CN206942819U - A kind of piping-main scheme reheat system and burning electricity generation system - Google Patents
A kind of piping-main scheme reheat system and burning electricity generation system Download PDFInfo
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- CN206942819U CN206942819U CN201720847145.4U CN201720847145U CN206942819U CN 206942819 U CN206942819 U CN 206942819U CN 201720847145 U CN201720847145 U CN 201720847145U CN 206942819 U CN206942819 U CN 206942819U
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Abstract
The utility model provides a kind of piping-main scheme reheat system and burning electricity generation system, including:At least two burning boilers, it is configured to carry out burning disposal to house refuse and produces steam;Superheater, it is configured to be heated saturated vapor caused by the burning boiler, to produce the first superheated steam, wherein, at least one superheater is set in each burning boiler;Steam turbine high-pressure cylinder, it is configured to drive electrical power generators in the case where first superheated steam acts on;First steam main, it is configured to receive first superheated steam caused by each superheater and first superheated steam is conveyed into the steam turbine high-pressure cylinder.The utility model significantly improves garbage incinerating power plant thermal efficiency of cycle, and then adds the economic benefit of garbage incinerating power plant.
Description
Technical field
Waste incineration and generating electricity technology is the utility model is related to, in particular to a kind of piping-main scheme reheat system and burning
Electricity generation system.
Background technology
The major ways of the most processing domestic wastes in China are landfills at present, and landfill method be rubbish is inserted it is pre-
It is compacted on the hole middle cover got ready, brings it about biology, physics, chemical change, decomposing organic matter, reaches minimizing and innoxious
Purpose.But the processing mode of landfill is easiest to cause the secondary pollution of groundwater resources, and great threat is caused to environment.
China is waste resources big country in the world.If rubbish can be substantially effectively used for burning electricity generation by China, will save every year
10,000,000 tons of coal 5-6, its " economy of resources " are extremely considerable.
The general principle of waste incineration and generating electricity is that rubbish is carried out high temperature incineration, and caused heat energy is converted into superheated vapor,
Pushing turbine rotates, and generator is produced electric energy.Large-scale high parameter, resuperheat unit generally use " unit style ", one
The stove of machine one.The power cycle used for:Feedwater enters boiler heating and produces superheated steam, and superheated steam enters turbine high-pressure
Cylinder, high pressure cylinder steam discharge enter boiler reheater, and the superheated steam after reheating continues to do work into turbine low pressure cylinder, low pressure (LP) cylinder row
Vapour is condensed into water into condenser, and boiler heat absorption is entered after oxygen-eliminating device deoxygenation and produces superheated steam.
For the steam parameter that burning power plant generally uses at present for 4MPa/400 DEG C, thermal efficiency of cycle is low, causes a large amount of
Available waste heat is not efficiently used, simultaneously because the garbage treatment quantity of separate unit incinerator is small, causes boiler thermal capacity small,
One stove improves the amplitude very little of the power plant cycle thermal efficiency using resuperheat to a machine.
Therefore, presence in view of the above problems, the utility model proposes a kind of new piping-main scheme reheat system and burning
Electricity generation system.
Utility model content
In order to solve the above-mentioned technical problem, on the one hand the utility model provides a kind of piping-main scheme reheat system, including:
At least two burning boilers, it is configured to carry out burning disposal to house refuse and produces steam;
Superheater, it is configured to be heated saturated vapor caused by the burning boiler, to produce the first superheated steam,
Wherein, at least one superheater is set in each burning boiler;
Steam turbine high-pressure cylinder, it is configured to drive electrical power generators in the case where first superheated steam acts on;
First steam main, it is configured to receive first superheated steam caused by each superheater and by described the
One superheated steam is conveyed into the steam turbine high-pressure cylinder.
Exemplarily, the steam (vapor) outlet of each superheater is connected to first steam main by sub- steam pipe respectively
One end, the other end of first steam main is connected to the steam inlet of the steam turbine high-pressure cylinder.
Exemplarily, in addition to:
Reheater, it is configured to receive and heats the steam from steam turbine high-pressure cylinder discharge, is steamed with producing the second overheat
Vapour, wherein, at least one reheater is set in each burning boiler;
Turbine low pressure cylinder, it is configured to drive electrical power generators in the case where second superheated steam acts on;
Second steam main, it is configured to receive second superheated steam and second superheated steam is conveyed into institute
State turbine low pressure cylinder.
Exemplarily, the steam (vapor) outlet of each reheater is connected to second steam main by sub- steam pipe respectively
One end, the other end of second steam main is connected to the steam inlet of the turbine low pressure cylinder.
Exemplarily, in addition to:
Condenser, be configured to receive and condense from the turbine low pressure cylinder discharge steam so that steam change into
Water.
Exemplarily, in addition to:
High pressure turbine by, the high pressure turbine by be arranged on the superheater in the same burning boiler steam (vapor) outlet and
Between the steam inlet of the reheater, the superheater and the reheater fluid that the high pressure turbine by is connected with it connect
It is logical.
Exemplarily, the high pressure turbine by includes high side valve and some sub- steam pipes.
Exemplarily, in addition to:
Low voltage bypass, it is arranged between the steam (vapor) outlet of each reheater and the steam inlet of the condenser, institute
State the reheater that low voltage bypass is connected with it and the condenser fluid connects.
Exemplarily, the low voltage bypass includes low side valve and some sub- steam pipes.
The utility model another further aspect provides a kind of burning electricity generation system, and it includes foregoing piping-main scheme reheat system.
Piping-main scheme reheat system of the present utility model includes at least two burning boilers, is set in each burning boiler
At least one superheater is put, first superheated steam caused by each superheater is passed by same first steam main
The steam turbine high-pressure cylinder is fed into, solves the problems, such as that burning power plant thermal capacity is small, hence it is evident that improves waste incineration hair
The power plant cycle thermal efficiency, and then add the economic benefit of garbage incinerating power plant.
Brief description of the drawings
The utility model embodiment is described in more detail in conjunction with the accompanying drawings, it is of the present utility model above-mentioned and its
Its purpose, feature and advantage will be apparent.Accompanying drawing is used for providing further understanding the utility model embodiment, and
And a part for constitution instruction, it is used to explain the utility model together with the utility model embodiment, does not form to this reality
With new limitation.In the accompanying drawings, identical reference number typically represents same parts or step.
In accompanying drawing:
Fig. 1 shows the schematic diagram of the piping-main scheme reheat system in an embodiment of the present utility model.
Embodiment
In the following description, a large amount of concrete details are given more thoroughly to manage the utility model to provide
Solution.It is, however, obvious to a person skilled in the art that the utility model can be without one or more of these thin
Save and be carried out.In other examples, in order to avoid obscuring with the utility model, for more well known in the art
Technical characteristic is not described.
It should be appreciated that the utility model can be implemented in different forms, and should not be construed as being limited to carry here
The embodiment gone out.On the contrary, providing these embodiments disclosure will be made thoroughly and complete and the scope of the utility model is complete
Ground passes to those skilled in the art.
The purpose of term as used herein is only that description specific embodiment and not as limitation of the present utility model.
This is in use, " one " of singulative, "one" and " described/should " be also intended to include plural form, unless context understands finger
Go out other mode.It is also to be understood that term " composition " and/or " comprising ", when in this specification in use, determine the feature,
Integer, step, operation, the presence of element and/or part, but it is not excluded for one or more other features, integer, step, behaviour
The presence or addition of work, element, part and/or group.Herein in use, term "and/or" includes any of related Listed Items
And all combinations.
In order to thoroughly understand the utility model, detailed description will be given below, to explain skill of the present utility model
Art scheme.Preferred embodiment of the present utility model is described in detail as follows, but in addition to these detailed descriptions, the utility model is also
There can be other embodiment.
In order to solve the problems, such as that burning power plant thermal capacity is small, thermal efficiency of cycle is low, the utility model provides a kind of female
Control reheat system, it mainly includes:
At least two burning boilers, it is configured to carry out burning disposal to house refuse and produces steam;
Superheater, it is configured to be heated saturated vapor caused by the burning boiler, to produce the first superheated steam,
Wherein, at least one superheater is set in each burning boiler;
Steam turbine high-pressure cylinder, it is configured to drive electrical power generators in the case where first superheated steam acts on;
First steam main, it is configured to receive first superheated steam caused by each superheater and by described the
One superheated steam is conveyed into the steam turbine high-pressure cylinder.
Piping-main scheme reheat system of the present utility model includes at least two burning boilers, is set in each burning boiler
At least one superheater is put, first superheated steam caused by each superheater is passed by same first steam main
The steam turbine high-pressure cylinder is fed into, solves the problems, such as that burning power plant thermal capacity is small, hence it is evident that improves waste incineration hair
The power plant cycle thermal efficiency, and then add the economic benefit of garbage incinerating power plant.
Embodiment one
Below, piping-main scheme reheat system of the present utility model is elaborated with reference to figure 1, wherein, Fig. 1 shows this reality
With the schematic diagram of the piping-main scheme reheat system in a new embodiment.
As an example, piping-main scheme reheat system of the present utility model includes at least two burning boilers, the burning boiler
It is configured to carry out burning disposal to house refuse and produces steam.
In one example, as shown in figure 1, piping-main scheme reheat system includes two burning boilers, such as burning boiler is (right
Answer the 1# stoves in Fig. 1) 1 and burning boiler (the 2# stoves in corresponding diagram 1) 2.
Exemplarily, each burning boiler includes admission port, such as feedwater 10 can be made to respectively enter each burn
Burning boiler, such as burning boiler 1 and burning boiler 2 are respectively enterd, two burning boilers keep abreast of operation.Exemplarily, may be used
So that feedwater 10 is respectively fed into each burning boiler by feed pump (not shown).
Exemplarily, burning boiler is used to carry out high temperature incineration to house refuse, produces the flue gas for carrying heat, utilizes this
The heat feedwater of flue gas, to produce saturated vapor.
Exemplarily, in addition to superheater 3, at least one superheater 3, example are set in each burning boiler
Such as, a superheater 3 is set in each burning boiler, as shown in figure 1, setting an institute in burning boiler 1
Superheater 3 is stated, a superheater 3 is set in burning boiler 2.
Wherein, the superheater 3 is configured to be heated saturated vapor caused by the burning boiler, to produce first
Superheated steam.Superheater 3 can use various suitable structures, such as can use coiled, screen formula, wall and Bao Qiang
Formula, and saturated vapor is heated by convection current, radiation or half radiation mode to produce the first superheated steam.
In one example, in addition to steam turbine high-pressure cylinder 5, steam turbine high-pressure cylinder 5 are configured to steam in the described first overheat
The lower driving electrical power generators of vapour effect.That is, in steam turbine high-pressure cylinder 5, will be received first from steam turbine high-pressure cylinder first
The heat energy of superheated steam is converted into mechanical energy, then again by the way that mechanical energy is converted into electric energy, so as to generate electricity.Due to superheater 3
In caused superheated steam belong to high temperature and high pressure steam, therefore it is initially entered in steam turbine high-pressure cylinder 5, and driving steam turbine is high
Cylinder pressure 5 works.
Exemplarily, as shown in figure 1, also including the first steam main, wherein, first steam main is configured to receive
First superheated steam is simultaneously conveyed into the steam turbine height by first superheated steam caused by each superheater 3
Cylinder pressure 5.For example, the steam (vapor) outlet of each superheater 3 is connected to the one of first steam main by sub- steam pipe respectively
End, the other end of first steam main are connected to the steam inlet of the steam turbine high-pressure cylinder 5.For example, it is arranged on burning
The steam (vapor) outlet of superheater 3 in boiler 1 and the steam (vapor) outlet of superheater being arranged in burning boiler 2 are connected to same root the
One end of one steam main, first steam main can be connected by any suitable connection method, such as by some
Individual steam pipe and some valves are snap-fit attachment to one end of the steam main of same root first, and the other end of the first steam main connects
It is connected to the steam inlet of steam turbine high-pressure cylinder 5, and then causes caused by the superheater 3 in the burning boiler of two paired runnings the
One superheated steam, which is sent on same root steam main, enters steam turbine high-pressure cylinder 5, and then driving steam turbine high pressure cylinder 5 works.
In one example, in addition to reheater 4, at least one reheater is set in each burning boiler
4, such as a reheater 4 is set in each burning boiler, for example, setting a reheater 4 in burning boiler 1, burning
One reheater 4 is set in burning boiler 2.
Wherein, the reheater 4 is configured to receive and heats the steam from the steam turbine high-pressure cylinder 5 discharge, to produce
Second superheated steam.Similar with superheater 3, reheater 4 can use various suitable structures, such as can use coiled pipe
Formula, screen formula, wall and bag wall, and by convection current, radiation or half radiation mode to the steam from steam turbine high-pressure cylinder 5 from discharge
Heated to raise vapor (steam) temperature, and produce superheated steam.
In one example, in addition to turbine low pressure cylinder 6, the turbine low pressure cylinder 6 are configured in second mistake
The lower driving electrical power generators of vapours effect.Turbine low pressure cylinder 6 is configured in the second overheat Jing Guo the reheating of reheater 4
Rotated under vapor action, so as to drive electrical power generators.That is, in turbine low pressure cylinder 6, reheating will be passed through first and produced
The heat energy of the second superheated steam be converted into mechanical energy, then again by the way that mechanical energy is converted into electric energy, so as to generate electricity.
In one example, in addition to the second steam main, the second steam main are configured to receive the second overheat steaming
Second superheated steam is simultaneously conveyed into the turbine low pressure cylinder 6 by vapour, for example, the steam of each reheater 4 goes out
Mouth is connected to one end of second steam main by sub- steam pipe respectively, and the other end of second steam main is connected to institute
State the steam inlet of turbine low pressure cylinder 6.For example, the steam (vapor) outlet for the reheater 4 being arranged in burning boiler 1 and being arranged on burns
The steam (vapor) outlet of reheater 4 in burning boiler 2 is connected to one end of the steam main of same root second, can be by any suitable
Connection method connects second steam main, such as is snap-fit attachment to same root by several steam pipe and some valves
One end of second steam main, the other end of second steam main are connected to the steam inlet of the turbine low pressure cylinder 6,
And then cause two paired runnings burning boiler in reheater 4 caused by the second superheated steam be sent to same root steam main
It is upper to enter turbine low pressure cylinder 6, and then driving steam turbine low pressure (LP) cylinder 6 works.
Due to making at least two burning boilers paired running simultaneously, and the first mistake as caused by the superheater in burning boiler
Vapours enters steam turbine high-pressure cylinder by same root steam main, and the second overheat as caused by the reheater in burning boiler
Steam enters turbine low pressure cylinder by same root steam main, and therefore, thermal capacity is bigger, and significantly improves reheat system
Thermal efficiency of cycle.
In one example, in addition to condenser 9, condenser 9 are configured to receive and condensed from the turbine low pressure cylinder
The steam of discharge, so that steam changes into feedwater, condenser 9 is used to condense the steam discharged from turbine low pressure cylinder 6, so as to steam
Vapour condensation changes into feedwater.Condenser 9 can be with various suitable heat exchangers, and exemplarily, in the present embodiment, condenser 9 is sharp
With cooling water condensation steam, i.e., after the steam discharged from turbine low pressure cylinder 6 enters condenser 9, exchanged heat with cooling water, with
Temperature is reduced, realizes condensation, the feedwater being condensed into is returned to burning boiler and circulated again.Exemplarily, in addition to remove
Oxygen device (not shown), the oxygen-eliminating device are used to carry out deoxygenation to the water of condensed device condensation, and burning boiler is being sent back to after deoxygenation.
In one example, in addition to high pressure turbine by (in corresponding diagram 1 height other), the high pressure turbine by is arranged on same institute
State between the steam (vapor) outlet of the superheater in burning boiler and the steam inlet of the reheater, the high pressure turbine by and its
The superheater connected and the reheater are in fluid communication, for example, as shown in figure 1, a high pressure turbine by 7 is arranged on burning pot
Between the steam (vapor) outlet of the superheater 3 of stove 1 and the steam inlet of reheater 4, another high pressure turbine by 7 is arranged on burning boiler 2
Between the steam (vapor) outlet of superheater 3 and the steam inlet of reheater 4, the setting of high pressure turbine by 7 can prevent reheater 4 from occurring to do
Burn, steam turbine high-pressure cylinder 5 is partly into from superheated steam caused by superheater 3, another part enters high pressure turbine by 7, enters
The steam of high pressure turbine by 7 can be drawn out to reheater 4 together with the steam discharged from steam turbine high-pressure cylinder 5, to superheated steam
Main transport pipeline plays depressurization.
Wherein, the high pressure turbine by 7 can make any suitable high pressure turbine by well known to those skilled in the art, such as should
High pressure turbine by can include high side valve and some sub- steam pipes.
In one example, in addition to low voltage bypass 8, it is arranged on the steam (vapor) outlet of each reheater 4 and described cold
Between the steam inlet of condenser 9, the reheater 4 and the fluid of the condenser 9 that the low voltage bypass 8 is connected with it connect
It is logical.For example, as shown in figure 1, a low voltage bypass 8 is arranged on the steam (vapor) outlet and the condenser 9 of the reheater 4 of burning boiler 1
Steam inlet between, another low voltage bypass 8 is arranged on the steam (vapor) outlet and the condenser 9 of the reheater 4 of burning boiler 2
Between steam inlet, turbine low pressure cylinder 6 is partly into from superheated steam caused by reheater 4, is partly into low
Pressure bypass 8, then condenser 9 is entered by low voltage bypass 8, it can play to the jet chimney between reheater and steamer low pressure (LP) cylinder
Pressure release acts on.
Wherein, wherein, the low voltage bypass 8 can make any suitable high pressure turbine by well known to those skilled in the art,
Such as the low voltage bypass can include low side valve and some sub- steam pipes.
Therefore, in order that with start, the needs of varying duty, add high pressure turbine by and low voltage bypass, high pressure turbine by and low
The setting of pressure bypass can ensure the safe and reliable operation of unit.
So far, the introduction of the primary structure to piping-main scheme reheat system of the present utility model is completed, for complete female
Control reheat system can also include other component units and module etc., do not do repeat one by one herein.
In summary, piping-main scheme reheat system of the present utility model is using the corresponding steam turbine of at least two burning boilers
High pressure cylinder and turbine low pressure cylinder, and coordinate piping-main scheme resuperheat, hence it is evident that the power plant cycle thermal efficiency is improved, and then increases electricity
Factory's economic benefit.
Embodiment two
The utility model also provides a kind of burning electricity generation system of the piping-main scheme reheat system including in previous embodiment one.
Exemplarily, the burning electricity generation system includes:
At least two burning boilers, it is configured to carry out burning disposal to house refuse and produces steam;
Superheater, it is configured to be heated saturated vapor caused by the burning boiler, to produce the first superheated steam,
Wherein, at least one superheater is set in each burning boiler;
Steam turbine high-pressure cylinder, it is configured to drive electrical power generators in the case where first superheated steam acts on;
First steam main, it is configured to receive first superheated steam caused by each superheater and by described the
One superheated steam is conveyed into the steam turbine high-pressure cylinder.
Due to the burning electricity generation system include previous embodiment one in piping-main scheme reheat system, therefore also have with it is foregoing
The advantages of embodiment one is identical.
The utility model is illustrated by above-described embodiment, but it is to be understood that, above-described embodiment is
For the purpose illustrated and illustrated, and it is not intended to the utility model being limited in described scope of embodiments.This area skill
Art personnel will also be appreciated that the utility model is not limited to above-described embodiment, may be used also according to teaching of the present utility model
To make more kinds of variants and modifications, these variants and modifications are all fallen within the utility model scope claimed.
The scope of protection of the utility model is defined by the appended claims and its equivalent scope.
Claims (10)
- A kind of 1. piping-main scheme reheat system, it is characterised in that including:At least two burning boilers, it is configured to carry out burning disposal to house refuse and produces steam;Superheater, it is configured to be heated saturated vapor caused by the burning boiler, to produce the first superheated steam, its In, at least one superheater is set in each burning boiler;Steam turbine high-pressure cylinder, it is configured to drive electrical power generators in the case where first superheated steam acts on;First steam main, it is configured to receive first superheated steam caused by each superheater and by first mistake Vapours is conveyed into the steam turbine high-pressure cylinder.
- 2. the system as claimed in claim 1, it is characterised in that the steam (vapor) outlet of each superheater is respectively by sub- steam pipe One end of first steam main is connected to, the other end of first steam main is connected to the steam turbine high-pressure cylinder Steam inlet.
- 3. the system as claimed in claim 1, it is characterised in that also include:Reheater, it is configured to receive and heats the steam from steam turbine high-pressure cylinder discharge, to produce the second superheated steam, its In, at least one reheater is set in each burning boiler;Turbine low pressure cylinder, it is configured to drive electrical power generators in the case where second superheated steam acts on;Second steam main, it is configured to receive second superheated steam and second superheated steam is conveyed into the vapour Turbine low pressure (LP) cylinder.
- 4. system as claimed in claim 3, it is characterised in that the steam (vapor) outlet of each reheater is respectively by sub- steam pipe One end of second steam main is connected to, the other end of second steam main is connected to the turbine low pressure cylinder Steam inlet.
- 5. system as claimed in claim 3, it is characterised in that also include:Condenser, it is configured to receive and condenses the steam from turbine low pressure cylinder discharge, so that steam changes into feedwater.
- 6. system as claimed in claim 3, it is characterised in that also include:High pressure turbine by, the high pressure turbine by are arranged on the steam (vapor) outlet of the superheater in the same burning boiler and described Between the steam inlet of reheater, the superheater and reheater fluid communication that the high pressure turbine by is connected with it.
- 7. system as claimed in claim 6, it is characterised in that the high pressure turbine by includes high side valve and some sub- steam Pipe.
- 8. system as claimed in claim 5, it is characterised in that also include:Low voltage bypass, it is arranged between the steam (vapor) outlet of each reheater and the steam inlet of the condenser, it is described low Pressure bypasses the reheater being connected with it and the condenser fluid connects.
- 9. system as claimed in claim 8, it is characterised in that the low voltage bypass includes low side valve and some sub- steam Pipe.
- 10. a kind of burning electricity generation system, it is characterised in that including the piping-main scheme reheating system as described in one of claim 1 to 9 System.
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Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109296411A (en) * | 2018-07-31 | 2019-02-01 | 常州市新港热电有限公司 | A kind of boiler turbine generator device and electricity-generating method |
CN109958486A (en) * | 2019-03-18 | 2019-07-02 | 上海环境工程设计研究院有限公司 | High-efficiency refuse power generation by waste combustion system |
CN113175368A (en) * | 2021-04-25 | 2021-07-27 | 西安热工研究院有限公司 | Boiler steam turbine interconnection system based on main pipe system transformation and operation method |
CN113494321A (en) * | 2021-04-25 | 2021-10-12 | 西安热工研究院有限公司 | High-pressure cylinder zero-output-force-based bus pipe connection system and operation method |
CN113790088A (en) * | 2021-04-02 | 2021-12-14 | 南京凯盛开能环保能源有限公司 | Industrial waste heat recovery efficient power generation method and system |
CN114526474A (en) * | 2022-02-14 | 2022-05-24 | 东方菱日锅炉有限公司 | Dry burning prevention steam cooling system for reheater and dry burning prevention method thereof |
CN114562344A (en) * | 2022-03-07 | 2022-05-31 | 光大环保(中国)有限公司 | Multi-furnace multi-machine main pipe reheating power generation system and method suitable for garbage power generation industry |
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2017
- 2017-07-12 CN CN201720847145.4U patent/CN206942819U/en active Active
Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109296411A (en) * | 2018-07-31 | 2019-02-01 | 常州市新港热电有限公司 | A kind of boiler turbine generator device and electricity-generating method |
CN109958486A (en) * | 2019-03-18 | 2019-07-02 | 上海环境工程设计研究院有限公司 | High-efficiency refuse power generation by waste combustion system |
CN113790088A (en) * | 2021-04-02 | 2021-12-14 | 南京凯盛开能环保能源有限公司 | Industrial waste heat recovery efficient power generation method and system |
CN113175368A (en) * | 2021-04-25 | 2021-07-27 | 西安热工研究院有限公司 | Boiler steam turbine interconnection system based on main pipe system transformation and operation method |
CN113494321A (en) * | 2021-04-25 | 2021-10-12 | 西安热工研究院有限公司 | High-pressure cylinder zero-output-force-based bus pipe connection system and operation method |
CN113494321B (en) * | 2021-04-25 | 2022-08-16 | 西安热工研究院有限公司 | High-pressure cylinder zero-output-force-based bus pipe connection system and operation method |
CN114526474A (en) * | 2022-02-14 | 2022-05-24 | 东方菱日锅炉有限公司 | Dry burning prevention steam cooling system for reheater and dry burning prevention method thereof |
CN114562344A (en) * | 2022-03-07 | 2022-05-31 | 光大环保(中国)有限公司 | Multi-furnace multi-machine main pipe reheating power generation system and method suitable for garbage power generation industry |
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