liquid liquid return tank 23, first spray liquid liquid return tank sieves 25 and the first spray liquid circulatory pool 27 connected successively; Second spray liquid goes back to liquid filtration cycle pond 22 and comprises the second spray liquid liquid return tank 24, second spray liquid liquid return tank sieves 26 and the second spray liquid circulatory pool 28 connected successively.Described in first spray liquid circulatory pool 27 and second, spray liquid circulatory pool 28 is equipped with spray liquid and returns liquid output and spray liquid stoste input.

Primary side one end of isolation heat exchanger 46 connects the spray liquid output of the first spray liquid circulatory pool 27 and the spray liquid output of the second spray liquid circulatory pool 28 respectively, and the other end of isolation heat exchanger 46 primary side connects cooling tower spray system 3.The ventilation output of air conditioner cooling tower 1 filters adsorption system B with the second cooling tower air conditioning purge conversion air-valve 87 with pollutant through airduct 5 and is connected.

The haze air spray washing liquid of air conditioner cooling tower fountain contaminated air washing, purifying system A is alkalescent anti-icing fluid, anti-icing fluid is made up of sodium chloride (sea salt) or glycerine (glycerine), because these two kinds of materials do not injure human body, other anti-icing fluid more or less has certain toxicity to human body.The present embodiment uses glycerine anti-icing fluid, if when using sodium chloride anti-icing fluid, the spray cooling system equipment of air-condition cooling tower, should consider salt tolerant anticorrosive measure.After configuring anti-freezing solution according to this area winter temperature, then in anti-icing fluid, adding NaOH (NaOH) or triethanolamine, is alkaline aqueous solution by anti-icing fluid.The addition of its NaOH (NaOH) or triethanolamine, depending on air pollution degree, the nitrogen dioxide (NO particularly in contaminated air ₂), sulfur dioxide (SO ₂) and carbon dioxide (CO ₂) concentration add preparation.

Pollutant filters adsorption system B and comprises the moisture trap 6, air roughing efficiency air filter 7, air medium effeciency filter 8 and the absorbent charcoal adsorber 9 that connect successively through airduct 5.Moisture trap 6 is changed air-valve 87 through airduct 5 with the second cooling tower air conditioning purge and is connected, and absorbent charcoal adsorber 9 is connected with noise elimination silene system C with blower fan supercharging through airduct 5.

Blower fan supercharging and noise elimination silene system C comprise be connected successively through airduct 5 fan induced draught side muffler 10, booster fan 12, blower fan air draft side muffler 14, high-efficiency air filter 15, clean air plenum chamber 16, first rainproof exhaust outlet 17 and the second rainproof exhaust outlet 18.The outside of booster fan 12 is provided with fan shock-absorbing silencing apparatus 11, fan shock-absorbing silencing apparatus 11 is provided with fan shock-absorbing basis 13, and fan induced draught side muffler 10 is connected with absorbent charcoal adsorber 9 through airduct 5.

Spray washing liquid purification processes system D comprises dilution spray liquid purifying plant and spray liquid stoste generator, and its spray liquid stoste is alkaline anti-freezing solution.

Wherein, dilute spray liquid purifying plant by the first spray liquid purification control valve 31, second spray liquid purification control valve 32, spray liquid purification processes tank 33, dilution spray liquid 34, dilution spray liquid heats secondary pump 35, dilution spray liquid heating heat exchanger 36, dilution spray liquid heats Primary pumps 37, first check-valves 38, dilution spray liquid heat control valve 70, dilution spray liquid heats electrothermal tube 39 and dilution spray liquid electrothermal tube power 40 connects and composes.

Concrete, one end of dilution spray liquid heating secondary pump 35 connects one end of spray liquid purification processes tank 33 and dilution spray liquid purification rear pump 90 respectively, the other end of dilution spray liquid heating secondary pump 35 connects secondary side one end of dilution spray liquid heating heat exchanger 36, and the other end of the secondary side of dilution spray liquid heating heat exchanger 36 connects spray liquid purification processes tank 33.Primary side one end of dilution spray liquid heating heat exchanger 36 connects one end of dilution spray liquid heating Primary pumps 37, the other end of dilution spray liquid heating Primary pumps 37 connects one end of the first check-valves 38, and the other end of the first check-valves 38 connects one end, intermediate water side of the 8th cooling and warming switching valve 69 in spray liquid formula water source heat pump air conditioning system E and the second refrigeration compression cycle circuit condenser 59 respectively; The other end of the primary side of dilution spray liquid heating heat exchanger 36 connects one end of dilution spray liquid heat control valve 70, the other end of dilution spray liquid heat control valve 70 connects the other end of the intermediate water side of the second refrigeration compression cycle circuit condenser 59 and the 6th cooling and warming switching valve 66 one end in spray liquid formula water source heat pump air conditioning system E and fan coil 64 respectively, more than forms dilution spray liquid heating purification by the heat supplying loop being provided thermal source by spray liquid formula water source heat pump air conditioning system E.

Dilution spray liquid heating electrothermal tube 39 is powered by dilution spray liquid electrothermal tube power 40, forms and heats electrothermal tube 39 high-temperature heating loop by dilution spray liquid;

Spray liquid stoste generator comprises spray liquid stoste device for formulating and spray liquid stoste output device.Spray liquid stoste device for formulating is connected and composed through pipeline by spray liquid concentration proportioning tank 41, spray liquid stoste 42, spray liquid stoste rear pump 43, spray liquid stoste mixing pump the 44, the 5th check-valves 92 and running water supply valve 45, provides running water by running water supply valve 45 to spray liquid concentration proportioning tank 41; Spray liquid stoste output device is connected and composed through the spray liquid stoste input of pipeline respectively by the first valve 93, second valve 94 and the second spray liquid circulatory pool 28 and the first spray liquid circulatory pool 27 by spray liquid stoste rear pump 43.The other end of dilution spray liquid purification rear pump 90 connects one end of the 4th check-valves 91, and the other end of the 4th check-valves 91 is connected with spray liquid concentration proportioning tank 41 with the 5th check-valves 92 respectively, more than forms the output loop after the purification of dilution spray liquid.

Spray liquid formula water source heat pump air conditioning system E is made up of following loop:

First refrigeration compression cycle circuit refrigeration compressor 52, first refrigeration compression cycle circuit condenser 53, first refrigeration compression cycle circuit expansion valve 54 and the first refrigeration compression cycle loop evaporator 47 connect and compose first order heat pump successively.Second refrigeration compression cycle circuit refrigeration compressor 58, described second refrigeration compression cycle circuit condenser 59, second refrigeration compression cycle circuit expansion valve 60, second refrigeration compression cycle loop evaporator 56 connect and compose second level heat pump successively.First order heat pump and second level heat pump form double loop heat pump assembly.

First order heat pump and second level heat pump connect and compose coupled and heat-exchange loop, double loop through double loop coupling cycle pump 55 and the first cooling and warming conversion valve 57.Air-conditioning exports circulating pump 63 and connects and composes air-conditioning output system successively through the intermediate water side of the 6th check-valves 97, the 8th cooling and warming switching valve 69, second refrigeration compression cycle circuit condenser 59 and fan coil 64.By the first cooling and warming switching valve 49, second cooling and warming switching valve 50,3rd cooling and warming switching valve 51,4th cooling and warming switching valve 57,5th cooling and warming switching valve 62,6th cooling and warming switching valve the 65, seven cooling and warming switching valve 66 and the 8th cooling and warming switching valve 69 connect and compose double loop heat pump assembly refrigeration through pipeline and heat conversing circuits.Connect and compose spray liquid by isolation recuperated cycle pump 48, first isolation switching valve 88, second isolation switching valve 89 and the 3rd isolation switching valve 96 through pipeline to isolate and direct-coupling heat-exchanging loop.

When winter heating heat supply and haze air spray washing purify and run simultaneously, the first cooling tower air conditioning purge conversion air-valve 86 cuts out, and the second cooling tower air conditioning purge conversion air-valve 87 is opened.Blower fan of cooling tower 4 and booster fan 12 operate jointly, air is entered by the cooling tower air inlet 2 of air conditioner cooling tower 1, formation wind is forced through blower fan of cooling tower 4 and the running of booster fan 12 fan blade, this ventilation to enter blower fan supercharging and noise elimination silene system C through airduct 5 to the second cooling tower air conditioning purge conversion air-valve 87 through moisture trap 6 to air roughing efficiency air filter 7 fan induced draught side muffler 10 to booster fan 12 through air medium effeciency filter 8 to absorbent charcoal adsorber 9 by blower fan air draft side muffler 14 through high-efficiency air filter 15 to clean air plenum chamber 16 by the first rainproof exhaust outlet 17, second rainproof exhaust outlet 18 by purification after air discharged to air.The ventilation and the purification of air that complete the haze air pollutants cancelling air-conditioning system that the present embodiment provides are run.Ventilate after being entered by the cooling tower air inlet 2 of air conditioner cooling tower 1 simultaneously, adverse current friction heat exchange in the filler of the antifreeze spray liquid sprayed with cooling tower spray system 3 in cooling tower, low-temperature heat quantity displacement in ventilating is become among antifreeze spray liquid, again by antifreeze spray liquid input water source heat pump units, as the heat source water of water source heat pump units, ensure that the normal heating of water resource heat pump runs.

For ensureing fan operation safety when above-mentioned blower fan of cooling tower 4 and booster fan 12 run, blower fan of cooling tower 4 and booster fan 12 synchronous operation should be ensured by converter technique.

If when adopting isolation heat exchange to run, spray liquid isolates switching valve 96 to isolation heat exchanger 46 primary side through cleaning solution from air conditioner cooling tower 1 to cooling tower spray system 3 to filler sprinkling vaporific alkaline anti-freezing solution mode air conditioner cooling tower 1 in through pipeline by the 3rd by the first spray liquid circulating pump 29, second spray liquid circulating pump 30, in the filler of haze contaminated air in air conditioner cooling tower 1, carry out abundant gas-liquid contact and cyclic washing with cleaning solution.Owing to containing nitrogen dioxide (NO in haze contaminated air ₂), sulfur dioxide (SO ₂) and carbon dioxide (CO ₂) etc. harmful gas, wherein nitrogen dioxide (NO ₂) react generate nitric acid or nitrous acid with the water in alkaline anti-freeze water solution; Sulfur dioxide (SO ₂) react generate sulfuric acid or sulfurous acid with the water in alkaline anti-freeze water solution; Carbon dioxide (CO ₂) react generate carbonic acid with the water in alkaline anti-freeze water solution.Be furnished with NaOH (NaOH) or triethanolamine weak alkaline aqueous solution in alkalescence anti-freezing solution, can above-mentioned organic acid and inorganic acid be neutralized, and neutralization reaction generation salt and water occur.Fume in haze contaminated air, repeatedly rinses with cleaning solution and to contact and after fully wash, the fume in haze contaminated air is dissolved among spray liquid, thus realizes the object of the above-mentioned pernicious gas of elimination and fume.

Alkalescence anti-freezing solution formula wash spray liquid sprays through cooling tower spray system 3 and contacts time liquid after washing with fume with pernicious gas, is connected to the first spray liquid by-pass valve control 19, second spray liquid by-pass valve control 20 flows into the first spray liquid and return liquid filtration cycle pond 21, second spray liquid and return in liquid filtration cycle pond 22 by the delivery port of air conditioner cooling tower 1 lower end drip tray through pipeline.The effect of the first spray liquid by-pass valve control 19, second spray liquid by-pass valve control 20 is that control realization first spray liquid returns liquid filtration cycle pond 21, second spray liquid and returns liquid filtration cycle pond 22 the using and the reserved, an operation at ordinary times, another seat cleaning waste residue refuse.By the first spray liquid liquid return tank 23 when spray runs, spray liquid in second spray liquid liquid return tank 24 returns liquid, through the first spray liquid liquid return tank sieves 25, spray liquid is returned the waste residue refuse filtering that impurity in liquid and neutralization reaction generate by the second spray liquid liquid return tank sieves 26, free from foreign meter and spray liquid that is waste residue refuse returns liquid and flows into the first spray liquid circulatory pool 27 and the second spray liquid circulatory pool 28, again through the first spray liquid circulating pump 29 after mixing with alkaline anti-freeze water solution, second spray liquid circulating pump 30 to the 3rd isolation switching valve 96 to repeat the spray of above-mentioned spray liquid to cooling tower spray system 3 through isolation heat exchanger 46 primary side, washing, filter and circular flow process.After the impurity filtering some through the first spray liquid liquid return tank sieves 25 and the second spray liquid liquid return tank sieves 26 and waste residue refuse, first spray liquid liquid return tank 23 and the second spray liquid liquid return tank 24 are by the impurity be configured on the first spray liquid liquid return tank 23, second spray liquid liquid return tank 24 and waste residue waste scavenging mechanism, and wheel is changed commanders, and it takes out and is sent to destructor plant and discards.

Above-mentioned pernicious gas and fume, can not all be eliminated completely in air conditioner cooling tower fountain contaminated air washing, purifying system and device, thoroughly removed in pollutant filtration adsorption system B for the pernicious gas of slipping through the net and fume.Now because the first cooling tower air conditioning purge conversion air-valve 86 cuts out, second cooling tower air conditioning purge conversion air-valve 87 is opened, the pernicious gas of slipping through the net and fume, change air-valve 87 through airduct 5 by the second cooling tower air conditioning purge by the air draft of cooling tower and pass through airduct 5 through moisture trap 6 by separated from the gas for the moisture in cooling tower spray liquid, separated moisture returns the first spray liquid by pipeline and goes back to liquid filtration cycle pond 21 and the second spray liquid goes back to liquid filtration cycle pond 22, dry air is through air roughing efficiency air filter 7, air medium effeciency filter 8, absorbent charcoal adsorber 9 utilizes the filter method of filter and the adsorption method of active carbon they thoroughly to be eliminated again.After spray washing, the pollutant of 0.1 μm ~ 10 μm particle diameters and above larger particles and the large portion of pernicious gas are by washing filtering, the pernicious gas of slipping through the net on a small quantity and fume, through the fume removed by filtration of air roughing efficiency air filter 7 Jiang≤more than 5 μm, again through the fume removed by filtration of air medium effeciency filter 8 Jiang≤more than 1 ~ 5 μm, finally through high-efficiency air filter 15 Jiang≤the fume removed by filtration of more than 0.1 ~ 1 μm, by clean air plenum chamber 16 and the first rainproof exhaust outlet 17, second rainproof exhaust outlet 18 by purification after clean air discharged among air.If when needing certain system independent operating: when opening the first cooling tower air conditioning purge conversion air-valve 86, when closing the second cooling tower air conditioning purge conversion air-valve 87, the spray cooling system independent operating of the existing cooling tower of central air-conditioning can be realized; When opening the second cooling tower air conditioning purge conversion air-valve 87, when closing the first cooling tower air conditioning purge conversion air-valve 86, air conditioner cooling tower fountain contaminated air washing, purifying system can independent operating.

Fume within high-efficiency air filter 15 Shi Zhen Dui≤0.1 ~ 1 μm carries out filtering, the fume of 0.1 ~ 1 micron grain size, maximum to human injury, and it invades among blood of human body more easily by lung.But the windage of high-efficiency air filter 15 is comparatively large, its windage is at about 260 ~ 320Pa, and this requires that blower fan will have larger blast, and will consume higher electrical power, causes fan noise also stronger.But detection air pollution standard is the detection for Pm2.5 at present, therefore will by the detection case to Pm2.5, consider high efficiency particulate air filter 15 whether to be necessary to install, or high-efficiency air filter 15 fillter section still configures, but the filter core of high efficiency particulate air filter can not be installed, once the fume needing filtration 0.1 ~ 1 micron grain size, then the filtering material such as the filter core installing high efficiency particulate air filter, flexible Application high-efficiency air filter 15, realization i.e. energy-conservation but also environmental protection ground runs.

The present embodiment is the elimination system for outside atmosphere Air Contamination thing, and therefore the present embodiment device should have powerful blast and air quantity, can produce huge noise, so the present embodiment device is configured with blower fan supercharging and noise elimination silene system C.Even if when not installing the air conditioner cooling tower fountain contaminated air washing, purifying system of the present embodiment, the spray cooling system of air-condition cooling tower originally, also can produce larger noise, bring secondary noise pollution to environment.The present embodiment is owing to being configured with blower fan supercharging and noise elimination silene system, not only the noise of air conditioner cooling tower fountain contaminated air washing, purifying system is eliminated, and the noise that the spray cooling system of former air-condition cooling tower produces also has been eliminated, and makes the haze air pollutants cancelling aircondition of the present embodiment reach quiet operational effect.Blower fan supercharging and noise elimination silene system C, in order to eliminate huge noise, have employed multiple noise elimination and noise reduction technical measures and method.It is made up of fan induced draught side muffler 10, booster fan 12, fan shock-absorbing silencing apparatus 11, fan shock-absorbing basis 13, blower fan air draft side muffler 14.Wherein fan shock-absorbing silencing apparatus 11 and fan shock-absorbing basis 13 thoroughly can be eliminated when booster fan 12 runs and be produced Ji Machine vibrations noise, fan induced draught side muffler 10 and blower fan air draft side muffler 14 can eliminate the friction noise that booster fan 12 both sides produce because of air force completely, also eliminate various noise and the noise of blower fan of cooling tower 4 generation, the haze air pollutants cancelling aircondition realizing the present embodiment reaches quiet operational effect simultaneously.

When winter, the purification of haze contaminated air spray washing ran, the spray washing liquid of alkalescence anti-freezing solution mode, its alkalescence can reduce gradually along with acid-base neutralization reaction density, alkaline anti-freezing solution also can by the impact of air humidity in addition, moisture in air dilutes alkaline anti-freezing solution gradually, therefore the present embodiment configuration spray washing liquid purification processes system D.Spray washing liquid purification processes system is the feature utilizing the boiling point of glycerine higher than water, and heating is purified.The boiling point of glycerine is at 290 DEG C, and the boiling point of water is 100 DEG C, with the water evaporates that the simple and easy way of heating will be diluted in spray liquid, the glycerin solution of rest high concentration inputs among spray liquid concentration proportioning tank 41 by diluting spray liquid purification rear pump 90 through the 4th check-valves 91, after mixing with high concentration or glycerine stoste again, by spray liquid stoste rear pump 43 through pipeline respectively by the first valve 93, second valve 94 sends into the second spray liquid circulatory pool 28, first spray liquid circulatory pool 27, the spray liquid that liquid proportioning is suitable concn is returned with by the spray diluted, continue Sprayer Circulation to run.If spray liquid is made up of sodium-chloride water solution, above-mentioned heating method of purification also can be used to be purified by the water evaporates in dilution spray liquid.The thermal source of spray washing liquid purification processes system is provided by two-way: a road heats Primary pumps 37 through first check-valves 38 to the second refrigeration compression cycle circuit condenser 59 secondary side one end by dilution spray liquid heating heat exchanger 36 primary side one end by diluting spray liquid, through the other end of the second refrigeration compression cycle circuit condenser 59 secondary side through releasing the other end of spray liquid heat control valve 70 to dilution spray liquid heating heat exchanger 36 primary side, provide 65 DEG C of hot water as thermal source by spray liquid formula double loop water source heat pump air conditioning system E; Heat secondary pump 35 by one end of dilution spray liquid heating heat exchanger 36 secondary side through dilution spray liquid again to circulate, by the hot water heat exchange of primary side 65 DEG C in spray liquid purification processes tank 33 with spray liquid purification processes tank 33.Because the boiling point of water is higher than 100 DEG C, so configuration dilution spray liquid heating electrothermal tube 39 and dilution spray liquid electrothermal tube power 40 form another road thermal source; Utilize electrical heating can the feature of high-temperature heating, will be continued to heat by 65 DEG C by the dynamic spray liquid of dilution and more than 100 DEG C, anti-icing fluid that water evaporates is purified.Anti-icing fluid after purification inputs among spray liquid concentration proportioning tank 41 through the 4th check-valves 91 by diluting spray liquid purification rear pump 90.

Winter heating heat supply is made up of the spray liquid formula wind energy heat pump of the present embodiment.Air does not originally have the energy, and air movement produces wind, only has wind air low for temperature could to be taken away, is sent here by air high for temperature, produces the temperature difference, forms the energy, therefore should be wind energy heat pump.The spray liquid formula wind energy heat pump of the present embodiment, be exactly first use spray liquid and air heat-exchange, the spray liquid of air themperature will be represented again, send into water source heat pump units as heat source water, for water resource heat pump provides thermal source, support water resource heat pump normally to run, extract air wind energy, realize utilizing this regenerative resource heating of wind energy.

When the spray liquid formula double loop water source heat pump air conditioning system E of the present embodiment runs and spray liquid heat exchange divide two-way: a road utilizes to isolate heat exchanger 46 and the 3rd and isolate switching valve 96 and kept apart by the input closed circuit of spray liquid closed circuit and water resource heat pump first refrigeration compression cycle loop evaporator 47 water side, two-way water source does not contact mutually, its advantage avoids alkaline anti-freeze water solution directly to enter source heat pump air conditioning device, harmful effect is brought to water source heat pump units, when particularly adopting sodium-chloride water solution, avoid the corrosion that water source heat pump units is produced; Another road is through the first isolation switching valve 88 to the first refrigeration compression cycle loop evaporator 47 primary side by the first spray liquid circulating pump 29, second spray liquid circulating pump 30, form alkaline anti-freeze water solution through the second isolation switching valve 89 to cooling tower spray system 3 again and directly enter the heat exchange operation of water resource heat pump loop, its advantage is that of avoiding because isolation heat exchange will lose certain temperature difference, and therefore direct heat transfer is higher than isolation heat exchange operational efficiency.If when air pollution is not too serious, nitrogen oxide (NO in air _x) and sulfur dioxide (SO ₂) etc. harmful vapors concentration not high time, can direct heat transfer when the proportion of NaOH (NaOH) is little because glycerine (glycerine) can not produce corrosion to hardware.

During winter heating heat supply running, by the first spray liquid circulating pump 29, second spray liquid circulating pump 30, spray liquid is inputted through the 3rd isolation switching valve 96 to isolation heat exchanger 46 primary side one end again through isolating the other end of heat exchanger 46 primary side to cooling tower spray system 3, spray vaporific spray liquid and the wind adverse current friction heat exchange of being compeled to circulate by blower fan of cooling tower semi-finals, the wind energy heat in circulated air is compeled in the semi-finals of extraction blower fan of cooling tower, wind energy displacement is turned into heat in spray liquid, then through the heat exchange of isolation heat exchanger 46 primary side to secondary side, by isolation recuperated cycle pump 48 through isolation heat exchanger 46 2 times by the first cooling and warming switching valve 49 through the first refrigeration compression cycle loop evaporator 47 water sides, isolation recuperated cycle pump 48 is back to by the 3rd cooling and warming switching valve 51, there is provided heat source water to first order water resource heat pump, the first refrigeration compression cycle circuit refrigeration compressor 52 operates, compressed high temperature refrigerant exhaust enters the first refrigeration compression cycle circuit condenser 53 primary coolant side condensation heat release, after condensation heat release, cold-producing medium becomes liquid state from gaseous state, liquid refrigerant is after the first refrigeration compression cycle circuit expansion valve 54 throttling, enter the refrigerant side of the first refrigeration compression cycle loop evaporator 47 2 times, continue evaporation and absorb heat in spray liquid and repeat above-mentioned first order refrigerant compression and heat circular flow, above-mentioned condensation exothermic process is also the process heated by the coupling liquid of double loop coupling cycle pump 55 circular flow warp the first refrigeration compression cycle circuit condenser 53 secondary side, by the coupling liquid that heats through the 4th cooling and warming switching valve 57 to the second refrigeration compression cycle loop evaporator 56 water sides, heat first order refrigerant compression being heated circulation through water side to the double loop coupling cycle pump 55 of the second refrigeration compression cycle loop evaporator 56 primary side again heats in closed circuit by two coupling circuit heat exchange to second level refrigerant compression, coupling liquid is running water in the present embodiment, by the water side of the second refrigeration compression cycle loop evaporator 56 primary side, the heating capacity of first order heat pump is passed through two coupling circuit, its thermal coupling is converted to the refrigerant side of the second refrigeration compression cycle loop evaporator 56 secondary side, after the cold-producing medium evaporation endothermic of the second refrigeration compression cycle loop evaporator 56 secondary side, compress through the second refrigeration compression cycle circuit refrigeration compressor 58, primary side to the second refrigeration compression cycle circuit condenser 59 discharges high temperature refrigerant gas and condensation heat release, refrigerant liquid after condensation heat release, after the second refrigeration compression cycle circuit expansion valve 60 throttling, continue the refrigerant side evaporation endothermic entering the second refrigeration compression cycle loop evaporator 56 secondary side, repeat above-mentioned second level refrigerant compression and heat circular flow, heating hot water exports circulating pump 63 by air-conditioning and is back to air-conditioning to the 8th cooling and warming switching valve 69 through secondary side to the fan coil 64 of the second refrigeration compression cycle circuit condenser 59 through the 6th check-valves 97 and exports circulating pump 63 and complete by fan coil 64 to indoor heating heat supply running.

When cooling in summer runs, connected and composed double loop heat pump assembly through pipeline and freezed by the first cooling and warming switching valve 49, second cooling and warming switching valve 50, the 3rd cooling and warming switching valve 51, the 4th cooling and warming switching valve 57, the 5th cooling and warming switching valve 62, the 6th cooling and warming switching valve 65, the 7th cooling and warming switching valve 66, the 8th cooling and warming switching valve 69 and heat conversing circuits.Weather is polluted owing to substantially there is no haze summer, so air conditioner cooling tower fountain contaminated air washing, purifying system A is out of service, at this moment the first cooling tower purification conversion air-valve 86 is opened, and the second cooling tower purification conversion air-valve 87 cuts out, and prior art conventional operation replied by cooling tower.Now anti-icing fluid all returns liquid filtration cycle pond 21, second spray liquid stored in the first spray liquid and returns among wherein one of liquid filtration cycle pond 22, if one deposit can also stored among spray liquid purification processes tank 33 when failing to lay down.Suppose that the first spray liquid goes back to liquid filtration cycle pond 21 and is cleared, then running water is put into as cooling water during refrigerating operaton, by the first spray liquid circulating pump 29 through the second cooling and warming switching valve 50 to the first refrigeration compression cycle circuit condenser 53 intermediate water side one end again by the other end of the first refrigeration compression cycle circuit condenser 53 intermediate water side through the 6th refrigeration hot-cast socket valve 65 to cooling tower spray system 3, the condensation heat of the first refrigeration compression cycle circuit condenser 53 secondary side is disposed among air through cooling tower spray system 3 and completes spraying cooling operation, flow into the first spray liquid through the cooled cooling water of cooling tower through the second spray liquid by-pass valve control 20 and go back to liquid filtration cycle pond 21, the condensation exothermic process of above-mentioned refrigeration spray operation is repeated again through the first spray liquid circulating pump 29, first refrigeration compression cycle circuit refrigeration compressor 52 operates compression exhaust, through the refrigerant side of the first refrigeration compression cycle circuit condenser 53 primary side to the water side condensation heat release of secondary, condensed liquid refrigerant is after the first refrigeration compression cycle circuit expansion valve 54 throttling, enter the refrigerant side of the first refrigeration compression cycle loop evaporator 47 2 times, heat in the chilled water of evaporation absorption first refrigeration compression cycle loop evaporator 47 water sides, chilled water refrigeration is become chilled water, by air-conditioning export circulating pump 63 through the 6th check-valves 97 to the 5th cooling and warming switching valve 62 through one end, the first refrigeration compression cycle loop evaporator 47 water sides, the other end again through first refrigeration compression cycle loop evaporator 47 water sides is back to air-conditioning output circulating pump 63 by the 7th cooling and warming switching valve 66 to fan coil 64 and forms by fan coil 64 cooling in summer operation of air conditioner.When cooling in summer runs, the second refrigeration compression cycle circuit refrigeration compressor 58 is out of service, by the first refrigeration compression cycle circuit refrigeration compressor 52 independent operation, because cooling in summer can be met the demand of cooling in summer completely by first order water resource heat pump, do not need second level operation of heat pump.

Embodiment two

As shown in Figure 2, a kind of haze air pollutants cancelling air-conditioning system that the present embodiment provides, the present embodiment is substantially identical with embodiment one, and its difference part is as follows:

Air conditioner cooling tower 1 inside in air conditioner cooling tower fountain contaminated air washing, purifying system A is not provided with blower fan of cooling tower 4, first cooling tower air conditioning purge conversion air-valve 86 and the second cooling tower air conditioning purge conversion air-valve 87, and the ventilation output of air conditioner cooling tower 1 filters adsorption system B and blower fan supercharging and noise elimination silene system C through airduct 5 and pollutant; In the haze air pollutants cancelling air-conditioning system that the present embodiment provides, after forced-air systems selects suitable blast, air quantity and electrical power to booster fan 12, run by the forced ventilation of booster fan 12 complete independently.But cooling tower air draft top should seal, ventilate and filter adsorption system B and blower fan supercharging and the unidirectional air-supply of noise elimination silene system C by airduct 5 to pollutant, its ventilation running is the same with the two fans of above-mentioned Fig. 1, no longer repeats to describe.The numerical value that booster fan 12 can utilize Pm2.5 or other contaminated air checkout equipments to detect, by converter technique, controls the blast of booster fan 12 and air quantity and revolution energy-saving run or start-stop.When the present embodiment cooling in summer runs, weather is polluted owing to there is no haze summer, when not needing purification of air, the active carbon of the filter core of air roughing efficiency air filter 7, air medium effeciency filter 8 and high-efficiency air filter 15 or filter material and absorbent charcoal adsorber 9 can be removed, make above-mentioned pollutant filter adsorption system B and blower fan supercharging and noise elimination silene system C, only play logical wind action.

In addition, between the first refrigeration compression cycle circuit condenser 53 and second level heat pump second refrigeration compression cycle loop evaporator 56 of the first order heat pump of spray liquid formula water source heat pump air conditioning system E, double loop coupled water tank 68 is configured.Double loop coupled water tank 68 connects and composes first order pump coupled heat closed circuit through the secondary side of double loop coupling cycle pump the 55, the 4th cooling and warming switching valve 57, first refrigeration compression cycle circuit condenser 53, the 9th cooling and warming switching valve 95 and double loop coupled water tank 68 by pipeline.Second level pump coupled heat closed circuit is connected and composed with double loop coupled water tank 68 respectively by double loop coupling cycle water pump 67 and the second refrigeration compression cycle loop evaporator 56 primary side.

Accumulation of energy attemperater 75 is configured and isolation and amplifier heat exchanger 74 forms air-conditioner energy-accumulation exoergic device between the secondary side of described second refrigeration compression cycle circuit condenser 59 and described fan coil 64.Accumulation of energy attemperater 75 forms energy storage loop through the secondary side of the second refrigeration compression cycle circuit condenser 59 to accumulation of energy attemperater 75 through the 8th cooling and warming switching valve 69 through energy storage circulation pump 71 to the second check-valves 72.Air-conditioning exoergic loop is formed through the other end of accumulation of energy attemperater 75 to isolation and amplifier heat exchanger 74 primary side again through exoergic circulating pump 73 to accumulation of energy attemperater 75 by one end of isolation and amplifier heat exchanger 74 primary side.Air-conditioning exports circulating pump 63 and is connected through pipeline one end with isolation and amplifier heat exchanger 74 secondary side, and the other end of isolation and amplifier heat exchanger 74 secondary side and fan coil 64 connect and compose air-conditioning and export the circulatory system.Described refrigeration with heat conversing circuits and connect and compose double loop heat pump assembly by the first cooling and warming switching valve 49, second cooling and warming switching valve 50, the 3rd cooling and warming switching valve 51, the 4th cooling and warming switching valve 57, the 5th cooling and warming switching valve 62, the 6th cooling and warming switching valve 65, the 7th cooling and warming switching valve 66, the 8th cooling and warming switching valve 69 and the 9th cooling and warming switching valve 95 through pipeline successively and freeze and heat conversing circuits.Isolation and direct heat transfer conversing circuits is formed by isolation recuperated cycle pump 48, first isolation switching valve 88, second isolation switching valve 89 and the 3rd isolation switching valve 96.Described energy storage loop also comprises the second check-valves 72.

During winter heating heat supply regenerative operation, first refrigeration compression cycle circuit refrigeration compressor 52 operates, compressed high temperature refrigerant exhaust enters the refrigerant side condensation heat release of the first refrigeration compression cycle circuit condenser 53 primary side, after condensation heat release, cold-producing medium becomes liquid state from gaseous state, liquid refrigerant is after the first refrigeration compression cycle circuit expansion valve 54 throttling, enter the refrigerant side of the first refrigeration compression cycle loop evaporator 47 2 times, continue evaporation endothermic and repeat above-mentioned first order refrigerant compression and heat circular flow, above-mentioned condensation heat release is heated the coupled water of the first refrigeration compression cycle circuit condenser 53 secondary side by double loop coupling cycle pump 55 circular flow warp, by the coupled water that heats through the 4th cooling and warming conversion valve 57 to the first refrigeration compression cycle circuit condenser 53 secondary side by the 9th cooling and warming switching valve 95 to double loop coupled water tank 68, complete among the heating capacity coupled and heat-exchange of first order heat pump to double loop coupled water tank 68, complete the water side of heating capacity coupled and heat-exchange to the second refrigeration compression cycle loop evaporator 56 primary side of first order heat pump by water side to the double loop coupling cycle pump 67 of the second refrigeration compression cycle loop evaporator 56 primary side by double loop coupling cycle pump 67 again through the water side of double loop coupled water tank 68 to the second refrigeration compression cycle loop evaporator 56 primary side again, again by the water side of the second refrigeration compression cycle loop evaporator 56 primary side, by the refrigerant side of heating capacity coupled and heat-exchange to the second refrigeration compression cycle loop evaporator 56 secondary side of first order heat pump, compress through the second refrigeration compression cycle circuit refrigeration compressor 58 again, primary side to the second refrigeration compression cycle circuit condenser 59 is discharged high temperature refrigerant gas and is carried out condensation heat release, refrigerant liquid after condensation heat release, after the second refrigeration compression cycle circuit expansion valve 60 throttling, the refrigerant side evaporation continuing to enter the second refrigeration compression cycle loop evaporator 56 secondary side absorbs the heat of coupled water in double loop coupled water tank 68, repeats the heat pump refrigerating compression pyrogenic circular flow of the above-mentioned second level,

Through spray liquid formula water source heat pump air conditioning system E two-stage heating operation, 65 DEG C of heating hot waters are stored among accumulation of energy attemperater 75 to accumulation of energy attemperater 75 by the water side of the 8th cooling and warming switching valve 69 through the second refrigeration compression cycle circuit condenser 59 2 times to the 8th cooling and warming switching valve 69 through the second check-valves 72 by energy storage circulation pump 71 by heating hot water again, complete heating hot water accumulation of heat loop and run; When exoergic runs, be back to exoergic circulating pump 73 through the other end of accumulation of energy attemperater 75 to isolation and amplifier heat exchanger 74 water sides by one end, isolation and amplifier heat exchanger 74 water sides again through exoergic circulating pump 73 to accumulation of energy attemperater 75, by isolation and amplifier heat exchanger 74 water sides by the thermal coupling heat exchange of heating hot water to the water side of isolation and amplifier heat exchanger 74 secondary side; Heating hot water exports circulating pump 63 by air-conditioning and inputs fan coil 64 through pipeline by the other end of one end, water side through isolation and amplifier heat exchanger 74 intermediate water side of isolation and amplifier heat exchanger 74 2 times and export circulating pump 63 to by fan coil 64 to air-conditioning again, by fan coil 64 to the heat in air-conditioned room release heating hot water, complete paddy electricity heat-storage heating heat supply running.

During cool-storage in summer operation of air conditioner, utilize cheap paddy electricity to store chilled water by the 5th cooling and warming switching valve 62 to the first refrigeration compression cycle loop evaporator 47 water sides the 7th cooling and warming switching valve 66 to accumulation of energy attemperater 75 to accumulation of energy attemperater 75 through the second check-valves 72 by energy storage circulation pump 71, treat that the peak electricity period lets cool operation of air conditioner.Its course of work is run the same with above-mentioned heat release, just no longer repeated description.

Embodiment three

As shown in Figure 3, present embodiments provide a kind of haze air pollutants cancelling air-conditioning system, the present embodiment is substantially identical with embodiment one, and its difference part is as follows:

Do not arrange air draught side muffler 10, fan shock-absorbing silencing apparatus 11, booster fan 12 and fan shock-absorbing basis 13 in blower fan supercharging and noise elimination silene system C, blower fan air draft side muffler 14 is connected with absorbent charcoal adsorber 9 through airduct 5.In the haze air pollutants cancelling air-conditioning system that the present embodiment provides, air-conditioning cooling and haze air pollutants eliminate the ventilation of system, after all selecting suitable blast, air quantity and electrical power by blower fan of cooling tower 4, independent operating completes, its operation principle is the same with above-mentioned Fig. 1 two fans or Fig. 2, no longer repeated description.

First refrigeration compression cycle circuit refrigeration compressor 52, heat recovering heat exchanger 76, first refrigeration compression cycle circuit condenser 53, first refrigeration compression cycle circuit expansion valve 54 and the first refrigeration compression cycle loop evaporator 47 connect and compose single-stage heat pump successively; Water side and the described fan coil 64 of air-conditioning output circulating pump 63, the 6th check-valves 97, described 8th cooling and warming switching valve 69, described first refrigeration compression cycle circuit condenser 53 connect and compose air-conditioning output loop successively; The first described cooling and warming switching valve 49, second cooling and warming switching valve 50,3rd cooling and warming switching valve 51,4th cooling and warming switching valve 57,5th cooling and warming switching valve 62,6th cooling and warming switching valve the 65, seven cooling and warming switching valve 66 and the 8th cooling and warming switching valve 69 connect and compose single-stage heat pump refrigerating through pipeline and heat conversing circuits; Connect and compose spray liquid by isolation recuperated cycle pump 48, first isolation switching valve 88, second isolation switching valve 89 and the 3rd isolation switching valve 96 through pipeline to isolate and direct-coupling heat-exchanging loop.

One end of spray liquid heating valve 77 is diluted in one end and first of one end connection domestic hot-water valve 83 of heat recovering heat exchanger 76 intermediate water side, and the other end of domestic hot-water's valve 83 connects domestic hot-water's attemperater 80; One end of spray liquid heating valve 78 is diluted in one end and second that the other end of heat recovering heat exchanger 76 intermediate water side connects the 3rd check-valves 85 respectively; The other end of the 3rd check-valves 85 connects one end of domestic hot-water's circulating pump 84, and the other end of domestic hot-water's circulating pump 84 connects domestic hot-water's attemperater 80.One end, heat recovering heat exchanger 76 primary coolant side is connected with the exhaust end of described first refrigeration compression cycle circuit refrigeration compressor 52, the other end of heat recovering heat exchanger 76 primary coolant side connects one end of the first refrigeration compression cycle circuit condenser 53 primary coolant side, and domestic hot-water's attemperater 80 is configured with domestic hot-water's outlet valve 81 and tap water supply valve 82; One end of other end link dilution spray liquid heating heat exchanger 36 primary side of first dilution spray liquid heating valve 77 and one end of dilution spray liquid heat control valve 70;

When winter heating runs, first refrigeration compression cycle circuit refrigeration compressor 52 operates, compression high-temperature exhaust air enters through heat recovering heat exchanger 76 primary side one end, first to heat recovering heat exchanger 76 secondary side domestic hot-water condensation heat release, by the domestic hot-water that heats by domestic hot-water's circulating pump 84 through the 3rd check-valves 85 to heat recovering heat exchanger 76 secondary side one end, by the other end of heat recovering heat exchanger 76 secondary side through domestic hot-water's valve 83 one end to domestic hot-water's attemperater 80, domestic hot-water is stored in domestic hot-water's attemperater 80, complete domestic hot-water's heat cycles, the other end to the first check-valves 38 of spray liquid heating valve 78 is also also diluted in heat recovering heat exchanger 76 secondary side one end by second by second dilution spray liquid heating valve 78 one end, the other end of heat recovering heat exchanger 76 secondary side, what also complete spray washing liquid purification processes system D by first dilution spray liquid heating valve 77 one end and by the other end to the dilution spray liquid heating heat exchanger 36 of the first dilution spray liquid heating valve 77 utilizes single-stage Heat Pump recovery heat supply loop.

Through first time to after domestic hot-water's condensation heat release, the compression high-temperature exhaust air of the first refrigeration compression cycle circuit refrigeration compressor 52 inputs first refrigeration compression cycle circuit condenser 53 primary side one end by the other end of heat recovering heat exchanger 76 primary side again and continues condensation heat release, to the heating water heating that the first refrigeration compression cycle circuit condenser 53 secondary side flows through, by the heating hot water that heats by air-conditioning export circulating pump 63 through the 6th check-valves 97 to the 8th cooling and warming switching valve 69 by first refrigeration compression cycle circuit condenser 53 secondary side one end, through the other end of the first refrigeration compression cycle circuit condenser 53 secondary side to fan coil 64 one end, through the other end of fan coil 64, be back to air-conditioning and export circulating pump 63, complete single-stage heat pump heating heat supply running.

Refrigerant liquid after twice condensation heat release, evaporate the heat of the spray liquid that absorption first refrigeration compression cycle loop evaporator 47 secondary side flows through to the first refrigeration compression cycle loop evaporator 47 primary side after the first refrigeration compression cycle circuit expansion valve 54 throttling, continue repetition first refrigeration compression cycle loop to run, about other courses of work are the same with Fig. 1 and Fig. 2, no longer repeat to introduce.

When cooling in summer runs, cooling water to be freezed hot-cast socket valve 65 to cooling tower spray system 3 by one end the 6th of the first refrigeration compression cycle circuit condenser 53 intermediate water side by the first spray liquid circulating pump 29 one end through the second refrigeration hot-cast socket valve 50 to the first refrigeration compression cycle circuit condenser 53 intermediate water side again, the condensation heat of the first refrigeration compression cycle circuit condenser 53 secondary side is disposed among air through cooling tower spray system 3 and completes spraying cooling operation, flow into the first spray liquid through the cooled cooling water of cooling tower through the second spray liquid by-pass valve control 20 and go back to liquid filtration cycle pond 21, the condensation exothermic process of above-mentioned refrigeration spray operation is repeated again through the first spray liquid circulating pump 29, chilled water by air-conditioning export circulating pump 63 through the 6th check-valves 97 to the 5th cooling and warming switching valve 62 through one end, the first refrigeration compression cycle loop evaporator 47 water sides, then the other end through first refrigeration compression cycle loop evaporator 47 water sides is back to air-conditioning by the 7th cooling and warming switching valve 66 to fan coil 64 and exports circulating pump 63 and form cooling in summer operation of air conditioner.

Technical scheme of the present invention, among the cooling tower being suitable for other industry too or industrial cooling tower.

Below know-why of the present invention is described in conjunction with specific embodiments.These describe just in order to explain principle of the present invention, and can not be interpreted as limiting the scope of the invention by any way.Based on explanation herein, those skilled in the art does not need to pay performing creative labour can associate other specific embodiment of the present invention, and these modes all will fall within the scope of protection of the present invention.

Claims

1. a haze air pollutants cancelling air-conditioning system, is characterized in that,

Comprise air conditioner cooling tower fountain contaminated air washing, purifying system (A), pollutant filters adsorption system (B), blower fan supercharging and noise elimination silene system (C), spray washing liquid purification processes system (D) and spray liquid formula water source heat pump air conditioning system (E);

The ventilation input that the ventilation output of described air conditioner cooling tower fountain contaminated air washing, purifying system (A) filters adsorption system (B) through airduct and described pollutant is connected, and the ventilation output that described pollutant filters adsorption system (B) is connected with the ventilation input of described blower fan supercharging with noise elimination silene system (C) through airduct; The spray liquid of described air conditioner cooling tower fountain contaminated air washing, purifying system (A) returns liquid output and returns liquid input through pipeline with the dilution spray liquid of described spray washing liquid purification processes system (D) and be connected; The spray liquid stoste input of described air conditioner cooling tower fountain contaminated air washing, purifying system (A) is connected through the spray liquid stoste output of pipeline with described spray washing liquid purification processes system (D);

Described air conditioner cooling tower fountain contaminated air washing, purifying system (A) carries out coupled and heat-exchange by heat exchanger and described spray liquid formula water source heat pump air conditioning system (E).

2. a kind of haze air pollutants cancelling air-conditioning system according to claim 1, is characterized in that,

Described air conditioner cooling tower fountain contaminated air washing, purifying system (A) comprises air conditioner cooling tower (1), cooling tower air inlet (2), cooling tower spray system (3), blower fan of cooling tower (4), the first cooling tower air conditioning purge conversion air-valve (86), the second cooling tower air conditioning purge conversion air-valve (87) and isolation heat exchanger (46);

The delivery port of the lower end of described air conditioner cooling tower (1) is connected with through pipeline that the first spray liquid goes back to liquid filtration cycle pond (21), the second spray liquid goes back to liquid filtration cycle pond (22) in turn;

Described first spray liquid goes back to liquid filtration cycle pond (21) and comprises the first spray liquid liquid return tank (23), the first spray liquid liquid return tank sieves (25) and the first spray liquid circulatory pool (27) that connect successively;

Described second spray liquid goes back to liquid filtration cycle pond (22) and comprises the second spray liquid liquid return tank (24), the second spray liquid liquid return tank sieves (26) and the second spray liquid circulatory pool (28) that connect successively;

Described first spray liquid circulatory pool (27) and described second spray liquid circulatory pool (28) are equipped with spray liquid and return liquid output and spray liquid stoste input;

Described cooling tower spray system (3) is arranged at the inside of described air conditioner cooling tower (1);

Primary side one end of described isolation heat exchanger (46) connects the spray liquid output of described first spray liquid circulatory pool (27) and the spray liquid output of described second spray liquid circulatory pool (28) respectively, and the other end of described isolation heat exchanger (46) primary side connects described cooling tower spray system (3);

The ventilation output of described air conditioner cooling tower (1) filters adsorption system (B) by the second cooling tower air conditioning purge conversion air-valve (87) with described pollutant through airduct (5) and is connected;

The haze air spray washing liquid of described air conditioner cooling tower fountain contaminated air washing, purifying system (A) is alkalescent anti-icing fluid.

3. a kind of haze air pollutants cancelling air-conditioning system according to claim 1, is characterized in that,

Described air conditioner cooling tower fountain contaminated air washing, purifying system (A) comprises air conditioner cooling tower (1), cooling tower air inlet (2), cooling tower spray system (3) and isolation heat exchanger (46);

The ventilation output of described air conditioner cooling tower (1) filters adsorption system (B) through described airduct (5) and described pollutant and is connected;

4. a kind of haze air pollutants cancelling air-conditioning system according to claim 1, is characterized in that,

Described pollutant filters adsorption system (B) and comprises the moisture trap (6), air roughing efficiency air filter (7), air medium effeciency filter (8) and the absorbent charcoal adsorber (9) that connect successively through described airduct (5);

Described moisture trap (6) is changed air-valve (87) through described airduct (5) and the second cooling tower air conditioning purge and is connected;

Described absorbent charcoal adsorber (9) is connected with noise elimination silene system (C) with described blower fan supercharging through described airduct (5).

5. a kind of haze air pollutants cancelling air-conditioning system according to claim 1, is characterized in that,

Described blower fan supercharging and noise elimination silene system (C) comprise be connected successively through described airduct (5) fan induced draught side muffler (10), booster fan (12), blower fan air draft side muffler (14), high-efficiency air filter (15), clean air plenum chamber (16), the first rainproof exhaust outlet (17) and the second rainproof exhaust outlet (18);

The outside of described booster fan (12) is provided with fan shock-absorbing silencing apparatus (11), and described fan shock-absorbing silencing apparatus (11) is provided with fan shock-absorbing basis (13);

Described fan induced draught side muffler (10) is connected with absorbent charcoal adsorber (9) through described airduct (5).

6. a kind of haze air pollutants cancelling air-conditioning system according to claim 1, is characterized in that,

Described blower fan supercharging and noise elimination silene system (C) comprise through described airduct (5) successively connecting fan air draft side muffler (14), high-efficiency air filter (15), the rainproof exhaust outlet of clean air plenum chamber (16) first (17) and the second rainproof exhaust outlet (18);

Described blower fan air draft side muffler (14) is connected with absorbent charcoal adsorber (9) through described airduct (5).

7. a kind of haze air pollutants cancelling air-conditioning system according to claim 1, is characterized in that,

Described spray washing liquid purification processes system (D) comprises dilution spray liquid purifying plant and spray liquid stoste generator;

Described dilution spray liquid purifying plant is by the first spray liquid purification control valve (31), second spray liquid purification control valve (32), spray liquid purification processes tank (33), dilution spray liquid (34), dilution spray liquid heating secondary pump (35), dilution spray liquid heating heat exchanger (36), dilution spray liquid heating Primary pumps (37), first check-valves (38), dilution spray liquid heat control valve (70), dilution spray liquid heating electrothermal tube (39) and dilution spray liquid electrothermal tube power (40) connect and compose,

One end of described dilution spray liquid heating secondary pump (35) connects one end of described spray liquid purification processes tank (33) and dilution spray liquid purification rear pump (90) respectively, the other end of described dilution spray liquid heating secondary pump (35) connects secondary side one end of described dilution spray liquid heating heat exchanger (36), and the other end of the secondary side of described dilution spray liquid heating heat exchanger (36) connects described spray liquid purification processes tank (33), primary side one end of described dilution spray liquid heating heat exchanger (36) connects one end of described dilution spray liquid heating Primary pumps (37), the other end of described dilution spray liquid heating Primary pumps (37) connects one end of described first check-valves (38), and the other end of described first check-valves (38) connects one end, intermediate water side of the 8th cooling and warming switching valve (69) in described spray liquid formula water source heat pump air conditioning system (E) and the second refrigeration compression cycle circuit condenser (59) respectively, the other end of the primary side of described dilution spray liquid heating heat exchanger (36) connects one end of described dilution spray liquid heat control valve (70), the other end of described dilution spray liquid heat control valve (70) connects the 7th cooling and warming switching valve (66) one end in the other end of the intermediate water side of described second refrigeration compression cycle circuit condenser (59) and described spray liquid formula water source heat pump air conditioning system (E) and fan coil (64) respectively, more than form dilution spray liquid heating purification is provided thermal source heat supplying loop by described spray liquid formula water source heat pump air conditioning system (E),

Described dilution spray liquid heating electrothermal tube (39) is powered by described dilution spray liquid electrothermal tube power (40), forms and heats electrothermal tube (39) high-temperature heating loop by dilution spray liquid;

Described spray liquid stoste device for formulating is connected and composed through pipeline by spray liquid concentration proportioning tank (41), spray liquid stoste (42), spray liquid stoste rear pump (43), spray liquid stoste mixing pump (44), the 5th check-valves (92) and running water supply valve (45);

Described spray liquid stoste output device by described spray liquid stoste rear pump (43) through pipeline respectively by the first valve (93), the spray liquid stoste input of the second valve (94) and described second spray liquid circulatory pool (28) and described first spray liquid circulatory pool (27) connects and composes;

The other end of described dilution spray liquid purification rear pump (90) connects one end of the 4th check-valves (91), the other end of described 4th check-valves (91) is connected with described spray liquid concentration proportioning tank (41) with described 5th check-valves (92) respectively, more than forms the output loop after the purification of dilution spray liquid;

The spray liquid stoste of described spray washing liquid purification processes system (D) is alkaline anti-freezing solution.

8. a kind of haze air pollutants cancelling air-conditioning system according to claim 1, is characterized in that,

Described dilution spray liquid purifying plant is by the first spray liquid purification control valve (31), and the second spray liquid purification control valve (32), spray liquid purification processes tank (33), dilution spray liquid (34), dilution spray liquid heating secondary pump (35), dilution spray liquid heating heat exchanger (36), dilution spray liquid heating Primary pumps (37), the first check-valves (38), dilution spray liquid heat control valve (70), dilution spray liquid heating electrothermal tube (39) and dilution spray liquid electrothermal tube power (40) connect and compose;

One end of described dilution spray liquid heating secondary pump (35) connects one end of described spray liquid purification processes tank (33) and dilution spray liquid purification rear pump (90) respectively, the other end of described dilution spray liquid heating secondary pump (35) connects secondary side one end of described dilution spray liquid heating heat exchanger (36), and the other end of the secondary side of described dilution spray liquid heating heat exchanger (36) connects described spray liquid purification processes tank (33); primary side one end of described dilution spray liquid heating heat exchanger (36) connects one end of described dilution spray liquid heating Primary pumps (37), the other end of described dilution spray liquid heating Primary pumps (37) connects one end of described first check-valves (38), the other end of described first check-valves (38) connects one end of the second dilution spray liquid heating valve (78) in described spray liquid formula water source heat pump air conditioning system (E) and one end of the 3rd dilution spray liquid heating valve (79) respectively, the other end of described second dilution spray liquid heating valve (78) connects one end, intermediate water side of the heat recovering heat exchanger (76) in described spray liquid formula water source heat pump air conditioning system (E), the other end of described 3rd dilution spray liquid heating valve (79) connects one end of the intermediate water side of the first refrigeration compression cycle circuit condenser (53) in described spray liquid formula water source heat pump air conditioning system (E) respectively, one end of 8th cooling and warming switching valve (69) and the second cooling and warming switching valve (50), more than forming the heating of dilution spray liquid purifies by the heat supply loop of described spray liquid formula water source heat pump air conditioning system (E) recuperation of heat,

Described spray liquid stoste device for formulating is connected and composed through pipeline by spray liquid concentration proportioning tank (41), spray liquid stoste (42), spray liquid stoste mixing pump (44), the 5th check-valves (92) and running water supply valve (45);

The other end of described dilution spray liquid purification rear pump (90) connects one end of the 4th check-valves (91), the other end of described 4th check-valves (91) is connected with described spray liquid concentration proportioning tank (41) with described 5th check-valves (92) respectively, more than forms the output loop after the purification of dilution spray liquid.

9. a kind of haze air pollutants cancelling air-conditioning system according to claim 1, is characterized in that,

Described spray liquid formula water source heat pump air conditioning system (E) is made up of following loop:

First refrigeration compression cycle circuit refrigeration compressor (52), the first refrigeration compression cycle circuit condenser (53), the first refrigeration compression cycle circuit expansion valve (54) and the first refrigeration compression cycle loop evaporator (47) connect and compose first order heat pump successively;

Second refrigeration compression cycle circuit refrigeration compressor (58), described second refrigeration compression cycle circuit condenser (59), the second refrigeration compression cycle circuit expansion valve (60), the second refrigeration compression cycle loop evaporator (56) connect and compose second level heat pump successively;

Described first order heat pump and described second level heat pump connect and compose coupled and heat-exchange loop, double loop through double loop coupling cycle pump (55) and the 4th cooling and warming switching valve (57);

Air-conditioning exports circulating pump (63) and connects and composes air-conditioning output system successively through the intermediate water side of the 6th check-valves (97), described 8th cooling and warming switching valve (69), described second refrigeration compression cycle circuit condenser (59) and described fan coil (64);

By the first cooling and warming switching valve (49), second cooling and warming switching valve (50), 3rd cooling and warming switching valve (51), 4th cooling and warming switching valve (57), 5th cooling and warming switching valve (62), 6th cooling and warming switching valve (65), 7th cooling and warming switching valve (66), the 8th cooling and warming switching valve (69) connects and composes the refrigeration of double loop heat pump assembly through pipeline and heats conversing circuits;

Connect and compose spray liquid by isolation recuperated cycle pump (48), the first isolation switching valve (88), the second isolation switching valve (89) and the 3rd isolation switching valve (96) through pipeline to isolate and direct-coupling heat-exchanging loop.

10. a kind of haze air pollutants cancelling air-conditioning system according to claim 1, is characterized in that,

Double loop coupled water tank (68) is configured with between first refrigeration compression cycle circuit condenser (53) and second level heat pump second refrigeration compression cycle loop evaporator (56);

Accumulation of energy attemperater (75) and isolation and amplifier heat exchanger (74) is configured with between second refrigeration compression cycle circuit condenser (59) and fan coil (64);

One end of double loop coupling cycle pump (55) connects described double loop coupled water tank (68), the other end of described double loop coupling cycle pump (55) connects one end of the 4th cooling and warming switching valve (57), the other end of described 4th cooling and warming switching valve (57) connects one end, intermediate water side of described first refrigeration compression cycle circuit condenser (53) and one end of the second cooling and warming switching valve (50) respectively, the other end of described first refrigeration compression cycle circuit condenser (53) intermediate water side connects one end of the 9th cooling and warming switching valve (95) and one end of the 6th cooling and warming switching valve (65) respectively, the other end of described 9th cooling and warming switching valve (95) connects described double loop coupled water tank (68), more than form first order pump coupled heat water tank type closed circuit,

One end of described second refrigeration compression cycle loop evaporator (56) water side connects described double loop coupled water tank (68), the other end of described second refrigeration compression cycle loop evaporator (56) water side connects coupling cycle water pump (67) one end, double loop, the other end of described double loop coupling cycle water pump (67) connects described double loop coupled water tank (68), above formation second level pump coupled heat water tank type closed circuit;

One end of the intermediate water side of described second refrigeration compression cycle circuit condenser (59) connects described accumulation of energy attemperater (75) and the 7th cooling and warming switching valve (66) and the one end of diluting spray liquid heat control valve (70) respectively, the other end of described second refrigeration compression cycle circuit condenser (59) intermediate water side connects one end and the first check-valves (38) one end of the 8th cooling and warming switching valve (69) respectively, the other end of described 8th cooling and warming switching valve (69) connects the 5th cooling and warming switching valve (62) and the second check-valves (72) one end, the other end of described second check-valves (72) connects one end of energy storage circulation pump (71), the other end of described energy storage circulation pump (71) connects described accumulation of energy attemperater (75), more than form air-conditioner energy-accumulation loop,

One end of described isolation and amplifier heat exchanger (74) primary side connects described accumulation of energy attemperater (75), the other end of described isolation and amplifier heat exchanger (74) primary side connects one end of exoergic circulating pump (73), the other end of described exoergic circulating pump (73) is connected with described accumulation of energy attemperater (75), above formation air-conditioning exoergic loop;

Described accumulation of energy attemperater (75) connects described energy storage circulation pump (71), described second check-valves (72), described 8th cooling and warming switching valve (69), the intermediate water side of described second refrigeration compression cycle circuit condenser (59) and described accumulation of energy attemperater (75) successively through pipeline and forms heating hot water accumulation of heat loop;

Primary side one end of described isolation and amplifier heat exchanger (74) connects described exoergic circulating pump (73) successively through pipeline, the other end of primary side of described accumulation of energy attemperater (75) and described isolation and amplifier heat exchanger (74) forms heating hot water heat release loop;

Described accumulation of energy attemperater (75) connects described energy storage circulation pump (71), described second check-valves (72), described 5th cooling and warming switching valve (62), the water side of the first refrigeration compression cycle loop evaporator (47) and described 7th cooling and warming switching valve (66) successively through pipeline and forms air conditioner cold accumulation loop to accumulation of energy attemperater (75);

Air-conditioning exports circulating pump (63) and connects the secondary side of described isolation and amplifier heat exchanger (74) and described fan coil (64) successively through pipeline and connect and compose air-conditioning and export the circulatory system;

By the first cooling and warming switching valve (49), second cooling and warming switching valve (50), 3rd cooling and warming switching valve (51), 4th cooling and warming switching valve (57), 5th cooling and warming switching valve (62), 6th cooling and warming switching valve (65), 7th cooling and warming switching valve (66), 8th cooling and warming switching valve (69), the 9th cooling and warming switching valve (95) connects and composes the refrigeration of double loop heat pump assembly through pipeline and heats conversing circuits;

Connect and compose spray liquid by isolation recuperated cycle pump (48), the first isolation switching valve (88), the second isolation switching valve (89) and the 3rd isolation switching valve (96) through pipeline to isolate and direct-coupling heat-exchanging loop;

Described air-conditioner energy-accumulation loop also comprises described second check-valves (72).

11. a kind of haze air pollutants cancelling air-conditioning systems according to claim 1, is characterized in that,

First refrigeration compression cycle circuit refrigeration compressor (52), heat recovering heat exchanger (76), the first refrigeration compression cycle circuit condenser (53), the first refrigeration compression cycle circuit expansion valve (54) and the first refrigeration compression cycle loop evaporator (47) connect and compose single-stage heat pump successively;

Water side and the described fan coil (64) of air-conditioning output circulating pump (63), the 6th check-valves (97), described 8th cooling and warming switching valve (69), described first refrigeration compression cycle circuit condenser (53) connect and compose air-conditioning output loop successively;

By the first cooling and warming switching valve (49), second cooling and warming switching valve (50), 3rd cooling and warming switching valve (51), 4th cooling and warming switching valve (57), 5th cooling and warming switching valve (62), 6th cooling and warming switching valve (65), 7th cooling and warming switching valve (66), the 8th cooling and warming switching valve (69) connects and composes the refrigeration of described single-stage heat pump through pipeline and heats conversing circuits;

One end of spray liquid heating valve (77) is diluted in one end and first of one end connection domestic hot-water's valve (83) of described heat recovering heat exchanger (76) intermediate water side, and the other end of described domestic hot-water's valve (83) connects domestic hot-water's attemperater (80); One end of spray liquid heating valve (78) is diluted in one end and described second that the other end of described heat recovering heat exchanger (76) intermediate water side connects the 3rd check-valves (85) respectively; The other end of described 3rd check-valves (85) connects one end of domestic hot-water's circulating pump (84), and the other end of described domestic hot-water's circulating pump (84) connects described domestic hot-water's attemperater (80); The other end of described first dilution spray liquid heating valve (77) connects one end of dilution spray liquid heating heat exchanger (36) and one end of dilution spray liquid heat control valve (70);

One end, described heat recovering heat exchanger (76) primary coolant side is connected with the exhaust end of described first refrigeration compression cycle circuit refrigeration compressor (52), and the other end of described heat recovering heat exchanger (76) primary coolant side connects one end of described first refrigeration compression cycle circuit condenser (53) primary coolant side;

Described domestic hot-water's attemperater (80) is configured with domestic hot-water's outlet valve (81) and tap water supply valve (82).