CN208124294U - A kind of power generation by waste combustion system - Google Patents
A kind of power generation by waste combustion system Download PDFInfo
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- CN208124294U CN208124294U CN201820520544.4U CN201820520544U CN208124294U CN 208124294 U CN208124294 U CN 208124294U CN 201820520544 U CN201820520544 U CN 201820520544U CN 208124294 U CN208124294 U CN 208124294U
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Abstract
The utility model provides a kind of power generation by waste combustion system, the system comprises:Waste heat boiler, heat of the waste heat boiler to recycle the flue gas generated after incinerator is burnt away the refuse are provided with boiler feedwater in the waste heat boiler;Superheater, the superheater boiler feedwater and generate superheated steam to heat;Steam turbine high-pressure cylinder, the steam turbine high-pressure cylinder is generated electricity using the superheated steam driven generator, and exports low-pressure steam, and the steam turbine high-pressure cylinder includes the second output channel of the first output channel of low-pressure steam and low-pressure steam;Turbine low pressure cylinder, the turbine low pressure cylinder connects first output channel of low-pressure steam to drive the electrical power generators using the low-pressure steam, and generates steam exhaust;And absorption heat pump, the absorption heat pump connects second output channel of low-pressure steam to using the low-pressure steam as driving heat source, and generates available heat sources.According to the utility model, the stable operation of turbine low pressure cylinder ensure that.
Description
Technical field
The utility model relates to incineration treatment of garbage fields, in particular to a kind of power generation by waste combustion system.
Background technique
It is current to Domestic Waste Minimization, innoxious, recycling processing with being continuously increased for application of city life garbage
The key subjects for needing to solve.The waste incineration and generating electricity technology technology energy-efficient as one kind of garbage disposal is by extensive
Concern.
During typical waste incineration and generating electricity, the general excess steam for being generated power generation using low-pressure heater is carried out
The extraction cycle technique of boiler feedwater, cause largely can waste heat be not utilized.And it is general in waste incineration and generating electricity
By the way of directly extracting steam, capacity usage ratio is low.Meanwhile during this extracted steam from turbine, steam extraction amount is often excessive,
It causes steam turbine unstable, and influences the operation of steam turbine.These problems seriously constrain the power generation effect of waste incineration and generating electricity
Rate, and then affect the economic benefit of garbage incinerating power plant.
For this reason, it is necessary to a kind of new waste incineration and generating electricity system be proposed, to solve the problems of the prior art.
Utility model content
A series of concept of reduced forms is introduced in utility model content part, this will be in specific embodiment part
Middle further description.The utility model content part of the utility model is not meant to attempt to limit claimed
Technical solution key feature and essential features, do not mean that the guarantor for attempting to determine technical solution claimed more
Protect range.
The utility model provides a kind of power generation by waste combustion system, including:
Waste heat boiler, heat of the waste heat boiler to recycle the flue gas generated after incinerator is burnt away the refuse are described remaining
Boiler feedwater is provided in heat boiler;
Superheater, the superheater boiler feedwater and generate superheated steam to heat;
Steam turbine high-pressure cylinder, the steam turbine high-pressure cylinder is generated electricity using the superheated steam driven generator, and is exported low
Steam is pressed, the steam turbine high-pressure cylinder includes the second output channel of the first output channel of low-pressure steam and low-pressure steam;
Turbine low pressure cylinder, the turbine low pressure cylinder connect first output channel of low-pressure steam to described in utilizing
Low-pressure steam drives the electrical power generators, and generates steam exhaust;And
Absorption heat pump, the absorption heat pump connect second output channel of low-pressure steam to utilize the low pressure
Steam generates available heat sources as driving heat source.
Illustratively, the power generation by waste combustion system further includes the butterfly being arranged on second output channel of low-pressure steam
Valve.
Illustratively, the power generation by waste combustion system further includes air condenser, the air condenser include gas input,
Condensed water output end, cold source input terminal and cold source output end;
The gas input is connect with the turbine low pressure cylinder, the steam exhaust being discharged by the turbine low pressure cylinder
The air condenser is inputted by gas input, and exchanges heat to form condensed water with cold source in the air condenser, institute
It states condensed water to be exported by the condensed water output end, the cold source is converted into heat exchange cold source.
Illustratively, the power generation by waste combustion system further includes cooling tower, described used for cooling tower to provide the air condensing
The cold source of device.
Illustratively, the cold source output end includes the first cold source output channel, the first cold source output channel connection
To the low-temperature heat source input terminal of the absorption heat pump, the Low Temperature Thermal of the heat exchange cold source as the absorption heat pump
Source, and be converted into heat absorption cold source in the absorption heat pump and exported from the low-temperature heat source output end of the absorption heat pump.
Illustratively, the cooling tower is connected with the low-temperature heat source output end of the absorption heat pump, the heat absorption
Cold source is cooled into the cold source in the cooling tower and supplies to the air condenser.
Illustratively, the cold source output end includes the second cold source output channel, the second cold source output channel connection
To the cooling tower, the heat exchange cold source is cooled into the cold source in the cooling tower.
Illustratively, the condensed water output end includes the second distribution duct of the first distribution duct of condensed water and condensed water;
First distribution duct of condensed water connects low-pressure heater, and the low-pressure heater heats simultaneously the condensed water
The condensed water after heating is passed through into boiler feedwater circuit cycle to the waste heat boiler to supplement the boiler feedwater;
Second distribution duct of condensed water is connected to the absorption heat pump, and the condensed water is as the absorption type heat
The available heat sources of pump input, and the available heat sources are converted into the absorption heat pump.
Illustratively, the absorption heat pump includes the second efferent duct of the first output channel of available heat sources and available heat sources
Road;
The available heat sources are delivered to resident by first output channel of available heat sources, as heating water;
Second output channel of available heat sources is by the available heat sources by the boiler feedwater circuit cycle to described
Waste heat boiler is to supplement the boiler feedwater.
Illustratively, the boiler feedwater circuit includes being sequentially connected oxygen-eliminating device, feed pump and high-pressure heater, described to remove
Oxygen device is connected with the low-pressure heater and the second output channel of the available heat sources, and the high-pressure heater connects the waste heat
Boiler.
Power generation by waste combustion system according to the present utility model is adopted while using the power generation of steam turbine high-pressure cylinder driven generator
It is utilized with turbine low pressure cylinder and is generated electricity by the low-pressure steam driven generator that steam turbine high-pressure cylinder is discharged, on the one hand improve power generation
Efficiency, on the other hand, using using the part of waste heat in heat pump recycling low-pressure steam, playing to being exported by steam turbine high-pressure cylinder
The effect that low-pressure steam is divided ensure that the stable operation of turbine low pressure cylinder.Meanwhile benefit is recycled using absorption heat pump
With waste heat, guarantee that while flexibly control sucking rate on the one hand abundant recovery waste heat is improved to generate the heat source that can be utilized
Utilization rate of waste heat, on the other hand make to generate has flexible application using heat source, improves economic benefit on the whole.
Detailed description of the invention
The following drawings of the utility model is used to understand the utility model in this as a part of the utility model.Attached drawing
In show the embodiments of the present invention and its description, for explaining the principles of the present invention.
In attached drawing:
Fig. 1 is the structural schematic diagram according to a kind of power generation by waste combustion system of one embodiment of the utility model.
Specific embodiment
In the following description, a large amount of concrete details are given more thoroughly to manage in order to provide to the utility model
Solution.It is, however, obvious to a person skilled in the art that the utility model may not need it is one or more of these thin
It saves and is 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.
In order to thoroughly understand the utility model, detailed description will be proposed in following description, to illustrate that this is practical new
Waste incineration and generating electricity system described in type.Obviously, the execution of the utility model is not limited to the technology people in incineration treatment of garbage field
The specific details that member is familiar with.The preferred embodiment of the utility model is described in detail as follows, however other than these detailed descriptions,
The utility model can also have other embodiments.
It should give it is noted that term used herein above is merely to describe specific embodiment, and be not intended to restricted root
According to the exemplary embodiment of the utility model.As used herein, unless the context clearly indicates otherwise, otherwise singular shape
Formula is also intended to include plural form.Additionally, it should be understood that when using term "comprising" and/or " packet in the present specification
Include " when, indicate that there are the feature, entirety, step, operation, element and/or component, but do not preclude the presence or addition of one
Or other multiple features, entirety, step, operation, element, component and/or their combination.
Now, exemplary embodiment according to the present utility model is more fully described with reference to the accompanying drawings.However, these examples
Property embodiment can be implemented with many different forms, and should not be construed to be limited solely to the embodiments set forth herein.
It should be understood that these embodiments are provided so that the utility model disclosure it is thoroughly and complete, and these are shown
The design of example property embodiment is fully conveyed to those of ordinary skill in the art.In the accompanying drawings, for the sake of clarity, exaggerate layer and
The thickness in region, and make that identical element is presented with like reference characters, thus description of them will be omitted.
Currently, during typical waste incineration and generating electricity, the general backheat that boiler feedwater is carried out using low-pressure heater
Circulation technology, cause largely can waste heat be not utilized.And it is generally steamed using directly extraction in waste incineration and generating electricity
The mode of vapour, capacity usage ratio are low.Meanwhile during this extracted steam from turbine, steam extraction amount is often excessive, causes steam turbine unstable
It is fixed, and influence the operation of steam turbine.These problems seriously constrain the generating efficiency of waste incineration and generating electricity, and then affect rubbish
The economic benefit of rubbish power generation by waste combustion factory.
For this purpose, the utility model provides a kind of power generation by waste combustion system, including:
Waste heat boiler, heat of the waste heat boiler to recycle the flue gas generated after incinerator is burnt away the refuse are described remaining
Boiler feedwater is provided in heat boiler;
Superheater, the superheater boiler feedwater and generate superheated steam to heat;
Steam turbine high-pressure cylinder, the steam turbine high-pressure cylinder is generated electricity using the superheated steam driven generator, and is exported low
Steam is pressed, the steam turbine high-pressure cylinder includes the second output channel of the first output channel of low-pressure steam and low-pressure steam;
Turbine low pressure cylinder, the turbine low pressure cylinder connect first output channel of low-pressure steam to described in utilizing
Low-pressure steam drives the electrical power generators, and generates steam exhaust;And
Absorption heat pump, the absorption heat pump connect second output channel of low-pressure steam to utilize the low pressure
Steam generates available heat sources as driving heat source.
It is schematically illustrated below with reference to waste incineration and generating electricity system of the Fig. 1 to the utility model, wherein according to Fig. 1
A kind of structural schematic diagram of the power generation by waste combustion system of one embodiment of the utility model.
The flue gas generated after waste incineration has very high temperature, often through the heat exchange side of certain forms after burning
Formula (flue gas is such as passed through flue gas condenser) exchanges heat with cooling water, the temperature with higher of the cooling water after heat exchange, with
It generates electricity, the process of this power generation is normally referred to as waste incineration and generating electricity.In general, the cooling water after heat exchange is generally provided to burn
Burn electricity generation system.Referring to Fig. 1, the structural schematic diagram of power generation by waste combustion system according to the present utility model is shown.Power generation by waste combustion system
System includes waste heat boiler 1, and the waste heat boiler 1 recycles the heat in the flue gas generated after incinerator is burnt away the refuse, the waste heat
Boiler feedwater is provided in boiler.Waste heat boiler can be in the various exhaust gas that can use in industrial process, waste material or waste liquid
Waste heat and its combustible burning after the heat that generates water is heated to the boiler of certain working medium.
With continued reference to Fig. 1, the power generation by waste combustion system further includes superheater 2, and the boiler feedwater is heated by superheater 2
Generate superheated steam.Referring to arrow direction in line in Fig. 1, it illustrates the flow directions of superheated steam.
With continued reference to Fig. 1, the power generation by waste combustion system further includes steam turbine high-pressure cylinder 3.It is steamed by the overheat of superheater discharge
To the steam turbine high-pressure cylinder 3, the steam turbine high-pressure cylinder 3 is generated electricity steam flow using the superheated steam driven generator 5, and is produced
Raw low-pressure steam;The steam turbine high-pressure cylinder 3 includes the second output channel of the first output channel of low-pressure steam 301 and low-pressure steam
302。
With continued reference to Fig. 1, the power generation by waste combustion system further includes turbine low pressure cylinder 4.The turbine low pressure cylinder 4 connects
First output channel of low-pressure steam 301, the low-pressure steam exported by steam turbine high-pressure cylinder 3 are exported by low-pressure steam first
Pipeline 301 inputs the turbine low pressure cylinder 4, and the turbine low pressure cylinder 4 drives the generator 5 to send out using low-pressure steam
Electricity, and export steam exhaust.It is utilized while power generation in the utility model using high pressure cylinder driven generator 5 using turbine low pressure cylinder
It is generated electricity by the low-pressure steam driven generator 5 that steam turbine high-pressure cylinder is discharged, improves generating efficiency.
With continued reference to Fig. 1, the power generation by waste combustion system further includes absorption heat pump 6.The absorption heat pump 6 connects described
The second output channel of low-pressure steam 302, to using the low-pressure steam exported by the steam turbine high-pressure cylinder as driving heat source,
Generate available heat sources.Using the part of waste heat in absorption heat pump recycling low-pressure steam, plays and exported to by steam turbine high-pressure cylinder
The effect that is divided of low-pressure steam, ensure that the stable operation of turbine low pressure cylinder.Meanwhile it being recycled using absorption heat pump
Using waste heat, guarantee that while flexibly control sucking rate on the one hand abundant recovery waste heat is improved to generate the heat source that can be utilized
Utilization rate of waste heat, on the other hand make to generate has flexible application using heat source, improves economic benefit on the whole.
Illustratively, as shown in Figure 1, the available heat sources output end of absorption heat pump 6 includes the first efferent duct of available heat sources
Road 601 and the second output channel of available heat sources 602.The first output channel of available heat sources 601 that the absorption heat pump 6 generates connects
It is connected to resident 7, for providing resident's heating.
With continued reference to Fig. 1, illustratively, the power generation by waste combustion system further includes that setting is exported in the low-pressure steam second
Butterfly valve 8 on pipeline 302.When needing to carry out resident's heating, 8 standard-sized sheet of butterfly valve, 4 part-load operation of turbine low pressure cylinder, portion
Low-pressure steam input absorption heat pump 6 is divided to carry out resident's heating, low-pressure steam input turbine low pressure cylinder 4 in part is for generating electricity.
When not needing to carry out resident's heating, butterfly valve 8 is half-open, and turbine low pressure cylinder 4 is operated at full capacity, while will be arranged in available heat sources
Valve 1# on first output channel 601 is closed, and the valve 2# on the second output channel of available heat sources 602 is opened, by available heat sources
As other purposes.By the opening of butterfly valve 8, degree is closed and switched, can control and be respectively passed through 6 He of absorption heat pump
Low-pressure steam flow in turbine low pressure cylinder 4.So as to adjust the workload of turbine low pressure cylinder, turbine low pressure cylinder is avoided
Its operation is influenced because steam extraction amount is excessive, promotes the stability of power generation by waste combustion system, and then promote generating efficiency.
Illustratively, as shown in Figure 1, the power generation by waste combustion system further includes air condenser 9, the air condenser includes
Gas input 901, condensed water output end 902, cold source input terminal 903 and cold source output end 904.The gas input 901
Be connected with the turbine low pressure cylinder 4, the steam exhaust being discharged by the turbine low pressure cylinder 4 in the air condenser with cold source
Condensed water is formed after heat exchange, the condensed water is exported by the condensed water output end 902, and the cold source is converted into heat exchange cold source.
Referring to the direction of arrow meaning in Fig. 1, steam exhaust enters air condenser 9 by the output of turbine low pressure cylinder 4 and condenses, the condensation of formation
Water is exported by the condensed water output end 902 of air condenser 9.The condensed water of output can be further used as the confession of boiler feedwater
It gives, to realize circulating water supply, reduces water resource waste and environmental pollution.
Illustratively, referring to Fig. 1, the power generation by waste combustion system further includes cooling tower 10.The cooling tower 10 and the sky
The cold source input terminal 903 of gas condenser 9 is connected to provide the cold source of the air condenser 9.
Illustratively, referring to Fig. 1, the cold source output end 904 includes the first cold source output channel 9041.First cold source is defeated
Pipeline 9041 is connected with the low-temperature heat source input terminal 603 of absorption heat pump 6 out, to provide the low-temperature heat source of absorption heat pump 6,
The heat exchange cold source formed after being exchanged heat by air condenser 9 is converted into heat absorption cold source in absorption heat pump 6, and passes through absorption type heat
The low-temperature heat source output end 604 of pump 6 is discharged.Such setting is formed, and the cold source of air condenser can be made to make full use of, into
One step promotes energy utilization efficiency, reduces the wasting of resources.Illustratively, by the 6 low-temperature heat source output end 604 of absorption heat pump
The heat absorption cold source of discharge is cooled into cold source by cooling tower 10 to supply air condenser 9.To realize being recycled back to for cold source
Road makes full use of cold source, reduces the wasting of resources.
Illustratively, the cold source output end 904 further includes the second cold source output channel 9042, the second cold source output
Pipeline 9042 is connected with cooling tower 10, realizes direct recycling of the cold source after the heat exchange of air condenser 9.It is used not needing resident
When 7 heat supply of family, in the case that butterfly valve 8 is half-open, the portion valve 3# being arranged on the first cold source output channel 9041 can also be separated
It opens, the valve 4# being arranged on the second cold source output channel is all turned on, and reduces the workload of absorption heat pump 6.Likewise,
When carrying out heat supply to resident 7, in the case where 8 standard-sized sheet of butterfly valve, the valve 3# on the first cold source output channel 9041 will be set
It is all turned on, the part valve 4# being arranged on the second cold source output channel is opened, and the efficiency of absorption heat pump 6 is increased.
Illustratively, as shown in Figure 1, the condensed water output end 902 of the air condenser 9 is distributed including condensed water first
Pipeline 9021 and the second distribution duct of condensed water 9022.The condensed water is passed through pot by first distribution duct of condensed water 9021
Furnace feed water circuit is recycled to the waste heat boiler 1 to supplement the boiler feedwater;Second distribution duct of condensed water 9022
It is connected to the absorption heat pump 6, the condensed water is inputted as the available heat sources of the absorption heat pump 6, in the absorption
The available heat sources are converted into formula heat pump 6.The available heat sources output end of absorption heat pump 6 includes the first efferent duct of available heat sources
Road 601 and the second output channel of available heat sources 602.The first output channel of available heat sources 601 that the absorption heat pump 6 generates connects
It is connected to resident 7, for providing resident's heating.The second output channel of available heat sources 602 is connected to boiler feedwater circuit, by institute
It states available heat sources and passes through boiler feedwater circuit cycle to waste heat boiler 1 to supplement the boiler feedwater.
Illustratively, the boiler feedwater circuit includes being sequentially connected oxygen-eliminating device 12, feed pump 13 and high-pressure heater 14,
The oxygen-eliminating device 12 is connected with the low-pressure heater 11 and the second output channel of the available heat sources 602, described to go out
Available heat sources and by heating after volume condensed water in air;The feed pump is supreme to send the water pump after removal air
Heater is pressed, the high-pressure heater 14 connects the waste heat boiler 1 to carry out hyperbaric heating to boiler feedwater.
Power generation by waste combustion system according to the present utility model is adopted while using the power generation of steam turbine high-pressure cylinder driven generator
It is utilized with turbine low pressure cylinder and is generated electricity by the low-pressure steam driven generator that steam turbine high-pressure cylinder is discharged, on the one hand improve power generation
Efficiency, on the other hand, using using the part of waste heat in heat pump recycling low-pressure steam, playing to being exported by steam turbine high-pressure cylinder
The effect that low-pressure steam is divided ensure that the stable operation of turbine low pressure cylinder.Meanwhile benefit is recycled using absorption heat pump
With waste heat, guarantee abundant recovery waste heat while flexibly control turbine low pressure cylinder sucking rate, with the heat of generation being utilized
Source, on the one hand improves utilization rate of waste heat, and on the other hand make to generate has flexible application using heat source, is promoted on the whole
Economic benefit.
The utility model is illustrated through the foregoing embodiment, but it is to be understood that, above-described embodiment is
Purpose for illustrating and illustrating, and be not intended to limit the invention within the scope of described embodiment.Furthermore ability
Field technique personnel are it is understood that the utility model is not limited to above-described embodiment, and introduction according to the present utility model is also
More kinds of variants and modifications can be made, these variants and modifications all fall within the utility model range claimed with
It is interior.The protection scope of the utility model is defined by the appended claims and their equivalents.
Claims (10)
1. a kind of power generation by waste combustion system, which is characterized in that including:
Waste heat boiler, heat of the waste heat boiler to recycle the flue gas generated after incinerator is burnt away the refuse, the waste heat pot
Boiler feedwater is provided in furnace;
Superheater, the superheater boiler feedwater and generate superheated steam to heat;
Steam turbine high-pressure cylinder, the steam turbine high-pressure cylinder are generated electricity using the superheated steam driven generator, and export low pressure steaming
Vapour, the steam turbine high-pressure cylinder include the second output channel of the first output channel of low-pressure steam and low-pressure steam;
Turbine low pressure cylinder, the turbine low pressure cylinder connect first output channel of low-pressure steam to utilize the low pressure
Electrical power generators described in steam drive, and generate steam exhaust;And
Absorption heat pump, the absorption heat pump connect second output channel of low-pressure steam to utilize the low-pressure steam
As driving heat source, and generate available heat sources.
2. power generation by waste combustion system as described in claim 1, which is characterized in that further include that setting is defeated in the low-pressure steam second
Butterfly valve on pipeline out.
3. power generation by waste combustion system as described in claim 1, which is characterized in that it further include air condenser, the air condenser
Including gas input, condensed water output end, cold source input terminal and cold source output end;
The gas input is connect with the turbine low pressure cylinder, is passed through by the steam exhaust that the turbine low pressure cylinder is discharged
Gas input inputs the air condenser, and exchanges heat to form condensed water with cold source in the air condenser, described cold
Condensate is exported by the condensed water output end, and the cold source is converted into heat exchange cold source.
4. power generation by waste combustion system as claimed in claim 3, which is characterized in that it further include cooling tower, it is described used for cooling tower to mention
For the cold source of the air condenser.
5. power generation by waste combustion system as claimed in claim 4, which is characterized in that the cold source output end is exported including the first cold source
Pipeline, the first cold source output channel are connected to the low-temperature heat source input terminal of the absorption heat pump, and the heat exchange cold source is made
For the low-temperature heat source of the absorption heat pump, and heat absorption cold source is converted into the absorption heat pump from described absorption
The low-temperature heat source output end of heat pump exports.
6. power generation by waste combustion system as claimed in claim 5, which is characterized in that the institute of the cooling tower and the absorption heat pump
It states low-temperature heat source output end to be connected, the heat absorption cold source is cooled into the cold source in the cooling tower and supplies to the air
Condenser.
7. power generation by waste combustion system as claimed in claim 5, which is characterized in that the cold source output end is exported including the second cold source
Pipeline, the second cold source output channel are connected to the cooling tower, and the heat exchange cold source is cooled into the cooling tower
The cold source.
8. power generation by waste combustion system as claimed in claim 3, which is characterized in that the condensed water output end includes condensed water first
The second distribution duct of distribution duct and condensed water;
First distribution duct of condensed water connects low-pressure heater, and the low-pressure heater heats the condensed water and will add
The condensed water after heat passes through boiler feedwater circuit cycle to the waste heat boiler to supplement the boiler feedwater;
Second distribution duct of condensed water is connected to the absorption heat pump, and the condensed water is as the absorption heat pump
Available heat sources input, is converted into the available heat sources in the absorption heat pump.
9. power generation by waste combustion system as claimed in claim 8, which is characterized in that the absorption heat pump includes available heat sources first
The second output channel of output channel and available heat sources;
The available heat sources are delivered to resident by first output channel of available heat sources, as heating water;
The available heat sources are passed through the boiler feedwater circuit cycle to the waste heat by second output channel of available heat sources
Boiler is to supplement the boiler feedwater.
10. power generation by waste combustion system as claimed in claim 8, which is characterized in that the boiler feedwater circuit includes being sequentially connected
Oxygen-eliminating device, feed pump and high-pressure heater, the oxygen-eliminating device and the second efferent duct of the low-pressure heater and the available heat sources
Road is connected, and the high-pressure heater connects the waste heat boiler.
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CN110500585A (en) * | 2019-07-18 | 2019-11-26 | 光大环保技术研究院(南京)有限公司 | A kind of waste incineration and generating electricity waste heat ammonia steaming system |
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CN110500585A (en) * | 2019-07-18 | 2019-11-26 | 光大环保技术研究院(南京)有限公司 | A kind of waste incineration and generating electricity waste heat ammonia steaming system |
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