CN209672868U - A kind of labyrinth damp type depth fog dispersal receipts water cooling tower - Google Patents

Abstract

It disperses fog the utility model discloses a kind of labyrinth damp type depth and receives water cooling tower, including tower body, filler portion, spray equipment, water collection device, condensation heat exchange device and heating device are successively arranged in tower body from the bottom to top, is additionally provided with air duct at the top of tower body, air duct is equipped with air ducting；It is located at position between condensation heat exchange device top and air duct import in tower body and is provided with mixing section gas chamber, heating device is located in mixing section gas chamber.The utility model has the advantages that low energy consumption, easy for installation, system reliability is high, it combines air in parallel fog dispersal technology with heating fog dispersal technology, have the characteristics that structure is simple and convenient to operate, disperses fog thorough, can be used for recirculating cooling water system, energy conservation and environment protecting are obvious.

Description

A kind of labyrinth damp type depth fog dispersal receipts water cooling tower

Technical field

The utility model belongs to cooling tower technical field more particularly to water cooling is received in a kind of fog dispersal of labyrinth damp type depth Tower.

Background technique

It is promoted with industrialization, whole nation industry water consumption dramatically increases, and has accounted for about whole society's total water consumption 25%, wherein 80% uses In industry cooling, industry cooling water consumption is big, and circulating and recovering is low, and water loss is high, and research industry cooling is water-saving, reconstructs industry cooling Water saving art optimizes cooling water system, researches and develops crucial cooling water-saving equipment, significantly reduces cooling water loss, greatly improve work Industry water effect is of great significance to the industrial plumage mist pollution of industrial water consumption and effectively inhibition is significantly reduced.

Cooling tower realizes circulating water with air and recirculated water contact sensible heat transfer and moisture evaporation latent heat heat exchange mode, Its own evaporation causes cooling water loss excessive simultaneously, and tower damp-heat air, which easily condenses, out forms plumage mist, influences nearby residents Area and traffic route visibility cause environmental pollution while road surface slippery situation around cooling tower also being made to influence service personnel's work.Exploitation Force ventilation tower receives water fog dispersal technology, and to Industrial Water Saving is realized, prevention and treatment cooling tower plumage mist pollution is of great significance.

The utility model patent of notification number CN108800983A discloses a kind of water-saving fog dispersal cooling tower.This kind water-saving Disperse fog cooling tower, including cooling column body, collecting-tank, cooling coil, the first air inlet, packing layer, water distribution pipeline, sets first Spray head and exhaust blower, water distribution pipeline top are fixed with heat exchange fog dispersal mechanism, and heat exchange fog dispersal actuator base is provided with the second spray Head；Collecting-tank is connected to circulating water pipe, and circulating water pipe end is provided with the first water outlet and the second water outlet, the first water outlet with It is connected at the top of water distribution pipeline connection, the second water outlet and heat exchange fog dispersal mechanism；It is arranged between heat exchange fog dispersal mechanism and water distribution pipeline There is the second air inlet.A kind of water-saving fog dispersal cooling tower of the utility model is matched by heat exchange fog dispersal mechanism with the second air inlet It closes, so that vapor condensation is fallen, effectively eliminate spraying cooling water evaporation loss, overall structure is simple, and manufacturing cost is low, economical It is practical.

In the technical solution heat exchange fog dispersal mechanism include left side fixed plate, right side fixed plate, be set to left side fixed plate and The hollow continuous bending plate in multiple longitudinal directions between the fixed plate of right side, two be set at the top of left side fixed plate and right side fixed plate First water-supply-pipe and three second water-supply-pipes for being set to left side fixed plate and right side fixed plate bottom.First water-supply-pipe Bottom be successively connected to the top of hollow continuous bending plate longitudinally in each, the top of second water-supply-pipe successively with it is each vertical It is connected to the bottom of hollow continuous bending plate.It is hollow structure, right side fixed plate top and circulation at the top of the right side fixed plate Second water outlet of water pipe is connected to.It is cold that the hollow Curved Continuous folded structure in longitudinal direction of heat exchange fog dispersal mechanism is conducive to increase vapor The solidifying time, and the small water droplet for effectivelying prevent vapor or condensing into is carried over outside cooling tower under fan action.

But above-mentioned technical proposal still has the defect of fog dispersal not enough thoroughly, energy saving and bad environment protecting.

The utility model patent of notification number CN102901397A discloses a kind of wet cooling tower fog dispersal water collector, the device It is arranged more than cooling tower original water collection device, the following cooling tower air duct lower end position of blower, partition is set in collection water-dividing chamber, is constituted Collecting chamber and water-dividing chamber, upper hose connect collecting chamber, collecting chamber connection condensation water service pipe one end, condensation water service pipe other end connection Backwater room top, backwater room lower part reconnect condensation water service pipe one end, and the condensation water service pipe other end returns to connection collection water-dividing chamber Water-dividing chamber, constitute closed cycle structure, water-dividing chamber lower end connect spray tube；Condensing water service pipe and concave-convex cooling fin attachment is one Body；Positioning poling is set to the upper and lower ends of concave-convex cooling fin；Waterstop is set on convex surface on the inside of concave-convex cooling fin；On upper hose End connection integral water chamber, lower end connects pressure pump, and then connects mixing tank, constitutes fog dispersal water collector.The utility model Damp and hot fog will be saturated and be condensed into water, the evaporation of water is avoided, saved water resource, avoid the pollution of environment.

But above-mentioned technical proposal still has the defect of fog dispersal not enough thoroughly, energy saving and bad environment protecting.

Utility model content

The purpose of this utility model is to provide a kind of low energy consumption, the labyrinth damp type that easy for installation, system reliability is high Depth fog dispersal receive water cooling tower, have the characteristics that structure be simple and convenient to operate, disperse fog it is thorough, energy conservation with environment protecting it is obvious.

In order to solve the above technical problems, the utility model adopts the following technical solution:

Water cooling tower, including tower body are received in a kind of fog dispersal of labyrinth damp type depth, are successively arranged filler from the bottom to top in tower body Portion, spray equipment, water collection device, condensation heat exchange device and heating device, tower body top are additionally provided with air duct, and air duct is equipped with wind-guiding dress It sets；It is located at position between condensation heat exchange device top and air duct import in tower body and is provided with mixing section gas chamber, heating device is located at In mixing section gas chamber；

High temperature circulation cooling water is passed through by spray equipment to be sprayed in filler portion, and with enter from tower body lower part air inlet Cold air carries out caloic and exchanges to form damp-heat air, and damp-heat air enters condensation heat exchange device from the bottom to top, and cold dry air is by cloth It sets the air inlet in tower body two sides and horizontally enters into condensation heat exchange device.

Heating device or so is positioned opposite, and heating device is oriented to air duct entrance and tilts.

Condensation heat exchange device includes the dry and cold sky of V-shape of two groups of opposite labyrinth type dividing wall type heat exchangers and middle section Gas converges area；Labyrinth type dividing wall type heat exchanger is made of successively alternately arranged labyrinth type cold passage and the labyrinth type passage of heat, fan Gas flow in the type cold passage of palace be it is horizontally disposed, gas flow in the labyrinth type passage of heat is to be vertically arranged；Cold dry air Horizontally enter into the labyrinth type cold passage of condensation heat exchange device, damp-heat air from the bottom to top vertically into the labyrinth type passage of heat, Hot and cold air carries out heat exchange in labyrinth type dividing wall type heat exchanger, and cold dry air enters cold dry air and converges area simultaneously after heat exchange It flows up.

Labyrinth type cold passage and the labyrinth type passage of heat are referred to as heat exchanger channels, and heat exchanger channels are by two pieces of opposite heat exchanger plates It constitutes, heat exchanger plates are zigzag；The peak valley of every two pieces of heat exchanger plates, which contrasts, constitutes a labyrinth type channel, and labyrinth type channel is formed Periodic dilation and contraction.

Crest height is without delay height on heat exchanger plates.

Heat exchanger plates are surrounded by the sealing plate exchange passage of heat and are sealed；Every two is distinguished with respect on the sealing plate of heat exchanger plates The seal convexity and sealed groove being mutually matched equipped with several.

Two pieces of heat exchanger plates middle sections of every group of composition heat exchanger channels are disposed with raised butt joint docking.

Every piece of heat exchanger plates, which are located on the surface of labyrinth type passage of heat side, is coated with hydrophilic coating.

Two pieces of heat exchanger plates of every group of composition heat exchanger channels are arranged using mirror image corresponding form.

Two pieces of heat exchanger plates of every group of composition labyrinth type cold passage arrange that every group of composition labyrinth type is warm using parallel corresponding form Two pieces of heat exchanger plates in channel are arranged using mirror image corresponding form.

The utility model has the beneficial effects that

The utility model has the advantages that low energy consumption, easy for installation, system reliability is high, by air in parallel fog dispersal technology It is combined with heating fog dispersal technology, has the characteristics that structure is simple and convenient to operate, disperses fog thorough, can be used for circulating cooling water system System, energy conservation and environment protecting are obvious.

Mixed air vessel's section is inside disposed with heating dress between condensation heat exchange device and air duct import in the utility model Mixing air can be heated by setting, and made mixing air state point further away from saturation curve, reached depth fog dispersal purpose.

The setting of heating device in the utility model heats mixing air using fume afterheat, or utilizes Heat recirculated water is passed through heat exchanger and is heated to mixing air and can also directly adopt Electric heating and directly heat；And heating dress It is positioned opposite to set left and right, and heating device is oriented to air duct entrance and tilts, guide functions can be played to two sides air and promote sky Gas mixing.

Condensation heat exchange device includes two groups of opposite labyrinth type dividing wall type heat exchangers and middle section in the utility model V-shape cold dry air converge area, can be achieved at the same time improve hot and cold air heat exchange amount, solve damp-heat air condensed water trapping ask Topic, and prevent cold air flows short circuit phenomenon from occurring.

Labyrinth type cold passage is the labyrinth type channel of periodic dilation and contraction in the utility model condensation heat exchange device, cold Air in labyrinth type cold passage during bottom horizontal flow sheet flow area constantly change can increase cold air disturbance increase heat exchange system Number while the resistance balance for playing the role of balancing resistance promotion damp and hot air-flow and cold airflow, prevent cold air flows short circuit phenomenon Occur, and channel is that labyrinth type can also extend air flow increase heat-exchange time.

The heat exchange hot plate that cold and hot channel is constituted in the utility model condensation heat exchange device is labyrinth shape, and crest height is nothing It is detained height, cold air will not be made to generate delay again when playing the role of enhancing and reinforcing air agitation.

Each pair of heat exchanger plates for constituting heat exchanger channels are opposite by being arranged on heat exchanger plates in the utility model condensation heat exchange device Raised butt joint docking, exchange hot plate play a supporting role.

Heat exchange plate surface in the utility model condensation heat exchange device positioned at passage of heat two sides is coated with hydrophilic material coating, Conducive to the trapping to damp-heat air condensed water.

The utility model condensation heat exchange device is partially equipped with V-shape cold dry air therebetween and converges area, can make by fan The cold air of palace type dividing wall type heat exchanger has a component velocity obliquely, convenient for the mixing of hot and cold air after heat exchange.

Detailed description of the invention

Attached drawing 1 is the structural schematic diagram of the utility model embodiment；

Attached drawing 2 is the structural schematic diagram of condensation heat exchange device in the utility model embodiment；

Attached drawing 3 is single heat exchanger plates structure chart in the utility model embodiment；

Attached drawing 4 is heat exchanger channels structure chart in the utility model embodiment；

Attached drawing 5 is the air psychrometric chart that the utility model embodiment installs cooling tower after condensation heat exchange device additional；

Attached drawing 6 is that the air enthalpy of cooling tower after installing heating device in the utility model embodiment mixing section gas chamber additional is wet Figure；

Attached drawing 7 is one of heat exchanger channels heat exchanger plates corresponding form schematic diagram in the utility model embodiment；

Attached drawing 8 is two of heat exchanger channels heat exchanger plates corresponding form schematic diagram in the utility model embodiment.

The appended drawing reference of component in figure: 1- tower body；2- filler portion；3- spray equipment；4- water collection device；5- labyrinth type partition Heat exchanger；6-V font cold dry air converges area；7- heating device；8- air duct；9- blower；10- mixing section gas chamber；11- heat exchange Plate；501- cold passage；The 502- passage of heat；503- protrusion connector；504- seal convexity；505- sealed groove.

Specific embodiment

Specific embodiment of the present utility model is described in detail below in conjunction with attached drawing.It should be understood that herein Described specific embodiment is only used for describing and explaining the present invention, and is not intended to limit the utility model.

As shown in Figures 1 to 7, water cooling tower, including tower body 1 are received in a kind of labyrinth damp type depth fog dispersal of the present embodiment, Filler portion 2, spray equipment 3, water collection device 4, condensation heat exchange device, heating device 7, tower body 1 are successively arranged in tower body 1 from the bottom to top Top is equipped with air duct 8, and blower 9 is equipped in air duct as air ducting；Be located in tower body 15 top of condensation heat exchange device and Position is provided with mixing section gas chamber 10 between 8 import of air duct, and heater 7 is located in mixing section gas chamber 10.

High temperature circulation cooling water is passed through by spray equipment 3 and is sprayed in filler portion 2, and is entered with from tower body lower part air inlet Cold air carry out caloic and exchange to form damp-heat air, damp-heat air enters condensation heat exchange device 5 from the bottom to top, cold dry air by The air inlet for being arranged in 1 two sides of tower body horizontally enters into condensation heat exchange device.

Heating device 7 is oppositely disposed in mixing section gas chamber 10 in splayed configuration or so in the utility model, and heating device 7 is equal It is oriented to and tilts to 8 entrance of air duct, heating device 7 is made to be arranged in obtuse angle respectively with cooling tower or so wall surface, it can be to the left and right sides Air plays certain guide functions, conducive to being sufficiently mixed for mixing section gas chamber air.

Heating device 7 is disposed in mixing section gas chamber, heating device can utilize the low-quality heat sources such as fume afterheat or will be sharp Heating is carried out to mixing section gas chamber air with heat recirculated water or is directly heated using Electric heating, mixing air state point is made Further away from saturation curve, reach depth fog dispersal purpose.

Condensation heat exchange device includes two groups of opposite labyrinth type dividing wall type heat exchangers 5 and middle section in the utility model V-shape cold dry air converge area 6.

Labyrinth type dividing wall type heat exchanger is by successively 502 structure of alternately arranged labyrinth type cold passage 501 and the labyrinth type passage of heat Be at, the gas flow in labyrinth type cold passage 501 it is horizontally disposed, the gas flow in the labyrinth type passage of heat 502 is vertically to set It sets；Cold dry air horizontally enters into labyrinth type cold passage 501 from two sides, and damp-heat air is logical vertically into labyrinth type heat from the bottom to top In road 502, hot and cold air carries out heat exchange in labyrinth type dividing wall type heat exchanger 5, and cold dry air enters dry and cold sky after heat exchange Gas converges area 6.Since V-shape cold dry air converges the setting in area 6, can make after heat exchange cold dry air have one obliquely Component velocity, conducive to the mixing of hot and cold air after heat exchange.

Above-mentioned labyrinth type cold passage 501 and the labyrinth type passage of heat 502 are referred to as heat exchanger channels, and heat exchanger channels are by two pieces of phases Pair heat exchanger plates 11 constitute, heat exchanger plates 11 be labyrinth shape；It is logical that the peak valley of every two pieces of heat exchanger plates 11 contrasts one labyrinth type of composition Road, labyrinth type channel form periodic dilation and contraction.

In the present embodiment, two pieces of heat exchanger plates 11 of every composition heat exchanger channels use the combining form of mirror image corresponding form, such as Shown in Fig. 7.It can also use form as shown in Figure 8, and two pieces of heat exchanger plates of every group of composition labyrinth type cold passage 501 are using parallel Two pieces of heat exchanger plates of corresponding form arrangement, every group of composition labyrinth type passage of heat 502 are arranged using mirror image corresponding form.

Heat exchanger plates 11 are surrounded by sealing plate and are sealed to cold and hot channel, and downside is close on it for labyrinth type cold passage 501 Envelope closing, the labyrinth type passage of heat 502 are closed in its left and right side seal, and every two with respect to setting respectively on the sealing plate of heat exchanger plates The seal convexity 504 and sealed groove 505 for having several to be mutually matched are for sealing.

Two pieces of heat exchanger plates middle sections of every group of composition heat exchanger channels are disposed with raised butt joint 503, two pieces of heat exchanger plates 11 The bonding of butt joint 503 can play a supporting role to channel and prevent channel from collapsing.

The crest height of heat exchanger plates 11 is that will not make again when playing the role of enhancing and reinforcing air agitation cold without height is detained Air generates delay, and 11 material of heat exchanger plates uses high thermal conductivity coefficient light material, exchanges heat conducive to hot and cold air.Position simultaneously It is coated with hydrophilic material coating in 11 surface of heat exchanger plates of labyrinth type passage of heat two sides, is caught conducive to damp-heat air condensed water Collection.

Flow area constantly changes and can increase cold air and disturb cold air during bottom horizontal flow sheet in labyrinth type cold passage 501 The dynamic coefficient of heat transfer that increases plays the role of the resistance balance that balancing resistance promotes damp and hot air-flow and cold airflow simultaneously, prevents cold air stream The generation of short circuit phenomenon is measured, and channel is that labyrinth type can also extend air flow increase heat-exchange time.

The course of work that water cooling tower is received in the labyrinth damp type depth fog dispersal of the utility model embodiment is as follows:

Spray equipment 3 by high temperature circulation cooling water be sprayed in filler portion 2 and with enter from cooling tower lower part air inlet Cold air carries out caloic exchange, and circulating cooling coolant-temperature gage reduces；The cold air entered below cooling tower after caloic exchanges Temperature rises, and water capacity increases, and forms the damp-heat air being substantially saturated；Wandering water is captured when damp-heat air is by water collection device 4, Continue to ascend into the labyrinth type passage of heat 502 of condensation heat exchange device 5 later, enters condensing heat-exchange dress with from cooling tower two sides The cold dry air for setting labyrinth type cold passage 501 in 5 exchanges heat；Damp-heat air cools down condensation, and condensed water quilt in the passage of heat The trapping of passage of heat surface hydrophilicity coating, cold dry air temperature increase, and cold air V-shape among condensation heat exchange device in two sides is dry Cold air converges area 6 and converges rising, mixes in mixing section gas chamber 10 with by the hot-air of the labyrinth type passage of heat 502, mixes When air is by the heating device 7 that is arranged in mixing section gas chamber 10, it can be heated, atmosphere is finally being expelled to by blower 9.

It is described further below in conjunction with working principle of the air psychrometric chart to the utility model, Fig. 5 is to install condensation additional to change The psychrometric chart of cooling tower after thermal, point 20 are damp-heat air state point above water collection device, and point 24 is outside air state point, wet Hot-air exchanges heat in condensation heat exchange device with the cold air for entering condensation heat exchange device, damp-heat air temperature and water capacity State point 21 is dropped to along saturation curve there is condensation and reach water-saving purpose, cold dry air temperature increases water capacity substantially not Become, becomes 23 from state point 24, the damp-heat air 21 and cold air 23 after exchanging heat are mixed, and mixed state point is 22, it can be discharged outside tower by blower, be mixed with the outside air for being located at state point 24 later, the outer air blend section of tower is 24-23.

Fig. 6 is the air psychrometric chart that the utility model installs cooling tower after heater additional in mixing section gas chamber, state point 25,26,27,29,30 correspond respectively to state point 20 in Fig. 4, and 21,22,23,24, after mixing section gas chamber installs heater additional, By mixing air heating in the tower for being located at state point 27, so that mixed gas state point is further away from saturation curve, temperature edge Line segment 27-28 is increased, and is discharged outside tower by blower later, is mixed with the outside air for being located at state point 30, the outer air blend of tower The outer air blend section 30-29 slope ratio Fig. 4 middle conductor 24-22 slope of tower is small in Duan Bianwei 30-29, Fig. 5, the outer air of tower The smaller proof fog dispersal of blend slope over 10 is more thorough.

It may indicate that the utility model patent purpose that can realize that cooling tower is water-saving and depth disperses fog by thermodynamic analysis, it can Bring certain economic benefit and environmental benefit.

The utility model has the advantages that low energy consumption, easy for installation, system reliability is high, by condensation heat exchange device and The section that water technology, air parallel connection type fog dispersal technology and hot type fog dispersal technology combine realization cooling tower is received in condensation by heating device Water depth fog dispersal has the characteristics that structure is simple and convenient to operate, disperses fog thorough, can be used for recirculating cooling water system, energy saving and ring It is obvious to protect effect.

Above embodiments are only to illustrate rather than limit the technical solution of the utility model, although referring to above-described embodiment pair The utility model is described in detail, those skilled in the art should understand that: still can to the utility model into Row modification or equivalent replacement should all without departing from any modification or partial replacement of the spirit and scope of the utility model Cover in the scope of the claims of the utility model.

Claims (10)

1. water cooling tower, including tower body are received in a kind of labyrinth damp type depth fog dispersal, it is characterised in that: in tower body from the bottom to top successively Equipped with filler portion, spray equipment, water collection device, condensation heat exchange device and heating device, air duct is additionally provided at the top of tower body, air duct is arranged There is air ducting；It is located above condensation heat exchange device in tower body and position between air duct import is provided with mixing section gas chamber, heating Device is located in mixing section gas chamber；

High temperature circulation cooling water is passed through by spray equipment to be sprayed in filler portion, and with the cold sky that enters from tower body lower part air inlet Gas carries out caloic and exchanges to form damp-heat air, and damp-heat air enters condensation heat exchange device from the bottom to top, and cold dry air is by being arranged in The air inlet of tower body two sides horizontally enters into condensation heat exchange device.

2. water cooling tower is received in a kind of labyrinth damp type depth fog dispersal according to claim 1, it is characterised in that: heating device Left and right is positioned opposite, and heating device is oriented to air duct entrance and tilts.

3. water cooling tower is received in a kind of labyrinth damp type depth fog dispersal according to claim 1, it is characterised in that: condensing heat-exchange Device includes that the V-shape cold dry air of two groups of opposite labyrinth type dividing wall type heat exchangers and middle section converges area；Labyrinth type Dividing wall type heat exchanger is made of successively alternately arranged labyrinth type cold passage and the labyrinth type passage of heat, the gas in labyrinth type cold passage Body flow direction be it is horizontally disposed, gas flow in the labyrinth type passage of heat is is vertically arranged；Cold dry air horizontally enters into condensing heat-exchange In the labyrinth type cold passage of device, damp-heat air is from the bottom to top vertically into the labyrinth type passage of heat, and hot and cold air is in labyrinth type Heat exchange is carried out in dividing wall type heat exchanger, cold dry air enters cold dry air and converges area and flow up after heat exchange.

4. water cooling tower is received in a kind of labyrinth damp type depth fog dispersal according to claim 3, it is characterised in that: labyrinth type is cold Channel and the labyrinth type passage of heat are referred to as heat exchanger channels, and heat exchanger channels are made of two pieces of opposite heat exchanger plates, and heat exchanger plates are saw Tooth form；The peak valley of every two pieces of heat exchanger plates, which contrasts, constitutes a labyrinth type channel, and labyrinth type channel forms periodic dilation and receipts Contracting.

5. water cooling tower is received in a kind of labyrinth damp type depth fog dispersal according to claim 4, it is characterised in that: on heat exchanger plates Crest height is without delay height.

6. water cooling tower is received in a kind of labyrinth damp type depth fog dispersal according to claim 4, it is characterised in that: heat exchanger plates four The sealing plate exchange passage of heat is equipped with week to be sealed；Every two is with respect to being respectively equipped with several mutual on the sealing plate of heat exchanger plates The seal convexity and sealed groove matched.

7. water cooling tower is received in a kind of labyrinth damp type depth fog dispersal according to claim 4, it is characterised in that: every group of composition Two pieces of heat exchanger plates middle sections of heat exchanger channels are disposed with raised butt joint docking.

8. water cooling tower is received in a kind of labyrinth damp type depth fog dispersal according to claim 4, it is characterised in that: every piece of heat exchange Plate, which is located on the surface of labyrinth type passage of heat side, is coated with hydrophilic coating.

9. water cooling tower is received in a kind of labyrinth damp type depth fog dispersal according to claim 4, it is characterised in that: every group of composition Two pieces of heat exchanger plates of heat exchanger channels are arranged using mirror image corresponding form.

10. water cooling tower is received in a kind of labyrinth damp type depth fog dispersal according to claim 4, it is characterised in that: every group of structure It is arranged at two pieces of heat exchanger plates of labyrinth type cold passage using parallel corresponding form, two pieces of heat exchange of every group of composition labyrinth type passage of heat Plate is arranged using mirror image corresponding form.