CN206347796U - A kind of process water direct cooling system cooled down for equipment - Google Patents

Abstract

A kind of process water direct cooling system cooled down for equipment is disclosed the utility model discloses a kind of, the system includes the composition such as technique water system, cooling water system, cold accumulation system, winter in spring and autumn cooling water system, the heat that technological process and equipment are produced is transferred to technique water system by heat exchanger, it is extraneous that the heat being transferred to by refrigeration unit in cooling water system, cooling water system into the heat in technique water system is discharged into system by cooling tower.The system reduces cooling system electrical equipment by reducing intermediate heat transfer system, the measure of increase cold accumulation system and winter in spring and autumn heat exchanger etc., extends the natural cooling time, improves refrigerant system efficiency；Enterprise energy cost, equipment investment and maintenance expense are reduced, production process energy resource consumption and carbon emission amount is reduced.

Description

A kind of process water direct cooling system cooled down for equipment

Technical field

The utility model is related to a kind of process water direct cooling system.

Background technology

Common apparatus manufacture, synthetic material manufacture, chemical raw material and chemicals manufacture, medical manufacture, food, semiconductor etc. There are a large amount of technological process of productions or machinery equipment in national economy manufacturing needs to be cooled down, so that production process is continuous It is stable, improve production efficiency and product quality.Prior art is cooled down indirectly using process water, chilled water, cooling water, Heat is transferred to chilled water system by process water by heat exchanger, and the heat in chilled water is transferred to cooling water by refrigeration unit again System, finally drains into external environment by cooling tower by heat, so as to realize that equipment is cooled down；The program has the following disadvantages：

1st, indirect heat exchange is carried out by chilled water system between process water and cooling water, reduces the cold of cooling system system But efficiency；

2nd, indirect heat exchange is carried out by chilled water system between process water and cooling water, chilled water pump power consumption is big, unfavorable In energy-saving and emission-reduction；

3rd, indirect heat exchange is carried out by chilled water system between process water and cooling water so that refrigeration unit chilled water outlet Desired temperature is low, and the more low cold consumption of the cold water temperature produced is bigger；

4th, indirect heat exchange is carried out by chilled water system between process water and cooling water, be unfavorable in the winter time and season in spring and autumn Cooled using natural cooling, to realize energy-saving and emission-reduction；

5th, indirect heat exchange is carried out by chilled water system between process water and cooling water, increases chilled water system equipment investment With operation maintenance upkeep cost, it is unfavorable for enterprise's cost efficiency.

6th, indirect heat exchange is carried out by chilled water system between process water and cooling water, adds chilled water system, reduced System operation reliability.

Utility model content

One of the purpose of this utility model is to disclose a kind of process water direct cooling system cooled down for equipment, is realized Process water is directly cooled down, and improves cooling system reliability, saves the energy, improves cooling system economy, and reduction was manufactured The carbon emission amount of journey, promotes cleaning low-carbon production.

To reach above-mentioned purpose, the technical solution adopted in the utility model is：

A kind of process water direct cooling system cooled down for equipment, including technique water system and cooling water system,

Described technique water system includes technique water pump, refrigeration unit, cool storage container, equipment heat exchanger, valve and pipeline, institute The heat exchanger that the equipment heat exchanger stated refers to manufacturing process flow or machinery equipment needs progress heat exchange cooling and configured；Work Skill exit of pump pipeline is connected through valve with technique exit of pump main pipe, and technique exit of pump main pipe is entered with refrigeration unit process water Mouth main pipe connection, refrigeration unit technique water inlet main pipe branched pipe is connected with refrigeration unit process water inlet pipeline through valve, made Cold group technique water exit conduit is connected through valve with refrigeration unit technique water out main pipe, refrigeration unit technique water out main pipe Branched pipe is connected through valve with cool storage container inlet pipeline, and cool storage container outlet conduit is female through valve and equipment heat exchanger technique water inlet Pipe is connected, and equipment heat exchanger technique water inlet main pipe branched pipe is connected through valve with equipment heat exchanger process water inlet pipeline, if Standby heat exchanger technique water exit conduit is connected through valve with equipment heat exchanger technique water out main pipe, and equipment heat exchanger process water goes out Mouth main pipe is connected through valve with technique unit fixed on water pump suction main pipe, and technique unit fixed on water pump suction main pipe branched pipe is through valve and technique unit fixed on water pump suction Pipeline is connected；

Described cooling water system is made up of cooling water pump, cooling tower, valve and connecting pipe, cooling water pump outlet conduit It is connected through valve with cooling water pump outlet main pipe, cooling water pump outlet main pipe is connected with refrigeration unit cooling water inlet main pipe, is made Cold group cooling water inlet main pipe branched pipe is connected through valve with refrigeration unit cooling water inlet pipeline, and refrigeration unit cooling water goes out Mouth pipeline is connected through valve with refrigeration unit coolant outlet main pipe, refrigeration unit coolant outlet main pipe and cooling tower cooling water Import main pipe is connected, and cooling tower cooling water inlet main pipe branched pipe is connected through valve with cooling tower cooling water inlet pipe road, is cooled down Tower cooler water exit conduit is connected through valve with cooling tower coolant outlet main pipe, cooling tower coolant outlet main pipe branched pipe warp Valve is connected with cooling water pump inlet pipeline；

Described technique water pump, refrigeration unit, cool storage container, equipment heat exchanger, cooling water pump, cooling tower be respectively one or Many of person.

Further, described cool storage container is equipped with before bypass valve, bypass valve inlet pipeline and cool storage container imported valve Pipeline is connected, and bypass valve outlet conduit is connected with pipeline after cool storage container outlet valve, is easy to process water temperature adjustment and is being Isolation maintenance is carried out to cool storage container in system running.

Further, described technique exit of pump main pipe is connected with refrigeration unit technique water out main pipe by valve, , can be by adjusting the valve opening adjusting process coolant-temperature gage when refrigeration unit is run；Normally stopped transport or event in refrigeration unit During barrier maintenance, technique water circulation path can be set up by opening the valve, utilize cold accumulation system or winter in spring and autumn cooling water system System cooling technique water.

As a kind of preferred scheme of the process water direct cooling system described in the utility model cooled down for equipment, go back Including cold accumulation system and cold-storage trim heat exchanger, cold-storage trim heat exchanger process water inlet pipeline is through valve and refrigeration unit technique Water out main pipe is connected, and cold-storage trim heat exchanger technique water exit conduit connects through valve and equipment heat exchanger technique water inlet main pipe Connect, cold accumulation system is connected with the SAPMAC method of cold-storage trim heat exchanger, and low-temperature receiver is provided by cold accumulation system.

As a kind of preferred scheme of the process water direct cooling system described in the utility model cooled down for equipment, go back Cold heat exchanger is released including cold accumulation system and cold-storage, cold-storage releases cold heat exchanger process water inlet pipeline through valve and equipment heat exchanger work Skill water out main pipe is connected, and cold-storage is released cold heat exchanger technique water exit conduit and is connected through valve with technique unit fixed on water pump suction main pipe；Store The SAPMAC method that cooling system releases cold heat exchanger with cold-storage is connected, and low-temperature receiver is provided by cold accumulation system.

Further, described cold accumulation system is changed including cold-storage pump, cold-storage refrigeration unit, regenerator, public building refrigeration Hot device, valve and pipeline, cold-storage pump discharge pipeline are connected through valve with cold-storage pump discharge main pipe, cold-storage pump discharge main pipe and cold-storage Refrigeration unit import main pipe is connected, and cold-storage refrigeration unit import main pipe branched pipe connects through valve and cold-storage refrigeration unit inlet pipeline Connect, cold-storage refrigeration unit outlet conduit is connected through valve with cold-storage refrigeration unit outlet main pipe, cold-storage refrigeration unit outlet main pipe It is connected, regenerator import main pipe branched pipe is connected through valve with regenerator inlet pipeline, stores with regenerator import main pipe through valve Cooler outlet conduit is connected through valve with regenerator outlet main pipe, and regenerator outlet main pipe exchanges heat through valve and cold-storage temperature adjustment respectively Device, cold-storage release cold heat exchanger, the connection of public building refrigerated heat exchanger cold medium side-entrance pipeline, cold-storage trim heat exchanger, cold-storage Cold heat exchanger, public building refrigerated heat exchanger cold medium side outlet pipeline is released to be connected with cold-storage pump inlet main pipe through valve respectively, Described cold-storage refrigeration unit cooling water inlet pipeline is connected through valve with cold-storage refrigeration unit cooling water inlet main pipe, cold-storage system Cold group cooling water inlet main pipe is connected with refrigeration unit cooling water inlet main pipe, cold-storage refrigeration unit coolant outlet pipeline warp Valve is connected with cold-storage refrigeration unit coolant outlet main pipe, and cold-storage refrigeration unit coolant outlet main pipe is cooled down with refrigeration unit Water out main pipe is connected；Described cold-storage pump, cold-storage refrigeration unit, regenerator, cold-storage trim heat exchanger, cold-storage release cold heat exchange Device, public building refrigerated heat exchanger are respectively one or more composition；Described public building refrigerated heat exchanger is used for public build Build or plant building refrigeration is used.

Further, described cold-storage refrigeration unit import main pipe is connected with outlet main pipe by valve and pipeline；Cold-storage Pump inlet main pipe is connected with regenerator outlet main pipe by valve and pipeline；Regenerator import main pipe is led to regenerator outlet main pipe Cross valve and pipeline connection.

As a kind of preferred scheme of the process water direct cooling system described in the utility model cooled down for equipment, go back Including winter in spring and autumn cooling water system and winter heat exchanger, described winter heat exchanger process water inlet pipeline is through valve and refrigeration Unit technique water out main pipe is connected, and winter heat exchanger technique water exit conduit is female through valve and equipment heat exchanger technique water inlet Pipe is connected, and winter in spring and autumn cooling water system is connected with the SAPMAC method of winter heat exchanger, provides cold by winter in spring and autumn cooling water system Source.

As a kind of preferred scheme of the process water direct cooling system described in the utility model cooled down for equipment, go back Including winter in spring and autumn cooling water system and spring and autumn heat exchanger, spring and autumn heat exchanger process water inlet pipeline is changed through valve with equipment Hot device technique water out main pipe connection, spring and autumn heat exchanger exit pipeline is connected through valve with technique unit fixed on water pump suction main pipe, spring and autumn Winter cooling water system is connected with the SAPMAC method of spring and autumn heat exchanger, and low-temperature receiver is provided by winter in spring and autumn cooling water system.Further Ground, described winter in spring and autumn cooling water system include winter in spring and autumn cooling water pump, winter in spring and autumn cooling tower, spring and autumn heat exchanger, Winter heat exchanger, valve and pipeline, winter in spring and autumn cooling water pump outlet conduit export female through valve and winter in spring and autumn cooling water pump Pipe is connected, winter in spring and autumn cooling water pump outlet main pipe branched pipe respectively through valve and spring and autumn heat exchanger cooling water inlet pipeline, Winter heat exchanger cooling water inlet pipeline is connected, spring and autumn heat exchanger coolant outlet pipeline, winter heat exchanger coolant outlet Pipeline is connected through valve with winter in spring and autumn cooling tower cooling water inlet main pipe respectively, winter in spring and autumn cooling tower cooling water inlet main pipe Branched pipe is connected through valve with winter in spring and autumn cooling tower cooling water inlet pipeline, winter in spring and autumn cooling tower coolant outlet pipeline warp Valve is connected with winter in spring and autumn cooling tower coolant outlet main pipe, and winter in spring and autumn, cooling tower coolant outlet main pipe branched pipe was through valve Door is connected with winter in spring and autumn cooling pump inlet pipeline, and further winter in spring and autumn cooling water pump outlet main pipe is exported with cooling water pump Set between main pipe and set connection between contact valve, winter in spring and autumn cooling tower coolant outlet main pipe and cooling tower coolant outlet main pipe Contact valve is set between network valve, winter in spring and autumn cooling tower cooling water inlet main pipe and cooling tower cooling water inlet main pipe；It is described Winter in spring and autumn cooling water pump, winter in spring and autumn cooling tower, spring and autumn heat exchanger, winter heat exchanger be made up of one or more.

As a kind of preferred scheme of the process water direct cooling system described in the utility model cooled down for equipment, go back Including expansion tank, process water mends drainage arrangement, water quality monitoring and chemicals dosing plant.

The utility model also discloses a kind of direct cooling means of process water cooled down for equipment, and refrigeration unit is direct After process water is freezed, equipment is cooled down through cool storage container feeding equipment heat exchanger, the elevated process water of temperature leads to after heat exchange Cross return refrigeration unit after the boosting of technique water pump again to freeze, the circulation of formation process water cooling；Refrigeration unit will be changed by equipment The heat that the equipment that hot device is transferred in process water is produced is transferred to cooling water system；Heat is passed through cooling tower by cooling water system The external world is drained into, realizes that equipment is cooled down, following several modes is included but is not limited to during work：

During summer peak of power consumption, the heat that equipment is produced transfers heat to process water by equipment heat exchanger, carries The process water for the heat that equipment is produced is released cold heat exchanger by cold-storage and transferred heat in cold accumulation system；Process water after cooling The boosting of technique water pump is delivered to, through valve, cool storage container returning equipment heat exchanger, the circulation of formation process water cooling；Technique coolant-temperature gage leads to Overregulate cold-storage and release cold heat exchanger cold accumulation system side valve opening and be adjusted, can also be by adjusting cold-storage trim heat exchanger cold-storage System side valve opening is adjusted；

Summer electricity consumption usually with low ebb during, equipment produce heat technique is transferred heat to by equipment heat exchanger Water, the process water for the heat that Portable device is produced boosts by valve to technique water pump, the technique for the heat that Portable device is produced Water is transferred heat in cooling water system by refrigeration unit, the process water after cooling through the returning equipment heat exchanger of cool storage container 3, Formation process water cooling is circulated；The heat being transferred in cooling water system is by cooling tower and drains into the external world；Summer electricity consumption is low During paddy, cold-storage pump, cold-storage refrigeration unit are opened, the heat that the equipment being stored in regenerator is produced is transferred to cooling water system Heat in system is by cooling tower and drains into the external world；

When dry-bulb temperature is relatively low outside season in spring and autumn room, the heat that equipment is produced transfers heat to work by equipment heat exchanger Skill water, the process water for the heat that Portable device is produced transfers heat to winter in spring and autumn cooling water system by spring and autumn heat exchanger It is interior；Process water after cooling delivers to the boosting of technique water pump, through valve, cool storage container returning equipment heat exchanger, formation process water cooling Circulation；The heat being transferred in winter in spring and autumn cooling water system drains into the external world by winter in spring and autumn cooling tower；

When dry-bulb temperature is higher outside season in spring and autumn room, the heat that equipment is produced transfers heat to work by equipment heat exchanger Skill water, the heat that a part of equipment that process water is carried is produced transfers heat to the cooling of winter in spring and autumn by spring and autumn heat exchanger Water system；Process water after cooling delivers to the boosting of technique water pump, through valve, cool storage container returning equipment heat exchanger, formation process water Cooling circulation；The heat being transferred in winter in spring and autumn cooling water system drains into the external world by cooling tower；It is another that process water is carried The heat that a part of equipment is produced is transferred heat in cold accumulation system by cold-storage trim heat exchanger；During low power consumption, Cold-storage pump, cold-storage refrigeration unit are opened, the heat that the equipment being stored in regenerator is produced is transferred in cooling water system, heat Amount drains into the external world finally by cooling tower；

When dry-bulb temperature is relatively low outside winter room, the heat that equipment is produced transfers heat to technique by equipment heat exchanger Water, the process water for the heat that Portable device is produced transfers heat to spring and autumn after delivering to the boosting of technique water pump by winter heat exchanger In winter cooling water system；Process water returning equipment heat exchanger after cooling, the circulation of formation process water cooling；It is transferred to spring and autumn Heat in winter cooling water system drains into the external world by winter in spring and autumn cooling tower；

It is characterized in that process water is fed directly in refrigeration unit evaporator and refrigerant heat exchanger；

It is further characterized in that the process water freezed is flowed into after cool storage container, feed arrangement heat exchanger enters equipment heat exchanger, It is to run during freezing unit failure is shut down to one standby refrigeration unit stable operation of startup to pass through at one that it, which is acted on, Cool storage container released cold quantity keeps process water temperature change value to allow in apparatus and process water inlet temperature in excursion；, cool storage container Cold storage capacity size can be configured according to demand；

Technique coolant-temperature gage can be adjusted by changing refrigeration unit technique water outlet temperature setting value by being further characterized in that；Also Can be by the way that process water of the process water not freezed after freezing through refrigeration unit be carried out mixing regulation technique coolant-temperature gage；

Be further characterized in that can also by change cold-storage trim heat exchanger, cold-storage release cold heat exchanger, spring and autumn heat exchanger, Winter heat exchanger cold medium temperature and Flow-rate adjustment technique coolant-temperature gage；

It is further characterized in that first cool down process water in season in spring and autumn by spring and autumn heat exchanger and is re-fed into afterwards Refrigeration unit carries out refrigeration reduction power consumption of refrigerating,

Cooling reduction power consumption of refrigerating can be carried out to process water in the winter time by winter heat exchanger by being further characterized in that,

Cold-storage can also be carried out in night low power consumption by cold accumulation system by being further characterized in that, cold change is released by cold-storage Hot device releases cold in peak of power consumption on daytime, realizes electricity charge saving；

It is further characterized in that cold heat exchanger can also be released by cold-storage trim heat exchanger, cold-storage stops transport in failed refrigeration unit When keep technique coolant-temperature gage it is normal；

Being further characterized in that can also set and run by adjusting winter in spring and autumn cooling water system and cold accumulation system capacity Mode makes winter in spring and autumn cold-storage refrigeration unit, refrigeration unit according to load and ambient temperature situations intermitten service, to greatest extent Freeze using natural cooling and using trough-electricity, reduce annual cold-storage refrigeration unit, refrigeration unit run time.

Brief description of the drawings

Fig. 1 structural representations of the present utility model.

Wherein：

1. technique water pump, 2. refrigeration units, 3. cool storage containers, 4. cold-storage trim heat exchangers, 5. cold-storages release cold heat exchanger, 6. winters Season heat exchanger, 7. spring and autumn heat exchangers, 8. public building refrigerated heat exchangers, 9. winter in spring and autumn cooling water pumps, 10. cooling water pumps, 11. winter in spring and autumn cooling tower, 12. cooling towers, 13. cold-storage refrigeration units, 14. regenerators, 15. cold-storage pumps, 16. process waters are pumped out Mouth main pipe gets in touch with valve, 17. apparatus and process water inlet main pipes and apparatus and process water out with refrigeration unit technique water out main pipe Main pipe gets in touch with valve, and 18. cold-storages release cold heat exchanger and spring and autumn recuperator bypass valve, 19. winter in spring and autumn cooling tower cooling waters Main pipe and cooling tower coolant outlet main pipe communication valve are exported, 20. winter in spring and autumn cooling water pumps outlet main pipe is pumped out with cooling water Mouth main pipe communication valve, 21. winter in spring and autumn cooling tower cooling water inlet main pipes and cooling tower cooling water inlet main pipe communication valve, 22. Cold-storage refrigeration unit import main pipe exports female with outlet main pipe contact valve, 23. regenerators outlet main pipe with cold-storage refrigeration unit Tube contact valve, 24. cold-storage pump inlet main pipes and regenerator outlet main pipe contact valve, 25. equipment or technique heat exchanger

Embodiment

The utility model is described in further detail with reference to the accompanying drawings and detailed description.

A kind of process water direct cooling system cooled down for equipment, including technique water system, cooling water system, cold-storage system System, winter in spring and autumn cooling water system.

During summer peak of power consumption, the heat that equipment is produced transfers heat to process water by equipment heat exchanger 25, takes The process water for the heat that carrying device is produced is released cold heat exchanger 5 by cold-storage and transferred heat in cold accumulation system；Work after cooling Skill water is delivered to technique water pump 1 and boosted, and valve 16, storage are got in touch with through technique exit of pump main pipe and refrigeration unit technique water out main pipe The returning equipment heat exchanger 25 of cooler 3, the circulation of formation process water cooling；Technique coolant-temperature gage releases cold heat exchanger storage 5 by adjusting cold-storage Cold accumulation system side valve opening is adjusted, and can also be entered by adjusting cold-storage trim heat exchanger 4 cold accumulation system side valve openings of storage Row adjustment.

Summer electricity consumption usually with low ebb during, equipment produce heat technique is transferred heat to by equipment heat exchanger 25 Water, the process water for the heat that Portable device is produced releases cold heat exchanger and spring and autumn recuperator bypass valve 18 to technique by cold-storage Water pump 1 is boosted, and the process water for the heat that Portable device is produced is transferred heat in cooling water system by refrigeration unit 2, is dropped Process water after temperature is through the returning equipment heat exchanger 25 of cool storage container 3, the circulation of formation process water cooling；It is transferred in cooling water system Heat the external world is drained into by winter in spring and autumn cooling tower 11 and cooling tower 12；During summer low power consumption, open cold-storage pump 15, store Cold refrigeration unit 13, the heat that the heat that the equipment being stored in regenerator is produced is transferred in cooling water system passes through spring and autumn Winter cooling tower 11 and cooling tower 12 drain into the external world.

When dry-bulb temperature is relatively low outside season in spring and autumn room, the heat that equipment is produced is transferred heat to by equipment heat exchanger 25 Process water, the process water for the heat that Portable device is produced transfers heat to winter in spring and autumn cooling water by spring and autumn heat exchanger 7 In system；Process water after cooling is delivered to technique water pump 1 and boosted, through technique exit of pump main pipe and refrigeration unit technique water out Main pipe contact valve 16, the returning equipment heat exchanger 25 of cool storage container 3, the circulation of formation process water cooling；It is transferred to winter in spring and autumn cold But the heat in water system drains into the external world by winter in spring and autumn cooling tower 11.

When dry-bulb temperature is higher outside season in spring and autumn room, the heat that equipment is produced is transferred heat to by equipment heat exchanger 25 Process water, the heat that a part of equipment that process water is carried is produced transfers heat to winter in spring and autumn by spring and autumn heat exchanger 7 Cooling water system；Process water after cooling is delivered to technique water pump 1 and boosted, through technique exit of pump main pipe and refrigeration unit process water Export main pipe contact valve 16, the returning equipment heat exchanger 25 of cool storage container 3, the circulation of formation process water cooling；It is transferred to the winter in spring and autumn Heat in season cooling water system drains into the external world by cooling tower 11；The heat that another part equipment that process water is carried is produced leads to Cold-storage trim heat exchanger 4 is crossed to transfer heat in cold accumulation system；During low power consumption, cold-storage pump 15, cold-storage refrigeration are opened Unit 13, the heat that the equipment being stored in regenerator 14 is produced is transferred in cooling water system, and heat is finally by cooling Tower 12 drains into the external world；

When dry-bulb temperature is relatively low outside winter room, the heat that equipment is produced transfers heat to technique by equipment heat exchanger 25 Water, the process water for the heat that Portable device is produced is delivered to after technique water pump 1 boosts transfers heat to the spring by winter heat exchanger 6 In autumn and winter cooling water system；Process water returning equipment heat exchanger 25 after cooling, the circulation of formation process water cooling；It is transferred to Heat in winter in spring and autumn cooling water system drains into the external world by winter in spring and autumn cooling tower 11；

Although embodiment of the present utility model is illustrated in specification, these embodiments are intended only as carrying Show, should not limit protection domain of the present utility model.Various omissions are carried out in the range of the utility model objective is not departed from, are put Change and change should be included in protection domain of the present utility model.

Claims (10)

1. a kind of process water direct cooling system cooled down for equipment, it is characterised in that including technique water system and cooling water System,

Described technique water system includes technique water pump, refrigeration unit, cool storage container, equipment heat exchanger, valve and pipeline, described The heat exchanger that equipment heat exchanger refers to manufacturing process flow or machinery equipment needs progress heat exchange cooling and configured；Process water Pump discharge pipeline is connected through valve with technique exit of pump main pipe, and technique exit of pump main pipe is female with refrigeration unit technique water inlet Pipe is connected, and refrigeration unit technique water inlet main pipe branched pipe is connected through valve with refrigeration unit process water inlet pipeline, refrigeration machine Group technique water exit conduit is connected through valve with refrigeration unit technique water out main pipe, refrigeration unit technique water out main pipe branch Pipe is connected through valve with cool storage container inlet pipeline, and cool storage container outlet conduit connects through valve and equipment heat exchanger technique water inlet main pipe Connect, equipment heat exchanger technique water inlet main pipe branched pipe is connected through valve with equipment heat exchanger process water inlet pipeline, and equipment is changed Hot device technique water exit conduit is connected through valve with equipment heat exchanger technique water out main pipe, and equipment heat exchanger technique water out is female Pipe is connected through valve with technique unit fixed on water pump suction main pipe, and technique unit fixed on water pump suction main pipe branched pipe is through valve and technique unit fixed on water pump suction pipeline Connection；

Described cooling water system is made up of cooling water pump, cooling tower, valve and connecting pipe, and cooling water pump outlet conduit is through valve Door is connected with cooling water pump outlet main pipe, and cooling water pump outlet main pipe is connected with refrigeration unit cooling water inlet main pipe, refrigeration machine Group cooling water inlet main pipe branched pipe is connected through valve with refrigeration unit cooling water inlet pipeline, refrigeration unit cooling water outlet pipe Road is connected through valve with refrigeration unit coolant outlet main pipe, refrigeration unit coolant outlet main pipe and cooling tower cooling water inlet Main pipe is connected, and cooling tower cooling water inlet main pipe branched pipe is connected through valve with cooling tower cooling water inlet pipe, cools down tower cooler Water exit conduit is connected through valve with cooling tower coolant outlet main pipe, cooling tower coolant outlet main pipe branched pipe through valve with Cooling water pump inlet pipeline is connected；

Described technique water pump, refrigeration unit, cool storage container, equipment heat exchanger, cooling water pump, cooling tower are respectively one or many Platform.

2. the process water direct cooling system according to claim 1 cooled down for equipment, it is characterised in that：Described storage Cooler is equipped with bypass valve, and bypass valve inlet pipeline is connected with cool storage container imported valve preceding pipeline, bypass valve outlet conduit Be connected with pipeline after cool storage container outlet valve, be easy to process water temperature adjustment and in system operation to cool storage container carry out every From maintenance.

3. the process water direct cooling system according to claim 1 cooled down for equipment, it is characterised in that：Described work Skill exit of pump main pipe is connected with refrigeration unit technique water out main pipe by valve, when refrigeration unit is run, and passes through regulation The valve opening adjusting process coolant-temperature gage；Normally stopped transport in refrigeration unit or during trouble hunting, work is set up by opening the valve Skill water circulation path.

4. the process water direct cooling system according to claim 1 cooled down for equipment, it is characterised in that：Also include storing Cooling system and cold-storage trim heat exchanger, cold-storage trim heat exchanger process water inlet pipeline is through valve and refrigeration unit technique water out Main pipe is connected, and cold-storage trim heat exchanger technique water exit conduit is connected through valve with equipment heat exchanger technique water inlet main pipe, is stored Cooling system is connected with the SAPMAC method of cold-storage trim heat exchanger, and low-temperature receiver is provided by cold accumulation system.

5. the process water direct cooling system according to claim 1 cooled down for equipment, it is characterised in that：Also include the spring Autumn and winter cooling water system and winter heat exchanger, described winter heat exchanger process water inlet pipeline is through valve and refrigeration unit work Skill water out main pipe is connected, and winter heat exchanger technique water exit conduit connects through valve and equipment heat exchanger technique water inlet main pipe Connect, winter in spring and autumn cooling water system is connected with the SAPMAC method of winter heat exchanger, low-temperature receiver is provided by winter in spring and autumn cooling water system.

6. the process water direct cooling system according to claim 1 cooled down for equipment, it is characterised in that：Also include storing Cooling system and cold-storage release cold heat exchanger, and cold-storage is released cold heat exchanger process water inlet pipeline and gone out through valve with equipment heat exchanger process water Mouth main pipe connection, cold-storage is released cold heat exchanger technique water exit conduit and is connected through valve with technique unit fixed on water pump suction main pipe；Cold accumulation system The SAPMAC method for releasing cold heat exchanger with cold-storage is connected, and low-temperature receiver is provided by cold accumulation system.

7. the process water direct cooling system according to claim 1 cooled down for equipment, it is characterised in that：Also include the spring Autumn and winter cooling water system and spring and autumn heat exchanger, spring and autumn heat exchanger process water inlet pipeline is through valve and equipment heat exchanger work Skill water out main pipe is connected, and spring and autumn heat exchanger exit pipeline is connected through valve with technique unit fixed on water pump suction main pipe, and winter in spring and autumn is cold But water system is connected with the SAPMAC method of spring and autumn heat exchanger, and low-temperature receiver is provided by winter in spring and autumn cooling water system.

8. it is used for the process water direct cooling system that equipment is cooled down according to claim 4 or 6, it is characterised in that：It is described Cold accumulation system include cold-storage pump, cold-storage refrigeration unit, regenerator, public building refrigerated heat exchanger, valve and pipeline, cold-storage pump Outlet conduit is connected through valve with cold-storage pump discharge main pipe, and cold-storage pump discharge main pipe is connected with cold-storage refrigeration unit import main pipe, Cold-storage refrigeration unit import main pipe branched pipe is connected through valve with cold-storage refrigeration unit inlet pipeline, cold-storage refrigeration unit outlet Road is connected through valve with cold-storage refrigeration unit outlet main pipe, and cold-storage refrigeration unit exports main pipe through valve and regenerator import main pipe Connection, regenerator import main pipe branched pipe is connected through valve with regenerator inlet pipeline, and regenerator outlet conduit is through valve with storing Cooler outlet main pipe connection, regenerator outlet main pipe release cold heat exchanger through valve and cold-storage trim heat exchanger, cold-storage respectively, it is public The connection of refrigerated heat exchanger cold medium side-entrance pipeline is built, cold-storage trim heat exchanger, cold-storage release cold heat exchanger, public building refrigeration Heat exchanger cold medium side outlet pipeline is connected through valve with cold-storage pump inlet main pipe respectively, described cold-storage refrigeration unit cooling water Inlet pipeline is connected through valve with cold-storage refrigeration unit cooling water inlet main pipe, cold-storage refrigeration unit cooling water inlet main pipe and system Cold group cooling water inlet main pipe is connected, and cold-storage refrigeration unit coolant outlet pipeline is through valve and cold-storage refrigeration unit cooling water Main pipe connection is exported, cold-storage refrigeration unit coolant outlet main pipe is connected with refrigeration unit coolant outlet main pipe；Described storage Cold pump, cold-storage refrigeration unit, regenerator, cold-storage trim heat exchanger, cold-storage release cold heat exchanger, public building refrigerated heat exchanger difference Constituted for one or more；Described public building refrigerated heat exchanger is used for public building or plant building refrigeration is used.

9. the process water direct cooling system according to claim 8 cooled down for equipment, it is characterised in that：Described storage Cold refrigeration unit import main pipe is connected with outlet main pipe by valve and pipeline；Cold-storage pump inlet main pipe exports main pipe with regenerator Connected by valve and pipeline；Regenerator import main pipe is connected with regenerator outlet main pipe by valve and pipeline.

10. it is used for the process water direct cooling system that equipment is cooled down, described winter in spring and autumn according to claim 5 or 7 Cooling water system include winter in spring and autumn cooling water pump, winter in spring and autumn cooling tower, spring and autumn heat exchanger, winter heat exchanger, valve and Pipeline, winter in spring and autumn cooling water pump outlet conduit is connected through valve with winter in spring and autumn cooling water pump outlet main pipe, and winter in spring and autumn is cold But exit of pump main pipe branched pipe enters through valve with spring and autumn heat exchanger cooling water inlet pipeline, winter heat exchanger cooling water respectively Mouth pipeline connection, spring and autumn heat exchanger coolant outlet pipeline, winter heat exchanger coolant outlet pipeline are respectively through valve and spring Autumn and winter cooling tower cooling water inlet main pipe is connected, and winter in spring and autumn, cooling tower cooling water inlet main pipe branched pipe was through valve and spring and autumn Winter cooling tower cooling water inlet pipeline is connected, and winter in spring and autumn cooling tower coolant outlet pipeline is cooled down through valve and winter in spring and autumn Tower cooler water out main pipe is connected, and winter in spring and autumn cooling tower coolant outlet main pipe branched pipe is through valve and winter in spring and autumn cooling pump Inlet pipeline is connected, and further sets communication valve between winter in spring and autumn cooling water pump outlet main pipe and cooling water pump outlet main pipe Contact valve, winter in spring and autumn are set between door, winter in spring and autumn cooling tower coolant outlet main pipe and cooling tower coolant outlet main pipe Contact valve is set between cooling tower cooling water inlet main pipe and cooling tower cooling water inlet main pipe；Described winter in spring and autumn cooling water Pump, winter in spring and autumn cooling tower, spring and autumn heat exchanger, winter heat exchanger are made up of one or more.