CN208296638U - The anti-icing noise reduction system of double-curve cooling column radix saposhnikoviae - Google Patents
The anti-icing noise reduction system of double-curve cooling column radix saposhnikoviae Download PDFInfo
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- CN208296638U CN208296638U CN201820223089.1U CN201820223089U CN208296638U CN 208296638 U CN208296638 U CN 208296638U CN 201820223089 U CN201820223089 U CN 201820223089U CN 208296638 U CN208296638 U CN 208296638U
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Abstract
It includes wind guide module, installation support construction, basic load-carrying construction, windbreak, maintenance observation door, water retaining brim that the utility model, which discloses a kind of anti-icing noise reduction system of double-curve cooling column radix saposhnikoviae,.Muti-piece wind guide module is outside cooling tower air inlet, wind guide module mounted angle is consistent with cooling tower tower bottom inclination angle, form the rotary table side ring shape wind-guiding barrier centered on cooling tower, rotary table side ring shape wind-guiding barrier has multilayer, outermost layer is arranged on windbreak, and innermost layer is arranged on cooling tower air inlet outside eaves;The air intake passage width that multilayer rotary table side ring shape wind-guiding barrier is formed gradually is incremented by outward by interior, increasing proportion and cooling tower tower bottom inclination angle direct proportionality, and total effective width is consistent with cooling tower air inlet open height;The number of plies, the height of windbreak and the cooling tower of rotary table side ring shape wind-guiding barrier enter the wind open height direct proportionality.It avoids crosswind bring from adversely affecting, while can be freezed to avoid winter, can effectively eliminate the falling water noise propagated from air inlet.
Description
Technical field
The present invention relates to industrial circulating water cooling energy conservations and environmental protection technical field, more particularly to a kind of hyperbola
The anti-icing noise reduction system of cooling tower radix saposhnikoviae.
Background technique
In power plant, the low-temperature condition of condenser is guaranteed by cooling water circulation.The superiority and inferiority of cooling tower performance can be
Largely influence the economy and stability of power plant.The cold source energy of power plant is maximum one in links loss.
If cooling tower fluctuation of service, it will the temperature of recirculated cooling water is increased, and the raising of the temperature of cooling water will make condenser
Vacuum decay, the work efficiency drop of Steam Turbine, so as to cause power generation coal consumption amount increase and decrease, directly affect the heat of power plant
Efficiency.The cooling performance of double-curve cooling column is influenced by environment crosswind, and circumferentially air inlet is equal in the presence of that can destroy cooling tower for crosswind
Even property, and generate longitudinal whirlpool and lateral whirlpool enables air flow property to subtract so that heat and mass intensity is uneven everywhere in tower
It is weak, reduce the cooling capacity of cooling tower.It is influenced by crosswind, the relative variation of cooling efficiency is greater than ventilation quantity.Experiment
Research shows that: cooling tower cooler number is first reduced with the increase of extraneous crosswind wind speed to be increased afterwards, cooling when crosswind wind speed is 4m/s
Number reaches minimum, and compared with calm operating condition, value reduces by 20% or so, and 0.65~0.85 is about increased when outlet water temperature is more calm
℃.It is pointed out in " industrial circulating water Cooling Design specification " GBT50102-2014, by taking power plant as an example, water temperature after cooling tower cooler
1 DEG C of coal consumption for power generation of every reduction can reduce 1g(kW.h) more than.It is most of outside the room of hinterland according to the related statistics of various regions meteorologic parameter
For mean wind speed between 2~5m/s, it is generally existing that extraneous crosswind lowers cooling tower cooling efficiency phenomenon.
Maximum harm in the cooling tower that the area of very cold is built, winter operation is the icing of cooling tower.By ring
The influence of border lateral wind, air inlet take a part of whereabouts water droplet outside tower out of, and part water droplet is spread across on herringbone pillar by wind,
It freezes on the inside of the tower of herringbone pillar.Or trickle down on the preceding ground of air inlet, cause ground around tower to freeze.Part is under rain belt
The water droplet fallen, which is splashed down, to flow down in barrel along Cooling Tower Wall, and eaves or water retaining brim edge are detained on air inlet, ties in case of cold air
Ice.It forms edge and hangs ice ice curtain, be frozen into a stifled ice wall together with tower herringbone column's column when serious.Air inlet freeze except pair
The concrete of tower wall lower edge and herringbone pillar has outside destruction, has an effect on the air inlet of cooling tower, drops the cooling effect of tower
It is low.
The noise source of double-curve cooling column is equivalent to the overboard large area to water of high density of storm intensity in tower
Continuity is directly hit.Its sound source belongs to medium-high frequency, high-strength, steady-state noise.In power plant, Hyperbolic cooling tower trickle noise at
For important noise source.When double-curve cooling column is closer apart from residential block, cooling tower buzz will affect the daily life of resident
It is living.Currently, being that outlet air silencer is arranged in cooling tower air inlet or tall and big sound-screen is arranged based on the noise control of cooling tower
Barrier causes to increase air intake resistance, and the ventilation quantity for influencing cooling tower reduces the cooling efficiency of cooling tower.
Summary of the invention
The purpose of the present invention is to provide it is a kind of prevent nature crosswind to cold source energy, it is anti-freeze and control noise transmission
The anti-icing noise reduction system of double-curve cooling column radix saposhnikoviae.
The technical scheme is that a kind of anti-icing noise reduction system of double-curve cooling column radix saposhnikoviae includes wind guide module, installation
Support construction, basic load-carrying construction, windbreak, maintenance observation door, vertical water retaining brim.Muti-piece wind guide module abuts and is mounted on cooling
The outer sustained height of tower air inlet, wind guide module mounted angle is consistent with the inclination angle of cooling tower tower bottom, forms one layer with cooling
Rotary table side ring shape wind-guiding barrier centered on tower;Rotary table side ring shape wind-guiding barrier has multilayer, outermost layer rotary table side ring shape wind-guiding screen
Barrier is arranged on windbreak, and innermost layer rotary table side ring shape wind-guiding barrier is arranged on cooling tower air inlet outside eaves, is formed interior high outer
The multilayer rotary table side ring shape wind-guiding barrier of low cascade arrangement;The air intake passage that multilayer rotary table side ring shape wind-guiding barrier is formed is wide
Degree is incremented by outward by interior, and increasing proportion is directly proportional to the inclination angle of cooling tower tower bottom, multilayer rotary table side ring shape wind-guiding barrier shape
At air intake passage overall width and cooling tower air inlet open height it is consistent.
When environment lateral wind blows to cooling tower air inlet, the rotary table side ring shape wind-guiding barrier being inclined by is led toward cooling tower
Middle part cannot directly enter the air intake passage between multilayer rotary table side ring shape wind-guiding barrier.Air system into air intake passage is logical
It crosses pressure difference caused by the inside and outside atmospheric density difference of tower and stablizes into inside cooling tower.Calm working condition is formed, is guaranteed
The uniformity of air themperature field and flow field in tower.The working environment for stablizing cooling tower operates normally, surely according to design cooling capacity
Make coolant-temperature gage.
When air intake passage overall width is consistent with cooling tower air inlet open height, since the effective area of air intake passage is greater than cold
But the effective area of tower air inlet, the wind speed of air intake passage are lower than the wind speed of former cooling tower air inlet, and air intake passage enters the wind dynamic pressure
Loss is less than former cooling tower and enters the wind wind kinetic pressure losses.Increasing.Although the volume that can be generated because adding rotary table side ring shape wind-guiding barrier
Extrernal resistance force coefficient, but the air inlet kinetic pressure losses of reduction can be produced greater than rotary table side ring shape wind-guiding barrier due to entering the wind wind speed and reducing
Raw additional hydrostatic pressures losses, thus avoid increasing cooling tower ventilation resistance because rotary table side ring shape wind-guiding barrier is arranged, will not influence
The ventilation quantity and thermal performance of cooling tower.
When the inclination angle of cooling tower tower bottom is respectively 16 DEG C, 17 DEG C, 18 DEG C, 19 DEG C, 20 DEG C, each layer rotary table from inside to outside
Air intake passage setting width between side ring shape wind-guiding barrier is respectively according to 1:1.11,1:1.12,1:1.13,1:1.14,1:
1.15 ratio is incremented by.
Width is increase accordingly in proportion from inside to outside between multiple air intake passages, can both reduce the resistance system of air intake passage
Number, can also reduce setup cost.Since wind guide module mounted angle is consistent with cooling tower tower bottom inclination angle, can effectively stop
Cooling tower water water surface noise is directly propagated outward.Noise is insulated against sound after sound absorbing module absorbs by wind-guiding to be reflected again, reflects, rotary table
Acoustic environment outside side ring shape wind-guiding barrier can satisfy criteria of noise control.
When cooling tower air inlet open height is in 5m~10m, rotary table side ring shape wind-guiding barrier is four layers, and the height of windbreak is
2.5m, the length of wind guide module are enter the wind open height 42%~52%.When cooling tower air inlet open height is in 5m or less, rotary table side
Annular wind-guiding barrier is three layers, and the height of windbreak is 2m, and the length of wind guide module is enter the wind open height 52~62%.When cold
But tower enters the wind open height in 10m or more, and rotary table side ring shape wind-guiding barrier is five layers, and the height of windbreak is 3m, wind guide module
Length be enter the wind open height 32%~42%.The air inlet open height of double-curve cooling column is higher, and intake volume is bigger, increases circle
The number of plies of platform side ring shape wind-guiding barrier increases air intake passage number between rotary table side ring shape wind-guiding barrier, shortens and enters the wind elongated degree, energy
Reduce the resistance coefficient of air intake passage.The length of wind guide module is to enter the wind the ratio of open height in lower limit, be can satisfy basic
Radix saposhnikoviae anti-icing noise-reducing design requirement.The length of wind guide module is to enter the wind the ratio of open height in the upper limit, and it is logical to will increase air inlet
Road length can further increase the anti-icing noise-reducing design requirement of radix saposhnikoviae, but will slightly improve air inlet wind pressure resistance.
Basic load-carrying construction forms the concentric circles centered on cooling tower by basis, pillar, basic ring beam, top ring beam
Supporting steel plate is arranged in integral reinforced concrete basis load-carrying construction, post top portion plane.The windbreak is built in pillar, base
Between plinth ring beam and top ring beam, maintenance observation door is arranged in windbreak, and observation window setting observes door top in maintenance.?
Equipment working condition can be understood through the observation of daylighting sound control glass outside windbreak, reduce noise of equipment to the shadow of operator
It rings, meets the observation of working face, operation, maintenance in favor of administrative staff to cooling tower systems.
Installation support construction includes primary load bearing fashioned iron, wind guide module support mounting rack, stiffening plate etc., the installation of primary load bearing steel type
At the top of the supporting steel plate and cooling tower air inlet of post top portion between ring beam, wind guide module supports mounting rack to be arranged in primary load bearing
On fashioned iron.It is installed since wind guide module tilts, the fitful wind load that wind guide module is born is far below right angle setting, and hyperbola is cooling
Tower air inlet bottom part ring girder construction designs the fitful wind load for alreading have accounted for tower bottom inclination angle, so primary load bearing fashioned iron is installed
Between the supporting steel plate and cooling tower air inlet bottom ring beam of post top portion, basic load-carrying construction has assumed responsibility for rotary table side ring
Most of fitful wind load of shape wind-guiding barrier, will not integrally anti-fitful wind load impact to cooling tower.
Vertical water retaining brim is mounted on packing area in cooling tower hereinafter, on inner tower wall more than at the top of air inlet, vertically
Cram marine glue in installation gap between water retaining brim top and inner tower wall.When lateral wind fails to enter cooling tower rain by air inlet
Inside area, guarantee the uniformity of air themperature field and flow field in tower.The overboard hot gas that do not drift does not dissipate consumption, rain belt inside cooling tower
Cold and hot exchange area is positively retained at 10 DEG C or more, forms the warm internal environment that cannot be freezed.Eaves inner wall is set on air inlet
Water retaining brim prevents the water flow flowed down along barrel from contacting to form the icing of herringbone pillar with the cold air entered from air inlet.
Wind guide module includes sound absorption function or the not no wind guide module of sound absorption function, and having sound absorption function wind guide module is to lead
Wind sound insulation sound absorbing module, the wind guide module of sound absorption function is not wind deflector made of the engineerings plates such as metal or nonmetal plate
Module.
When cooling tower present position does not need control noise transmission, wind guide module is wind-guiding plate module;When cooling tower office
When portion's direction of air outlet has sensitive point for noise to need to control noise transmission, wind guide module can be installed according to locating direction unit selection part
Wind-guiding sound absorption and insulation module or wind-guiding plate module.
The beneficial effect of the present invention compared with the prior art is:
The air inlet ventilation amount and thermal performance of cooling tower are not influenced;Influence of the environment crosswind to thermal performance can be prevented, surely
The temperature for determining recirculated cooling water improves the efficiency of cooling tower;It can effectively prevent cooling tower air inlet freezed in winter;Noise reduction effect
Acoustic environment code requirement can be met.
With reference to the accompanying drawings and examples to further instruction of the present invention.
Detailed description of the invention
Fig. 1 is the top view of first embodiment of the invention.
Fig. 2 is the side view of Fig. 1.
Fig. 3 is the partial side structural map of first embodiment of the invention.
Fig. 4 is the partial elevation view of first embodiment of the invention.
Fig. 5 is water retaining brim partial side structural map.
Fig. 6 is the partial side structural map of second embodiment of the invention.
Fig. 7 is the partial side structural map of third embodiment of the invention.
Fig. 8 is the top view of fourth embodiment of the invention.
Description of symbols: 1. wind guide modules, 11. rotary table side ring shape wind-guiding barriers, 12. air intake passages, the sound absorption of 13. wind-guidings
Sound insulation module, 14. wind-guiding plate modules, 2. installation support constructions, 21. primary load bearing fashioned iron, 22. support mounting racks, 23. stiffening plates,
3. basic load-carrying construction, 31. pedestals, 32. pillars, 33. basic ring beams, 34. top ring beams, 35. supporting steel plates, 36. windbreaks,
37. maintenance observation door, 38. observation windows, 4. vertical water retaining brims, 41. marine glues, 42. packing areas, eaves on 43., 44. tower walls;
5. cooling tower, 51. air inlets, 52. top ring beams, 53. ground, 54. sensitive point for noise.
Specific embodiment
In the first embodiment shown in Fig. 1,2,3,4, a kind of anti-icing noise reduction system of double-curve cooling column radix saposhnikoviae includes leading
Wind module (1), installation support construction (2), basic load-carrying construction (3), windbreak (36), maintenance observation door (37), water retaining brim
(4).The wind guide module (1) of muti-piece same specification abuts and is mounted on cooling tower (5) air inlet (51) outer sustained height, wind guide module
(1) mounted angle is consistent with the inclination angle of cooling tower (5) tower bottom, forms one layer of rotary table side ring centered on cooling tower (5)
Shape wind-guiding barrier (11);Rotary table side ring shape wind-guiding barrier (11) has multilayer, the installation of each layer rotary table side ring shape wind-guiding barrier (11)
It is all different highly and at a distance from cooling tower (5) air inlet (51), outermost layer rotary table side ring shape wind-guiding barrier (11) setting exists
On windbreak (36), it is outer (43) that eaves is arranged on cooling tower (5) air inlet (51) in innermost layer rotary table side ring shape wind-guiding barrier (11);
Air intake passage (12) width that multilayer rotary table side ring shape wind-guiding barrier (11) is formed is incremented by outward by interior, increasing proportion and cooling tower
(5) inclination angle of tower bottom is directly proportional, multilayer rotary table side ring shape wind-guiding barrier (11) formed air intake passage (12) overall width with
Cooling tower (5) air inlet (51) height is consistent.
When the inclination angle of cooling tower (5) tower bottom is respectively 16 DEG C, 17 DEG C, 18 DEG C, 19 DEG C, 20 DEG C, from inside to outside respectively
Air intake passage setting width between layer rotary table side ring shape wind-guiding barrier is respectively according to 1:1.11,1:1.12,1:1.13,1:
1.14, the ratio of 1:1.15 is incremented by.
When cooling tower (5) air inlet (51) is highly in 5m~10m, rotary table side ring shape wind-guiding barrier (11) is four layers, gear
The height of brattice (36) is 2.5m, and the length of wind guide module (1) is the 42%~52% of air inlet (51) height.
Basic load-carrying construction (3) include basic (31), pillar (32), basic ring beam (33), top ring beam (33) formed with
The integral reinforced concrete basis load-carrying construction (3) of concentric circles centered on cooling tower (5), pillar (32) top planes setting branch
Hold steel plate (35).The windbreak (36) is built between pillar (32), basic ring beam (33) and top ring beam (33), maintenance
It observes door (37) to be arranged in windbreak (36), observation window (38) setting observes door (37) top in maintenance.
Installation support construction include primary load bearing fashioned iron (21), wind guide module (1) support mounting rack (22), stiffening plate (23),
Primary load bearing steel type (21) is mounted on ring beam at the top of supporting steel plate (34) and cooling tower (5) air inlet (51) at the top of pillar (32)
(52) between, wind guide module (1) supports mounting rack (22) to be arranged on primary load bearing fashioned iron (21).
Wind guide module (1) includes sound absorption function or the not no wind guide module (1) of sound absorption function, there is sound absorption function wind-guiding mould
Block (1) is wind-guiding sound absorption and insulation module (13), and the wind guide module (1) of sound absorption function is not the engineerings such as metal or nonmetal plate
Wind-guiding plate module (14) made of plate.When cooling tower (5) present position does not need control noise transmission, wind guide module (1)
For wind-guiding plate module (14);When local air inlet (51) direction of cooling tower (5) needs to control noise transmission, wind guide module (1)
Wind-guiding sound absorption and insulation module (13) or wind-guiding plate module (14) can be installed according to locating direction unit selection part.
Vertical water retaining brim (4) shown in fig. 5 is mounted on cooling tower (5) packing area (42) hereinafter, air inlet (51) pushes up
On inner tower wall (44) more than portion, marine glue is crammed in the installation gap between vertical water retaining brim (4) top and inner tower wall (44).
In second embodiment shown in fig. 6, when cooling tower (5) air inlet (51) highly in 5m or less when, rotary table side ring shape
Wind-guiding barrier (11) is three layers, and the height of windbreak (36) is 2m, and the length of wind guide module (1) is the 52 of air inlet (51) height
~62%.
In 3rd embodiment shown in Fig. 7, when cooling tower (5) air inlet (51) highly in 10m or more when, rotary table side ring shape
Wind-guiding barrier (11) is five layers, and the height of windbreak (36) is 3m, and the length of wind guide module (1) is air inlet (51) height
32%~42%.
In fourth embodiment shown in Fig. 8, when cooling tower (5) air inlet (51) direction has sensitive point for noise (54) to need to control
Noise transmission processed, wind guide module (1) can be according to locating direction selection installation section wind-guiding sound absorption and insulation module (13) or wind deflectors
Module (14).
The present invention is not limited to the above embodiment, and is also not limited to the anti-icing noise reduction of radix saposhnikoviae of Hyperbolic cooling tower.It is affiliated
From the above idea, the various transformation made are within the scope of the present invention those skilled in the art.
Claims (10)
1. a kind of anti-icing noise reduction system of double-curve cooling column radix saposhnikoviae, including wind guide module, installation support construction, basic load knot
Structure, windbreak, maintenance observation door, vertical water retaining brim, are mounted on outside cooling tower air inlet it is characterized in that: muti-piece wind guide module abuts
Sustained height, wind guide module mounted angle is consistent with the inclination angle of cooling tower tower bottom, forms one layer centered on cooling tower
Rotary table side ring shape wind-guiding barrier;Rotary table side ring shape wind-guiding barrier has multilayer, and the setting of outermost layer rotary table side ring shape wind-guiding barrier is being kept off
On brattice, the setting of innermost layer rotary table side ring shape wind-guiding barrier outside eaves, forms low inside and high outside staged on cooling tower air inlet
The multilayer rotary table side ring shape wind-guiding barrier of arrangement;Multilayer rotary table side ring shape wind-guiding barrier formed air intake passage width by it is interior outward
It is incremented by, increasing proportion is directly proportional to the inclination angle of cooling tower tower bottom, and the air inlet that multilayer rotary table side ring shape wind-guiding barrier is formed is logical
Road overall width is consistent with cooling tower air inlet open height.
2. the anti-icing noise reduction system of double-curve cooling column radix saposhnikoviae according to claim 1, it is characterised in that: when cooling tower tower
When the inclination angle of bottom is respectively 16 DEG C, 17 DEG C, 18 DEG C, 19 DEG C, 20 DEG C, from inside to outside between each layer rotary table side ring shape wind-guiding barrier
Air intake passage setting width respectively according to 1:1.11,1:1.12,1:1.13,1:1.14,1:1.15 ratio be incremented by.
3. the anti-icing noise reduction system of double-curve cooling column radix saposhnikoviae according to claim 1, it is characterised in that: when cooling tower is entered the wind
For open height in 5m~10m, rotary table side ring shape wind-guiding barrier is four layers, and the height of windbreak is 2.5m, the length of wind guide module
It is the 42%~52% of air inlet open height.
4. the anti-icing noise reduction system of double-curve cooling column radix saposhnikoviae according to claim 1, it is characterised in that: when cooling tower is entered the wind
For open height in 5m or less, rotary table side ring shape wind-guiding barrier is three layers, and the height of windbreak is 2m, the length of wind guide module be into
The 52~62% of air port height.
5. the anti-icing noise reduction system of double-curve cooling column radix saposhnikoviae according to claim 1, it is characterised in that: when cooling tower is entered the wind
For open height in 10m or more, rotary table side ring shape wind-guiding barrier is five layers, and the height of windbreak is 3m, and the length of wind guide module is
Enter the wind the 32%~42% of open height.
6. the anti-icing noise reduction system of double-curve cooling column radix saposhnikoviae according to claim 1, it is characterised in that: basic load-carrying construction
It holds on the integral reinforced concrete basis of the concentric circles formed centered on cooling tower by basis, pillar, basic ring beam, top ring beam
Supporting steel plate is arranged in power structure, post top portion plane;The windbreak build pillar, basic ring beam, with top ring beam it
Between, maintenance observation door is arranged in windbreak.
7. the anti-icing noise reduction system of double-curve cooling column radix saposhnikoviae according to claim 1, it is characterised in that: installation support construction
Including primary load bearing fashioned iron, wind guide module support mounting rack, stiffening plate etc., primary load bearing steel type is mounted on the supporting steel plate of post top portion
Between the ring beam of cooling tower air inlet top, wind guide module supports mounting rack to be arranged on primary load bearing fashioned iron.
8. the anti-icing noise reduction system of double-curve cooling column radix saposhnikoviae according to claim 1, it is characterised in that: vertical water retaining brim peace
Mounted in cooling tower soaking filler area hereinafter, air inlet at the top of more than inner tower wall on, between vertical water retaining brim top and inner tower wall
Installation gap cram marine glue.
9. the anti-icing noise reduction system of double-curve cooling column according to claim 1 radix saposhnikoviae, it is characterised in that: wind guide module includes
There are sound absorption function or the not wind guide module of sound absorption function, having sound absorption function wind guide module is wind-guiding sound absorption and insulation module, is not had
There is the wind guide module of sound absorption function wind-guiding plate module made of metal or nonmetal plate.
10. the anti-icing noise reduction system of double-curve cooling column radix saposhnikoviae according to claim 9, it is characterised in that: when cooling tower institute
When place position does not need control noise transmission, wind guide module is wind-guiding plate module;When cooling tower part, direction of air outlet has noise
When sensitive spot needs to control noise transmission, wind guide module can according to locating direction unit selection part install wind-guiding sound absorption and insulation module or
Wind-guiding plate module.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110132028A (en) * | 2018-02-08 | 2019-08-16 | 厦门嘉达环保科技有限公司 | The anti-icing noise reduction system of double-curve cooling column radix saposhnikoviae |
CN111321930A (en) * | 2020-03-16 | 2020-06-23 | 海西晟博环保科技有限公司 | Wind-shielding and dust-suppression wall for stock yard and construction method thereof |
CN110132028B (en) * | 2018-02-08 | 2024-06-04 | 厦门嘉达环保科技有限公司 | Wind-proof anti-icing noise reduction system of hyperbolic cooling tower |
-
2018
- 2018-02-08 CN CN201820223089.1U patent/CN208296638U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110132028A (en) * | 2018-02-08 | 2019-08-16 | 厦门嘉达环保科技有限公司 | The anti-icing noise reduction system of double-curve cooling column radix saposhnikoviae |
CN110132028B (en) * | 2018-02-08 | 2024-06-04 | 厦门嘉达环保科技有限公司 | Wind-proof anti-icing noise reduction system of hyperbolic cooling tower |
CN111321930A (en) * | 2020-03-16 | 2020-06-23 | 海西晟博环保科技有限公司 | Wind-shielding and dust-suppression wall for stock yard and construction method thereof |
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