CN108097674A - 660MW supercritical pressure turbine debugging apparatus - Google Patents
660MW supercritical pressure turbine debugging apparatus Download PDFInfo
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- CN108097674A CN108097674A CN201711169788.9A CN201711169788A CN108097674A CN 108097674 A CN108097674 A CN 108097674A CN 201711169788 A CN201711169788 A CN 201711169788A CN 108097674 A CN108097674 A CN 108097674A
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- steam
- pipe
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- docking
- supervisor
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B08—CLEANING
- B08B—CLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
- B08B9/00—Cleaning hollow articles by methods or apparatus specially adapted thereto
- B08B9/02—Cleaning pipes or tubes or systems of pipes or tubes
- B08B9/027—Cleaning the internal surfaces; Removal of blockages
- B08B9/04—Cleaning the internal surfaces; Removal of blockages using cleaning devices introduced into and moved along the pipes
- B08B9/053—Cleaning the internal surfaces; Removal of blockages using cleaning devices introduced into and moved along the pipes moved along the pipes by a fluid, e.g. by fluid pressure or by suction
- B08B9/055—Cleaning the internal surfaces; Removal of blockages using cleaning devices introduced into and moved along the pipes moved along the pipes by a fluid, e.g. by fluid pressure or by suction the cleaning devices conforming to, or being conformable to, substantially the same cross-section of the pipes, e.g. pigs or moles
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- Physics & Mathematics (AREA)
- Fluid Mechanics (AREA)
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Pipeline Systems (AREA)
- Cleaning By Liquid Or Steam (AREA)
Abstract
The invention discloses 660MW supercritical pressure turbine debugging apparatus.Belong to boiler washing pipe technical field, the steam supply of steam turbine can be achieved with without stopping steam conveying pipeline to carrying out eliminating impurities close to one section of nearer steam conveying pipeline of boiler.Including boiler, steam lead, it is responsible for, goes out steam pipe, side pipe, scale removing tube and dirt removal device;The left nozzle of supervisor includes the upper left nozzle and lower-left nozzle in forked arrangement, and the right nozzle of supervisor includes upper right nozzle and bottom right nozzle in forked arrangement;The left end of side pipe after arc-shaped bending downwardly toward the right side in obtaining the left bending segment pipe of side pipe, and the right end of side pipe is downwardly toward a left side in obtaining the right bending segment pipe of side pipe after arc-shaped bending;One end docking of steam lead is connected on the lower-left nozzle of supervisor, and the other end docking of steam lead is connected on a steam (vapor) outlet of boiler.
Description
Technical field
The present invention relates to boiler washing pipe technical fields, and in particular to 660MW supercritical pressure turbine debugging apparatus.
Background technology
After boiler long-time service, can be deposited on the inner wall of boiler substantial amounts of steam dirt, iron filings and with the sundries such as iron rust,
When the sundries in boiler runs up to a certain amount of, it may appear that a part of sundries comes off, and when the sundries to come off is larger, is just present with
Sundries blocks steam conveying pipeline and pipe is caused to overheat explosion or sundries occur and is impinged upon with high speed steam flow on turbine blade
Leaf destruction is caused, has caused a serious accident.The most susceptible to plugging steam conveying pipeline of sundries come out from boiler is just proximate to pot
One section of nearest steam conveying pipeline of stove, as long as often clear to carrying out sundries close to one section of nearest steam conveying pipeline of boiler
It removes, the steam conveying pipeline that will make steam turbine is unimpeded.
When being now to carrying out eliminating impurities close to one section of nearer steam conveying pipeline of boiler, it is necessary to stop steam conveying
Pipeline is to steam turbine steam supply, so as to cause halt turbines.
The content of the invention
When the present invention is to solve now to carrying out eliminating impurities close to one section of nearer steam conveying pipeline of boiler, need
Stop steam conveying pipeline to that could be carried out after steam turbine steam supply, so as to cause the deficiency of halt turbines, provide one kind not
The steam supply of steam turbine can be achieved with steam conveying pipeline is stopped to being carried out close to one section of nearer steam conveying pipeline of boiler
Eliminating impurities can separate the inclusion particles in steam with steam, safe, the 660MW supercritical pressure turbines of good reliability
Debugging apparatus.
More than technical problem is solved by following technical proposal:
660MW supercritical pressure turbine debugging apparatus, the steam power transport system including steam turbine, steam power delivery system
System includes boiler, steam lead, is responsible for, goes out steam pipe, side pipe, scale removing tube and dirt removal device;The left nozzle of supervisor includes
The upper left nozzle and lower-left nozzle of forked arrangement, the right nozzle of supervisor are included in the upper right nozzle of forked arrangement and bottom right pipe
Mouthful;Downwardly toward the right side in the left bending segment pipe of side pipe is obtained after arc-shaped bending, the right end of side pipe is in the left end of side pipe downwardly toward a left side
The right bending segment pipe of side pipe is obtained after arc-shaped bending;One end docking of steam lead is connected on the lower-left nozzle of supervisor, into
The other end docking of steam pipe is connected on a steam (vapor) outlet of boiler;The left end docking for going out steam pipe is connected to the right side of supervisor
On lower nozzle, the bending segment pipe docking of side pipe is connected on the upper left nozzle of supervisor, and the right bending segment pipe docking of side pipe is connected to
On the upper right nozzle of supervisor;So as to which the side pipe after connection be allowed to form a perimetrical lumen with supervisor;The activity of dirt removal device is set
In perimetrical lumen, and dirt removal device can be moved in perimetrical lumen annular;If side pipe by left bending segment pipe, stage casing pipe and
Right bending segment pipe composition;Side steam inlet, the both ends of an auxiliary tube are equipped on the stage casing pipe of side pipe at right bending segment pipe
Docking be connected on the steam inlet of side and another steam (vapor) outlet of boiler on;And the steam flowed out from auxiliary tube can promote dirt
Dirty remover moves counterclockwise in perimetrical lumen;Go out steam pipe right end include in forked arrangement go out steam upper orifice and
Go out steam lower nozzle, the lower end docking of scale removing tube is connected to out the going out on steam upper orifice of steam pipe;It is equipped in steam lead
No.1 valve is equipped with No. two valves on auxiliary tube, No. three valves is equipped on steam upper orifice is gone out, on steam lower nozzle is gone out
Equipped with No. four valves.It is connected in the steam port docking that goes out of No. four valves and can reduce the particle of granule content in steam and reduce machine
Structure.
In the present solution, include the pipeline of supervisor and the pipeline of side pipe close to one section of nearer steam conveying pipeline of boiler,
When sundries in the perimetrical lumen formed to the pipeline of supervisor and the pipeline of side pipe is purged, as long as dirt removal device is allowed to exist
Loopy moving can remove the sundries on perimetrical lumen inner wall in perimetrical lumen.Dirt removal device will be removed on perimetrical lumen inner wall
The course of work of sundries be:If starting No.1 valve is in opening state, managed if starting dirt removal device in the stage casing of side pipe
Place opens No. two valves, the steam of boiler is allowed to be entered from auxiliary tube in perimetrical lumen, ring pipe is entered from auxiliary tube at this time
Intracavitary steam is from right toward moving left in side pipe, and dirt removal device can be promoted from side pipe toward the steam moved left from right in side pipe
Supervisor is moved to, steam is to move from left to right in supervisor, and dirt removal device is also to move from left to right in supervisor, works as dirt
When the rear end of dirty remover is moved to the left end of supervisor, the front end of dirt removal device is then moved in the stage casing pipe of side pipe, dirt
The front end of remover will be entirely moved in side pipe in the steam stream of the left flowings of stage casing Guan Zhongchao, and so Xun Huan can be real
Existing dirt removal device moves in official jargon is cycled, and so as to fulfill removing of the dirt removal device to sundries in Xun Huan official jargon, dirt is clear
Sundries after being removed except device with being discharged after steam flow steam turbine, due to can setting time often so to nearer close to boiler
One section of steam conveying pipeline carries out eliminating impurities so that close to one section of nearer steam conveying pipeline of boiler be not easy stacking volume compared with
Big sundries, the sundries volume of discharge all can be smaller, and smaller sundries will not damage turbine blade, reliability and peace
Full property is higher.Particle reducing mechanism separates the inclusion particles in steam with steam, reduces damage of the particle to turbine blade.
This programme does not have to stopping steam conveying pipeline and the steam supply of steam turbine can be achieved with to being conveyed close to one section of nearer steam of boiler
Pipeline carries out eliminating impurities, safe, good reliability.
Preferably, dirt removal device includes the three mobile cylinders of section, wherein the front and back end of the mobile cylinder of a section respectively with separately
One end universal rotational of the outer mobile cylinder of two sections connects, and turning set is all distinguished on the periphery of the mobile cylinder of every section and is equipped with rotation
Pipe, is uniformly fixed with several blades parallel to each other, and each blade respectively on the periphery wall of each rotation pipe
It is less than 30 degree with the angle of the tube core line of the rotation pipe at place.Steam Actuation blade rotates, and can just remove annular official jargon inner wall
On sundries.
Preferably, several anti-rotation movable plates are all uniformly fixed with respectively on the periphery of the mobile cylinder of every section, often
A anti-rotation movable plate is parallel with the tube core line of the rotation pipe at place.Anti-rotation movable plate is that mobile cylinder is made to be not easy to rotate, anti-rotation movable plate
Coordinate with blade, the sundries on annular official jargon inner wall can be removed well.
Preferably, particle reducing mechanism includes high-voltaghe compartment, stent is equipped in high-voltaghe compartment, is equipped with and steams vertically on stent
The flat rotation pipe of vapour, one end docking of connecting tube are connected to the going out on steam port of No. four valves, and the other end of the connecting tube turns
Dynamic docking is connected on the upper orifice of the flat rotation pipe of steam;It puts down in steam and is equipped with and the flat pipe of steam on the vertical tube wall of rotation pipe
The vertical holes that tube chamber is connected, docking is fixedly connected with aperture from inside to outside from left to right outwardly on the aperture of each vertical holes
Inclined reaction force mouth;It is equipped in the vertical inner wall of high-voltaghe compartment below reaction force mouth in horn-like opening down cloth
The filter mantle put is equipped with several filter hole on filter mantle, main cage apertures is equipped on the filter mantle above filter hole, in filter hole
The filter mantle of lower section is equipped with circular cowling slot, and annular riffler, the upper notch of annular riffler are equipped in the slot bottom of circular cowling slot
Width is less than the bottom surface width of annular riffler;The high-voltaghe compartment for going out steam port and being arranged below filter mantle of particle reducing mechanism
Upright side walls on, and be equipped with out steam valve in going out on steam port for particle reducing mechanism.This structure is to miscellaneous in steam
Composition granule and steam separating degree are preferable.
Preferably, the groove bottom of circular cowling slot is equipped with sand discharge hole, a sand discharge pipe docking is connected on sand discharge hole,
Sand discharge pipe is equipped with sand discharge valve.Easy to use, reliability is high.
The present invention can reach following effect:
The present invention is defeated without stopping steam when to carrying out eliminating impurities close to one section of nearer steam conveying pipeline of boiler
Steam supply of the pipeline to steam turbine is sent, the inclusion particles in steam can be separated with steam, reduces damage of the particle to turbine blade
Wound.Safe, good reliability is simple in structure.
Description of the drawings
Fig. 1 is a kind of attachment structure schematic diagram of the present invention.
Fig. 2 is a kind of local attachment structure schematic diagram at dirt removal device of the present invention.
Fig. 3 is a kind of local attachment structure schematic diagram at particle reducing mechanism of the present invention.
Specific embodiment
The present invention is further illustrated with embodiment below in conjunction with the accompanying drawings.
Embodiment, 660MW supercritical pressure turbine debugging apparatus, referring to shown in Fig. 1, Fig. 2, Fig. 3, the steam including steam turbine
Powertrain system, steam power transport system include boiler 48, steam lead 8, are responsible for 6, go out steam pipe 4, side pipe 13, row's dirt
Pipe 21 and dirt removal device 14;The left nozzle of supervisor includes the upper left nozzle 10 and lower-left nozzle 7 in forked arrangement, supervisor's
Right nozzle includes the upper right nozzle 20 and bottom right nozzle 5 in forked arrangement;The left end of side pipe is bent downwardly toward the right side in arc-shaped
Obtain the left bending segment pipe 12 of side pipe afterwards, the right end of side pipe is downwardly toward a left side in obtaining the right bending segment pipe of side pipe after arc-shaped bending
19;One end docking of steam lead is connected on the lower-left nozzle of supervisor, and the other end docking of steam lead is connected to boiler
On one steam (vapor) outlet;The left end docking for going out steam pipe is connected on the bottom right nozzle of supervisor, and the bending segment pipe of side pipe is in succession
It is connected on the upper left nozzle of supervisor, the right bending segment pipe docking of side pipe is connected on the upper right nozzle of supervisor;So as to allow after connection
Side pipe and supervisor formed a perimetrical lumen 15;Dirt removal device is movably arranged in perimetrical lumen, and dirt removal device
It can be moved in perimetrical lumen annular;If side pipe is made of left bending segment pipe 12, stage casing pipe 16 and right bending segment pipe 19;Right curved
The stage casing pipe of side pipe at trisection pipe is equipped with side steam inlet, and the both ends docking of an auxiliary tube 17 is connected to side steam inlet
On upper and another steam (vapor) outlet of boiler;And the steam flowed out from auxiliary tube can promote dirt removal device in perimetrical lumen
Movement 11 counterclockwise;Going out the right end of steam pipe includes going out steam upper orifice 3 and to go out steam lower nozzle 2 in forked arrangement, arranges
The lower end docking of dirty pipe is connected to out the going out on steam upper orifice of steam pipe;No.1 valve 9 is equipped in steam lead, is being aided in
Pipe is equipped with No. two valves 18, and No. three valves 22 are equipped on steam upper orifice is gone out, and No. four valves are equipped on steam lower nozzle is gone out
Door 1.It is connected in the steam port docking that goes out of No. four valves and can reduce the particle reducing mechanism of granule content in steam.
Dirt removal device includes the mobile cylinder 46 of three sections, wherein the front and back end of the mobile cylinder of a section is moved respectively with other two sections
One end universal rotational connection 45 of dynamic cylinder, all turning set is equipped with rotation pipe 41 respectively on the periphery of the mobile cylinder of every section,
Uniformly be fixed with several blades 40 parallel to each other respectively on the periphery wall of each rotation pipe, and each blade with
The angle of the tube core line of rotation pipe at place is less than 30 degree.
Several anti-rotation movable plates 43, each anti-rotation are all uniformly fixed with respectively on the periphery of the mobile cylinder of every section
Piece is parallel with the tube core line of the rotation pipe at place.
The outer end elasticity of anti-rotation movable plate is equipped with ball 42.
Guide collar 44 there are one being set jointly in every outer end for saving the anti-rotation movable plate on mobile cylinder.
Elastic scraping dirt mechanism is respectively equipped in the outer end of each blade.
Elastic scraping dirt mechanism includes the temperature-sensitive telescopic block 39 for being arranged on each blade outer end, in two neighboring temperature-sensitive telescopic block
In, it is jagged sawtooth scraping dirt piece 38 that the outer end of a temperature-sensitive telescopic block, which is equipped with outer end, wherein, is stretched in another temperature-sensitive
The outer end of block is equipped with the edge of a knife scraping dirt piece 47 that outer end is edge of a knife shape.
Particle reducing mechanism includes high-voltaghe compartment 23, and stent 26 is equipped in high-voltaghe compartment, is put down vertically equipped with steam on stent
Rotation pipe 24, one end docking of connecting tube 32 are connected to the going out on steam port of No. four valves, and the other end of the connecting tube turns
Dynamic docking is connected on the upper orifice of the flat rotation pipe of steam;It puts down in steam and is equipped with and the flat pipe of steam on the vertical tube wall of rotation pipe
The vertical holes 25 that tube chamber is connected on the aperture of each vertical holes docks and is fixedly connected with aperture from inside to outside from left past outwardly
Right-oblique reaction force mouth 27;It is equipped in the vertical inner wall of high-voltaghe compartment below reaction force mouth in horn-like opening court
The filter mantle 37 of lower arrangement is equipped with several filter hole 29 on filter mantle, and main cage apertures is equipped on the filter mantle above filter hole
28, circular cowling slot 33 is equipped on the filter mantle below filter hole, annular riffler 34, annular are equipped in the slot bottom of circular cowling slot
The upper width of rebate of riffler is less than the bottom surface width of annular riffler;The steam port 30 that goes out of particle reducing mechanism was arranged on
In the upright side walls of high-voltaghe compartment below filter bowl, and go out on steam port to be equipped with out steam valve 31 in particle reducing mechanism.Vapour
The inlet end of turbine is that docking is connected to out the going out on steam port of steam valve.
The groove bottom of circular cowling slot is equipped with sand discharge hole, and a docking of sand discharge pipe 36 is connected on sand discharge hole, in sand discharge pipe
It is equipped with sand discharge valve 35.
In leading case is implemented, the pipeline of supervisor and the pipe of side pipe are included close to one section of nearer steam conveying pipeline of boiler
Road, when the sundries in the perimetrical lumen formed to the pipeline of supervisor and the pipeline of side pipe is purged, as long as allowing dirt removal
Device loopy moving in perimetrical lumen can remove the sundries on perimetrical lumen inner wall.Dirt removal device will be removed in perimetrical lumen
The course of work of sundries on wall is:If starting No.1 valve is in opening state, if starting dirt removal device in side pipe
At section pipe, No. two valves are opened at this time, the steam of boiler is allowed to be entered from auxiliary tube in perimetrical lumen, ring is entered from auxiliary tube
In shape tube chamber steam be in side pipe from right toward moving left, in side pipe from it is right toward the steam moved left can promote dirt removal device from
Side pipe is moved to supervisor, and steam is to move from left to right in supervisor, and dirt removal device is also to move from left to right in supervisor,
When the rear end of dirt removal device is moved to the left end of supervisor, the front end of dirt removal device is then moved in the stage casing pipe of side pipe,
The front end of dirt removal device will be entirely moved in side pipe in the steam stream of the left flowings of stage casing Guan Zhongchao, and so Xun Huan is
Dirt removal device can be achieved to move in official jargon is cycled, it is dirty so as to fulfill removing of the dirt removal device to sundries in Xun Huan official jargon
Dirty remover remove after sundries with being discharged after steam flow steam turbine, due to can setting time often so to close to boiler compared with
One section of near steam conveying pipeline carries out eliminating impurities so that is not easy accumulation body close to one section of nearer steam conveying pipeline of boiler
The larger sundries of product, the sundries volume of discharge all can be smaller, and smaller sundries will not damage turbine blade, reliability
It is higher with security.Inclusion particles in steam with steam can be separated, reduce damage of the particle to turbine blade.This implementation
Example does not have to stopping steam conveying pipeline and the steam supply of steam turbine can be achieved with to close to one section of nearer steam conveying pipeline of boiler
Carry out eliminating impurities, safe, good reliability.
Embodiments of the present invention are described above in conjunction with attached drawing, however, the implementation is not limited to the above embodiments, this field
Those of ordinary skill can be with various changes and modifications may be made within the scope of the appended claims.
Claims (5)
1.660MW supercritical pressure turbine debugging apparatus, which is characterized in that the steam power transport system including steam turbine, steam
Powertrain system includes boiler, steam lead, is responsible for, goes out steam pipe, side pipe, scale removing tube and dirt removal device;The left side of supervisor
Nozzle includes the upper left nozzle and lower-left nozzle in forked arrangement, and the right nozzle of supervisor includes the upper right pipe in forked arrangement
Mouth and bottom right nozzle;The left end of side pipe obtains the left bending segment pipe of side pipe, the right end of side pipe after being bent downwardly toward the right side in arc-shaped
The right bending segment pipe of side pipe is obtained after being bent downwardly toward a left side in arc-shaped;One end docking of steam lead is connected to the lower-left of supervisor
On nozzle, the other end docking of steam lead is connected on a steam (vapor) outlet of boiler;Go out the left end docking connection of steam pipe
On the bottom right nozzle of supervisor, the bending segment pipe docking of side pipe is connected on the upper left nozzle of supervisor, the right bending segment pipe of side pipe
Docking is connected on the upper right nozzle of supervisor;So as to which the side pipe after connection be allowed to form a perimetrical lumen with supervisor;Dirt removal
Device is movably arranged in perimetrical lumen, and dirt removal device can be moved in perimetrical lumen annular;If side pipe is by left bending segment
Pipe, stage casing pipe and right bending segment pipe composition;Side steam inlet is equipped on the stage casing pipe of side pipe at right bending segment pipe, one auxiliary
Help pipe both ends dock be connected on the steam inlet of side and another steam (vapor) outlet of boiler on;And the steaming flowed out from auxiliary tube
Vapour can promote dirt removal device to be moved counterclockwise in perimetrical lumen;Going out the right end of steam pipe includes going out to steam in forked arrangement
Vapour upper orifice and go out steam lower nozzle, the lower end docking of scale removing tube is connected to out the going out on steam upper orifice of steam pipe;Into steaming
Steam pipe is equipped with No.1 valve, and No. two valves are equipped on auxiliary tube, and No. three valves are equipped on steam upper orifice is gone out, and is going out to steam
Vapour lower nozzle is equipped with No. four valves;It is connected in the steam port docking that goes out of No. four valves and can reduce of granule content in steam
Grain reducing mechanism.
2. 660MW supercritical pressure turbines debugging apparatus according to claim 1, which is characterized in that dirt removal device includes
The mobile cylinder of three sections, wherein one end universal rotational of the front and back end of the mobile cylinder of a section respectively with the mobile cylinder of other two sections connects
It connects, turning set is all distinguished on the periphery of the mobile cylinder of every section and is equipped with rotation pipe, is divided on the periphery wall of each rotation pipe
It is not fixed with several blades parallel to each other, and the angle of each blade and the tube core line of the rotation pipe at place uniformly
Less than 30 degree.
3. 660MW supercritical pressure turbines debugging apparatus according to claim 2, which is characterized in that in the mobile cylinder of every section
Periphery on be all uniformly fixed with several anti-rotation movable plates respectively, each anti-rotation movable plate and the die of the rotation pipe at place
Line is parallel.
4. 660MW supercritical pressure turbines debugging apparatus according to claim 1, which is characterized in that particle reducing mechanism bag
High-voltaghe compartment is included, stent is equipped in high-voltaghe compartment, is equipped with the flat rotation pipe of steam, one end docking of a connecting tube vertically on stent
Going out on steam port for No. four valves is connected to, the other end of the connecting tube rotates the upper orifice that docking is connected to the flat rotation pipe of steam
On;The vertical holes for being equipped on the vertical tube wall of rotation pipe and being connected with the tube chamber of the flat pipe of steam is equalled in steam, in each vertical holes
Aperture on docking outwardly be fixedly connected with aperture inclined reaction force mouth from left to right from inside to outside;Under reaction force mouth
The vertical inner wall of the high-voltaghe compartment of side is equipped with the filter mantle in horn-like opening down arrangement, and several mistakes are equipped on filter mantle
Filter opening is equipped with main cage apertures on the filter mantle above filter hole, circular cowling slot is equipped on the filter mantle below filter hole, in ring
The slot bottom of shape cover slot is equipped with annular riffler, and the upper width of rebate of annular riffler is less than the bottom surface width of annular riffler;
Particle reducing mechanism goes out in the upright side walls for the high-voltaghe compartment that steam port is arranged below filter mantle, and in particle reducing mechanism
Go out steam port and be equipped with out steam valve.
5. 660MW supercritical pressure turbines debugging apparatus according to claim 4, which is characterized in that the slot bottom of circular cowling slot
Face is equipped with sand discharge hole, and a sand discharge pipe docking is connected on sand discharge hole, and sand discharge valve is equipped on sand discharge pipe.
Priority Applications (1)
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CN201711169788.9A CN108097674B (en) | 2017-11-21 | 2017-11-21 | 660MW supercritical steam turbine debugging device |
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CN201711169788.9A CN108097674B (en) | 2017-11-21 | 2017-11-21 | 660MW supercritical steam turbine debugging device |
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CN108097674A true CN108097674A (en) | 2018-06-01 |
CN108097674B CN108097674B (en) | 2020-06-05 |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107806787A (en) * | 2017-11-21 | 2018-03-16 | 中国能源建设集团华东电力试验研究院有限公司 | 660MW supercritical units are without boiler water circulating pump boiler tube system |
CN109824231A (en) * | 2018-12-31 | 2019-05-31 | 中国能源建设集团华东电力试验研究院有限公司 | Coagulation-flocculation clarifier sludge floating Processing for removing device and control method |
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CN204338536U (en) * | 2014-11-14 | 2015-05-20 | 西南石油大学 | A kind of novel impact oscillating jet wiper |
CN205002670U (en) * | 2015-08-06 | 2016-01-27 | 杭州华电双良节能技术有限公司 | Portable rubber ball cleaning unit suitable for absorption heat pump of power plant |
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JP2002239489A (en) * | 2001-02-15 | 2002-08-27 | Soken Chem & Eng Co Ltd | Automatic selective supply system for a plurality of fluids and selective supply method |
CA2748987C (en) * | 2009-03-31 | 2016-05-24 | Hydroball Technics Holdings Pte Ltd | Cleaning system for cleaning tubing |
CN202470879U (en) * | 2012-03-12 | 2012-10-03 | 北京建筑工程学院 | Decontamination device of wastewater heat exchanger |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN107806787A (en) * | 2017-11-21 | 2018-03-16 | 中国能源建设集团华东电力试验研究院有限公司 | 660MW supercritical units are without boiler water circulating pump boiler tube system |
CN107806787B (en) * | 2017-11-21 | 2019-08-06 | 中国能源建设集团华东电力试验研究院有限公司 | 660MW supercritical unit is without boiler water circulating pump boiler tube system |
CN109824231A (en) * | 2018-12-31 | 2019-05-31 | 中国能源建设集团华东电力试验研究院有限公司 | Coagulation-flocculation clarifier sludge floating Processing for removing device and control method |
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