CN103216421B - Cooling water recycling system for air compressor of air tower power generating station - Google Patents

Abstract

The invention relates to a cooling water recycling system for an air compressor of an air tower power generating station. The system comprises an air compressor, an air compressor cold water input pipeline, an air compressor hot water output pipeline, a solar hot water system, a heat exchanger, a water tank, a residential hot water pipeline, a residential warm water pipeline, a water recycling pipeline, a filter, an air duct well water circulating device and a cooler.

Description

For the air compressor cooling water cyclic utilization system in Feng Ta power station

Technical field

Relate generally to air compressor system of the present invention, in particular to a kind of air compressor cooling water cyclic utilization system being applied to Feng Ta power station.

Background technique

Air compressor is a kind of industrial machinery being widely used in various industry, it converts the mechanical energy of prime mover (normally motor) to gas pressure energy, along with this process, also discharge a large amount of heat energy, these heat energy distribute in atmosphere, create the waste of large energy, these heat energy come out dramatically improve the temperature around air compressor inside and air compressor simultaneously, have impact on the normal work of air compressor.In order to reduce temperature during air compressor work, improve efficiency of energy utilization, reduce energy waste, people design various heat energy recycling system of air compressor simultaneously.Existing heat energy recycling system of air compressor is mainly divided into two kinds: the first uses cold water to flow through air compressor, the heat that cold water discharges when absorbing air compressor work makes it lower the temperature, and cold water temperature rises, cold water after intensification flows through cooling equipment to be made water temperature return to fall, reuse with pumped back air compressor; The second is use cold water to flow through air compressor equally, the heat that cold water discharges when absorbing air compressor work makes it lower the temperature, and cold water temperature rises, the cold water after only heating up no longer is sent air compressor back to through supercooling and is reused, but for other industry or household use.

The patent No. be 201120089015.1 Chinese utility model patent disclose a kind of heat energy recycling system of air compressor, it is by the first heat exchanger of being arranged in parallel and the second heat exchanger, make the first heat exchanger and the second heat exchanger alternately or simultaneously in running orderly carry out heat exchange, to ensure that air compressor 24 hours uninterrupted normal operations can meet work need of production.Avoiding problems when only having a heat exchanger; heat exchanger breaks down and causes air compressor water temperature inside too high and must shut down; cannot be run without interruption the normal industrial production of impact for 24 hours, and heat energy recycling system also cannot the situation of 24 hours hot-water supplies.But this hot water supply relies on the operation of air compressor completely, only have air compressor non-stop run in 24 hours, this heat energy recycling system of air compressor could 24 hours hot-water supplies.When air compressor does not need to run without interruption for 24 hours, this heat energy recycling system of air compressor just cannot 24 hours hot-water supplies, just cannot meet the demand that people use hot water at any time, and although its temperature exporting water can regulate, but it can only export the hot water of determined temperature, and its hot water temperature needed of different people is different, even same people, when processing different things in different, required hot water is also diversified.Therefore, the hot water that this heat energy recycling system of air compressor exports obviously cannot meet the diversified demand of people to hot water.Simultaneously, the speed that this heat energy recycling system of air compressor exports hot water is slower, it can only provide enough hot water to little people, and when the demand of people to hot water increases suddenly, heat exchanger can not provide enough hot water within the time needed.

Summary of the invention

In order to overcome defect existing in above-mentioned heat energy recycling system of air compressor, solve the technical problem existed in prior art; Simultaneously in order to temperature when reducing Feng Ta power station hollow compressor operation with meet resident in wind tower and, to the demand of hot water, the invention provides a kind of air compressor cooling water cyclic utilization system for Feng Ta power station.

According to an aspect of the present invention, the invention provides a kind of air compressor cooling water cyclic utilization system for Feng Ta power station, it comprises: air compressor, air compressor cold water inlet pipe road, air compressor hot water delivery pipe road, solar water-heating system, heat exchanger, water tank, resident with hot water pipeline, resident with warm water pipe, recycle-water pipeline, filter, air duct well water circulator and cooler.Wherein, air compressor, by connection water source, air compressor cold water inlet pipe road, connects water tank by air compressor hot water delivery pipe road, in water tank, exports hot water; Road is provided with transfer pump and heat exchanger along water (flow) direction to air compressor hot water delivery pipe, and wherein transfer pump is used for carrying hot water in water tank; Water tank inside is provided with a vertical baffle be connected with water tank bottom inwall and side inwall, the vertical height of this baffle plate is lower than the vertical height of tank inner wall, just had space between such baffle plate and tank top inside, this baffle plate is just in inner hot water cavity and warm water chamber water tank being divided into connection of water tank; Heat exchanger is connected to bottom or the bottom of hot water cavity in water tank by air compressor hot water delivery pipe road; Solar water-heating system is connected with air compressor hot water delivery pipe road or air compressor by solar water-heating system moisturizing pipeline, is connected to bottom or the bottom of hot water cavity in water tank by solar water-heating system hot water delivery pipe road; Resident's hot water pipeline is connected with, for carrying hot water to resident bottom hot water cavity; Warm water chamber by resident with warm water pipe to resident's convey warm; Warm water chamber is connected with air compressor by recycle-water pipeline; Recycle-water pipeline is provided with filter, air duct well water circulator, cooling unit successively.

Preferably, air compressor cold water inlet pipe road is provided with filter and one-way valve successively along water (flow) direction, it is respectively used to the impurity in elimination cold water and controls cold water to air compressor direction one-way flow.

Preferably, at least 2 tower layers of wind tower are provided with water tank, and each tower layer being provided with water tank is provided with the water tank being no less than 1.

Preferably, the air compressor hot water delivery pipe road between transfer pump and heat exchanger is provided with control valve, it is for controlling the flow of the hot water exported from air compressor .the air compressor hot water delivery pipe road that heat exchanger is connected with low layer (to be provided with that one deck minimum in the tower layer of water tank for low layer) hot water cavity is provided with one-way valve, for controlling hot water to low layer hot water cavity direction one-way flow; The air compressor hot water delivery pipe road that heat exchanger is connected with high-rise (be provided with in the tower layer of water tank and be high level except minimum one deck) hot water cavity is provided with control valve, high-rise transportation water pump and one-way valve successively along water (flow) direction, wherein control valve is for controlling flow and the temperature of carrying hot water to high-rise hot water cavity, high-rise transportation water pump is used for high-rise hot water cavity conveying hot water, and one-way valve is for controlling hot water to high-rise hot water cavity direction one-way flow.

Preferably, the cavity inner wall in hot water cavity and warm water chamber is made up of thermal-protective material.

Preferably, resident's hot water pipeline is provided with control valve, for controlling the flow and the temperature that flow to the hot water that resident uses.

Preferably, the recycle-water pipeline connecting each warm water chamber and filter is provided with control valve and one-way valve, wherein control valve is for controlling the flow and the temperature that reclaim warm water, and to guarantee preferentially to meet the demand of resident to warm water, one-way valve is for controlling warm water to filter direction one-way flow.

Preferably, solar water-heating system moisturizing pipeline is provided with suction pump, control valve successively along water (flow) direction, wherein suction pump is used for transporting to solar water-heating system from air compressor or air compressor hot water delivery pipe road extraction hot water, and control valve is used for the flow controlling to carry to solar water-heating system hot water according to solar water-heating system to the demand of water flow.

Preferably, the control valve corresponding with each hot water cavity, one-way valve is being provided with successively along water (flow) direction with on the solar water-heating system hot water delivery pipe road that each hot water cavity connects, wherein control valve is for controlling flow and the temperature of carrying hot water to hot water cavity, and one-way valve is for controlling hot water to hot water cavity direction one-way flow.

According to another aspect of the present invention, present invention also offers a kind of method operating air compressor cooling water cyclic utilization system, described method comprises the steps:

I. after starting air compressor, cold water enters into filter through air compressor cold water inlet pipe road, after filtering, enter into air compressor by one-way valve, and cold water absorbs the heat of air compressor working room release, heats up and becomes hot water;

II. 1. then, the hot water after a part heats up enters into heat exchanger through air compressor hot water delivery pipe road, transfer pump and control valve; Thereafter, by one-way valve with enter in low layer hot water cavity and high-rise hot water cavity respectively by solenoid electric valve, high-rise transportation water pump, one-way valve successively; 2. the hot water after another part intensification is entered into solar water-heating system and is stored by suction pump, control valve through solar water-heating system moisturizing pipeline successively; When needed, solar water-heating system exports hot water by control valve, one-way valve successively through solar water-heating system hot water delivery pipe road in each hot water cavity;

III. the hot water 1. in a part of hot water cavity is exported to resident through the resident's hot water waterpipe be connected to bottom hot water cavity and is used; 2. in another part hot water cavity, uppermost water overflows in warm water chamber by the space above water tank internal baffle;

IV. the warm water 1. in warm water chamber is exported to resident through resident's warm water waterpipe and is used; 2. after preferentially meeting resident's use, remaining warm water enters into filter through recycle-water pipeline and filters, warm water after filtration is transported in air duct well water circulator, and in air duct well water circulator, the wind in air duct well is heated, release portion heat, then enters into cooler and cools; Enter into air compressor by recycle-water pipeline again, absorb the heat of release during air compressor work, continue new circulation.

Have employed the Feng Ta power station of the air compressor cooling water cyclic utilization system for Feng Ta power station of the present invention, air compressor operating temperature can not only be reduced, enable air compressor stable operation; And compared to existing technology, the air compressor cooling water after intensification directly outputs to for resident in hot water cavity, decrease and utilize heat exchanger to this link of cool water heating, decrease the energy loss in this process; On the other hand, add solar water-heating system, extend the sources that resident uses hot water, improve the stability of air compressor cooling water cyclic utilization system hot-water supply, make resident can use hot water at any time; Meanwhile, resident uses rear remaining warm water by tentatively heating the wind in air duct well after recycle-water filter pipeline, afterwards through supercooling, enters into air compressor and recycle after cooling, reaches the effect economized on resources with the energy.

In the ideal situation, the air compressor cooling water cyclic utilization system in Feng Ta power station of the present invention, except occupying domestic hot water and warm water, produce the minimizing of water in air compressor cooling water cyclic utilization system hardly, cooling water almost can reach and recycle completely.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the preferred embodiment according to the air compressor cooling water cyclic utilization system for Feng Ta power station of the present invention.

In figure:

1	Air compressor
		2	Air compressor hot water delivery pipe road
200	Hot water delivery pipe road
		201	Hot water delivery pipe road
202	Hot water delivery pipe road
		203	Hot water delivery pipe road
3	Transfer pump

4	Control valve
		5	Heat exchanger
6	Solenoid electric valve
		7	High-rise transportation water pump
8	One-way valve
		9	Control valve
10	One-way valve
		11	Control valve
14	High-rise hot water cavity
		15	High-rise warm water chamber
18	Low layer hot water cavity
		19	Low layer warm water chamber
24	Filter
		25	Cooler
26	Air duct well water circulator
		28	Water source
29	Filter
		30	Air compressor cold water inlet pipe road
311	Suction pump
		321	Control valve
34	Control valve
		36	Control valve
101	Solar water-heating system
		105	Solar water-heating system moisturizing pipeline
106	Solar water-heating system hot water delivery pipe road
		107	Solar water-heating system hot water delivery pipe road
108	High-rise resident's hot water pipeline
		109	High-rise resident's warm water pipe
110	Low layer resident hot water pipeline

111	Low layer resident warm water pipe
		112	Recycle-water pipeline
113	Pipeline
		114	Pipeline
115	Pipeline
		116	Pipeline
117	Pipeline
		118	One-way valve

Embodiment

With reference to the accompanying drawings the specific embodiment of the present invention is described in detail.

Please refer to Fig. 1, Fig. 1 is the schematic diagram of the preferred embodiment according to the air compressor cooling water cyclic utilization system for Feng Ta power station of the present invention.As shown in Figure 1, the air compressor cooling water cyclic utilization system in Feng Ta power station comprise air compressor 1, air compressor cold water inlet pipe road 30, air compressor hot water delivery pipe road 2, solar water-heating system 101, heat exchanger 5, high-rise water tank, low layer water tank, high-rise resident with hot water pipeline 108, high-rise resident with warm water pipe 109, low layer resident with hot water pipeline 110, low layer resident with warm water pipe 111, recycle-water pipeline 112, filter 24, air duct well water circulator 26 and cooler 25.

As shown in Figure 1, high-rise water tank is respectively equipped with a vertical baffle be connected with side inwall with its bottom interior wall with low layer water tank inside, the vertical height of this baffle plate is lower than the vertical height of tank inner wall, space has just been had between such baffle plate and tank top inside, this baffle plate is just in inner hot water cavity and warm water chamber water tank being divided into fluid connection of water tank, so high-rise water tank is divided into high-rise hot water cavity 14 and high-rise warm water chamber 15, low layer water tank is divided into low layer hot water cavity 18 and low layer warm water chamber 19.

As can be seen from Fig. 1, air compressor 1 connects water source 28 by air compressor cold water inlet pipe road 30, and cold water inputs cold water by air compressor cold water inlet pipe road 30 to air compressor 1.Air compressor cold water inlet pipe road 30 is provided with filter 29 and one-way valve (unmarked) successively along water (flow) direction, and filter 29 is for filtering the impurity in cold water, and one-way valve keeps to air compressor 1 direction one-way flow for controlling cold water.Cold water absorbs the heat of release when air compressor 1 works in air compressor 1, and its temperature raises, and is transformed into hot water.Hot water outputs in high-rise hot water cavity 14 and low layer hot water cavity 18 through air compressor hot water delivery pipe road 2.Wherein, air compressor hot water delivery pipe road 2 is provided with transfer pump 3, control valve 4, heat exchanger 5 successively along water (flow) direction, so air compressor hot water delivery pipe road 2 comprises the hot water delivery pipe road 200 connecting air compressor 1 and transfer pump 3, the hot water delivery pipe road 201 being connected transfer pump 3 and heat exchanger 5, is connected the hot water delivery pipe road 202 of heat exchanger 5 and low layer hot water cavity 18, is connected the hot water delivery pipe road 203 of heat exchanger 5 and high-rise hot water cavity 14.

The hot water exported from air compressor 1 is divided into two-way through hot water delivery pipe road 200, one tunnel arrives heat exchanger 5 via air compressor hot water delivery pipe road 2, transfer pump 3, hot water delivery pipe road 201, control valve 4, hot water is after over-heat-exchanger 5 fully heat-shift, and the hot water flowed out from heat exchanger 5 has overall consistent temperature.Thereafter, hot water is again divided into two branch roads after heat exchanger 5 flows out.A branch road is input in low layer hot water cavity 18 by hot water delivery pipe road 202, and another branch road is input in high-rise hot water cavity 14 by hot water delivery pipe road 203.Hot water delivery pipe road 202 is provided with one-way valve, for controlling hot water from heat exchanger 5 to low layer hot water cavity 18 direction one-way flow.Hot water delivery pipe road 203 is provided with solenoid electric valve 6, high-rise transportation water pump 7 and one-way valve successively along water (flow) direction, wherein, solenoid electric valve 6 is for controlling the flow to high-rise hot water cavity conveying hot water, the 7 pairs of hot water pressurizations of high-rise transportation water pump, enable hot water be transported in high-rise hot water cavity 14, one-way valve is for controlling hot water from hot air compressor to high-rise hot water cavity 14 direction one-way flow.

Due to air compressor 1 in the course of the work, the heat of its each parts release does not wait, so heat that cold water absorbs when circulating in air compressor 1 neither be the same, flow through the heat that release heat absorbs compared with multipart water many, its temperature is just high, the heat that the water flowing through release heat less parts absorbs is few, and its temperature is just low, so be not overall consistent from the temperature of the hot water of air compressor 1 output.When hot water exports hot water through air compressor hot water delivery pipe road 2 from air compressor 1 to high-rise hot water cavity 14 and low layer hot water cavity 18, hot water flows through heat exchanger 5, heat exchanger 5 makes its abundant heat-shift, make the hot water temperature exported from heat exchanger 5 keep overall consistent, the temperature outputting to the hot water in high-rise hot water cavity 14 and/or low layer hot water cavity 18 like this keeps overall consistent.

The hot water exported from air compressor 1 is divided into two-way through hot water delivery pipe road 200, and solar water-heating system 101 is sent on another road.Solar water-heating system 101 is connected with air compressor hot water delivery pipe road 200 by solar water-heating system moisturizing pipeline 105, is connected with solar water-heating system hot water delivery pipe road 107 by solar water-heating system hot water delivery pipe road 106 with high-rise hot water cavity 14 bottom and low layer hot water cavity 18 bottom.Solar water-heating system moisturizing pipeline 105 is provided with suction pump 311 and control valve 321 successively along water (flow) direction, suction pump 311 is for inputting the hot water exported from air compressor 1 to solar water-heating system 101, control valve 321 is for controlling to the demand of water flow the flow carrying hot water to solar water-heating system according to solar water-heating system.Solar water-heating system hot water delivery pipe road 106 and solar water-heating system hot water delivery pipe road 107 are provided with control valve 9, one-way valve 10 and control valve 11, one-way valve 8 respectively successively along water (flow) direction, control valve 9 and control valve 11 are used for controlling the flow to hot water cavity conveying hot water respectively, and one-way valve 10 and one-way valve 8 are for controlling hot water to high-rise hot water cavity 14 and low layer hot water cavity 18 direction one-way flow.

Input in the process of hot water to high-rise hot water cavity 14, because the solar water-heating system hot water delivery pipe road 106 inputting hot water to high-rise hot water cavity 14 is connected with bottom with the bottom of high-rise hot water cavity 14 in high-rise water tank respectively with air compressor hot water delivery pipe road 2, so the bottom of high-rise hot water cavity 14 is the hot water that has just been input in high-rise hot water cavity 14 all the time and the hot water first inputted in high-rise hot water cavity 14 distributes through heat after a while, its temperature can slowly reduce, so the water of high-rise hot water cavity 14 inside presents temperature change from high to low from the bottom up, through inputting hot water for a long time, when will fill hot water in high-rise hot water cavity 14, uppermost water is through heat radiation for a long time, its temperature reduces, just become warm water from hot water, in time filling water in high-rise hot water cavity 14, continue to input hot water in high-rise hot water cavity 14, uppermost warm water will overflow in high-rise warm water chamber 15.

Equally, in low layer water tank, the water in low layer hot water cavity 18 also presents temperature change from high to low from the bottom up, and uppermost warm water, along with the lasting input of hot water, overflows in low layer warm water chamber 19.

The hot water of bottom in high-rise hot water cavity 14 is exported to resident by high-rise resident with hot water pipeline 108 and is used by high-rise hot water cavity 14, high-rise resident is provided with control valve with hot water pipeline 108, and it is for controlling the flow and the temperature that flow to the hot water that high-rise resident uses.

Warm water in high-rise warm water chamber 15 is exported to resident by high-rise resident with warm water pipe 109 and is used by high-rise warm water chamber 15.

The hot water of bottom in low layer hot water cavity 18 is exported to resident by low layer resident with hot water pipeline 110 and is used by low layer hot water cavity 18, and the hot water pipeline 110 of low layer resident is provided with control valve, and this control valve is used for control the flow and the temperature that flow to the hot water that low layer resident uses.

Warm water in low layer warm water chamber 15 is exported to resident by low layer resident with warm water pipe 111 and is used by low layer warm water chamber 19.

Warm water in high-rise warm water chamber 15 and low layer warm water chamber 19, except preferentially meeting resident and using, is also transported to air compressor 1 by recycle-water pipeline 112 and is recycled.Recycle-water pipeline 112 is provided with filter 24, air duct well water circulator 26 and cooler 25 successively along water (flow) direction, thus recycle-water pipeline 112 comprise the pipeline 113 connecting high-rise warm water chamber 15 and filter 24, the pipeline 114 being connected low layer warm water chamber 19 and filter 24, be connected filter 24 and air duct well water circulator 26 pipeline 115, be connected the pipeline 116 of air duct well water circulator 26 and cooler 25, be connected the pipeline 117 of cooler 25 and air compressor 1.Pipeline 113 is provided with control valve 34 and one-way valve 21, and pipeline 114 is provided with one-way valve 118 and control valve 36, and wherein control valve 34 and control valve 36 are for controlling reclaim flow and the temperature of warm water, one-way valve 21 and one-way valve 118 control warm water from high-rise warm water chamber 15 and low layer warm water chamber 19 to filter 24 direction one-way flow.

Above-mentioned embodiment shows the situation 2 tower layers different in Feng Ta power station being respectively equipped with 1 water tank, it is to be noted, the specific embodiment of the present invention is not limited to the situation shown in above-mentioned embodiment, at least 2 tower layers in Feng Ta power station can arrange water tank according to actual needs, and each tower layer that water tank is set can be arranged 1,2 or more.It should be noted that the cavity inner wall in high level of the present invention or low layer hot water cavity and high-rise warm water chamber or low layer warm water chamber is made up of thermal-protective material.

Air compressor cooling water cyclic utilization system for Feng Ta power station of the present invention utilizes circulating water like this:

I. after starting air compressor 1, cold water enters into filter 29 through air compressor cold water inlet pipe road 30, after filtering, enter into air compressor 1 by one-way valve, and cold water absorbs the heat of air compressor 1 working room release, heats up and becomes hot water;

II. 1. then, the hot water after a part heats up enters into heat exchanger 5 by transfer pump 3 and control valve 4 successively through air compressor hot water delivery pipe road 2; And after enter into low layer hot water cavity 18 and high-rise hot water cavity 14 respectively through one-way valve, solenoid electric valve 6, high-rise transportation water pump 7 and one-way valve; 2. the hot water after another part intensification enters into solar water-heating system 101 store through solar water-heating system moisturizing pipeline 105, suction pump 311, control valve 321; When needed, solar water-heating system 101 exports hot water by control valve 9, one-way valve 10 and control valve 11, one-way valve 8 via solar water-heating system hot water delivery pipe road 106 and solar water output pipeline 107 respectively in high-rise hot water cavity 14 and low layer hot water cavity 18;

III. the hot water 1. in a part of high-rise hot water cavity 14 and low layer hot water cavity 18 is respectively through the resident's hot water waterpipe 108 be connected to bottom high-rise hot water cavity 14, control valve and be connected to resident's hot water waterpipe 110 bottom low layer hot water cavity 18, control valve exports to resident and use; 2. in the high-rise hot water cavity 14 of another part or low layer hot water cavity 18, uppermost water is overflowed in corresponding high-rise warm water chamber 15 or low layer warm water chamber 19 by the space above water tank internal baffle.Because this part uppermost water becomes warm water through long heat radiation, so this part water overflowing in high-rise warm water chamber 15 and low layer warm water chamber 19 is exactly the warm water needed in high-rise warm water chamber 15 and low layer warm water chamber 19;

IV. the warm water 1. in high-rise warm water chamber 15 and low layer warm water chamber 19 is exported to resident with warm water pipe 109 and resident with warm water pipe 111 respectively through resident and is used; 2. after preferentially meeting resident's use, in high-rise warm water chamber 15 and low layer warm water chamber 19, remaining warm water is after recycle-water pipeline 113 and recycle-water pipeline 114, enter into filter 24 to filter, water after filtration is transported in air duct well water circulator 26, in air duct well water circulator 26, the wind in air duct well is heated, release portion heat; Then enter into cooler 25 to cool, the warm water through supercooling release portion heat becomes cold water.This part cold water enters into air compressor 1 by recycle-water pipeline 117, absorbs the heat of release when air compressor 1 works, continues new circulation.

By reference to the accompanying drawings the specific embodiment of the present invention is explained in detail above, but the present invention is not limited to above-mentioned mode of execution, in the ken that those of ordinary skill in the art possess, various change can also be made under the prerequisite not departing from present inventive concept.

Claims (10)

1. the air compressor cooling water cyclic utilization system for Feng Ta power station, comprise air compressor, air compressor cold water inlet pipe road, air compressor hot water delivery pipe road, solar water-heating system, heat exchanger, water tank, resident with hot water pipeline, resident with warm water pipe, recycle-water pipeline, filter, air duct well water circulator and cooler; It is characterized in that, air compressor, by connection water source, air compressor cold water inlet pipe road, connects water tank by air compressor hot water delivery pipe road; Road is provided with transfer pump and heat exchanger along water (flow) direction to air compressor hot water delivery pipe successively; Water tank inside is provided with a vertical baffle be connected with water tank bottom inwall and side inwall, and the vertical height of this baffle plate is lower than the vertical height of tank inner wall, and water tank is just divided into hot water cavity and the warm water chamber of connection by this baffle plate in water tank inside; Heat exchanger is connected to bottom or the bottom of hot water cavity in water tank by air compressor hot water delivery pipe road; Solar water-heating system is connected with air compressor hot water delivery pipe road or air compressor by solar water-heating system moisturizing pipeline, is connected to bottom or the bottom of hot water cavity in water tank by solar water-heating system hot water delivery pipe road; Bottom hot water cavity or bottom is connected with resident's hot water pipeline; Bottom warm water chamber or bottom is connected with resident's warm water pipe; Warm water chamber is connected with air compressor by recycle-water pipeline; Recycle-water pipeline is provided with filter, air duct well water circulator, cooling unit successively.

2. air compressor cooling water cyclic utilization system as claimed in claim 1, is characterized in that, air compressor cold water inlet pipe road is provided with filter and one-way valve successively along water (flow) direction.

3. air compressor cooling water cyclic utilization system as claimed in claim 1, it is characterized in that, at least 2 tower layers of wind tower are provided with water tank, and each tower layer being provided with water tank is provided with the water tank being no less than 1.

4. the air compressor cooling water cyclic utilization system as described in claim 1 or 3, is characterized in that, the air compressor hot water delivery pipe road between transfer pump and heat exchanger is provided with control valve, for controlling the flow of the hot water exported from air compressor; The air compressor hot water delivery pipe road that heat exchanger is connected with low layer hot water cavity is provided with one-way valve, the air compressor hot water delivery pipe road that heat exchanger is connected with high-rise hot water cavity is provided with control valve, high-rise transportation water pump and one-way valve successively along water (flow) direction; Wherein, control valve is for controlling the flow of the hot water carried to high-rise hot water cavity.

5. the air compressor cooling water cyclic utilization system as described in claim 1 or 3, is characterized in that, the cavity inner wall in hot water cavity and warm water chamber is made up of thermal-protective material.

6. air compressor cooling water cyclic utilization system as claimed in claim 1, it is characterized in that, resident's hot water pipeline is provided with control valve, and it is for controlling the flow and the temperature that flow to the hot water that resident uses.

7. air compressor cooling water cyclic utilization system as claimed in claim 1, is characterized in that, the recycle-water pipeline connecting each warm water chamber and filter is provided with control valve and one-way valve, and wherein, control valve is for controlling the flow and the temperature that reclaim warm water.

8. air compressor cooling water cyclic utilization system as claimed in claim 1, it is characterized in that, solar water-heating system moisturizing pipeline is provided with suction pump, control valve successively along water (flow) direction, and wherein control valve is used for the flow controlling to carry to solar water-heating system hot water according to solar water-heating system to the demand of water flow.

9. the air compressor cooling water cyclic utilization system as described in claim 1 or 8, it is characterized in that, be provided with the control valve corresponding with each hot water cavity, one-way valve with on the solar water-heating system hot water delivery pipe road that each hot water cavity connects successively along in water (flow) direction, wherein control valve is for controlling flow and the temperature of carrying hot water to hot water cavity.

10. operate a method for air compressor cooling water cyclic utilization system as claimed in any one of claims 1-9 wherein, it is characterized in that, said method comprising the steps of:

I. after starting air compressor, cold water enters into filter through air compressor cold water inlet pipe road, after filtering, enter into air compressor by one-way valve, and cold water absorbs the heat of air compressor working room release, heats up and becomes hot water;

II. 1. then, the hot water after a part heats up enters into heat exchanger through air compressor hot water delivery pipe road, transfer pump and control valve; Thereafter, by one-way valve with enter in low layer hot water cavity and high-rise hot water cavity respectively by solenoid electric valve, high-rise transportation water pump, one-way valve successively; 2. the hot water after another part intensification is entered into solar water-heating system stored by suction pump, control valve successively after solar water-heating system moisturizing pipeline; When needed, solar water-heating system exports hot water by control valve, one-way valve successively through solar water-heating system hot water delivery pipe road in each hot water cavity;

III. the hot water 1. in a part of hot water cavity is exported to resident through the resident's hot water waterpipe be connected to bottom hot water cavity and is used; 2. in another part hot water cavity, uppermost water overflows in warm water chamber by the space above water tank internal baffle;

IV. the warm water 1. in warm water chamber is exported to resident through resident's warm water waterpipe and is used; 2. after preferentially meeting resident's use, remaining warm water enters into filter through recycle-water pipeline and filters, warm water after filtration is transported in air duct well water circulator, and in air duct well water circulator, the wind in air duct well is heated, release portion heat, then enters into cooler and cools; Enter into air compressor by recycle-water pipeline again, absorb the heat of release during air compressor work, continue new circulation.