CN218443379U - Cement kiln waste gas nitrogen oxide emission reduction system based on split type waste heat boiler - Google Patents

Cement kiln waste gas nitrogen oxide emission reduction system based on split type waste heat boiler Download PDF

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CN218443379U
CN218443379U CN202222104545.XU CN202222104545U CN218443379U CN 218443379 U CN218443379 U CN 218443379U CN 202222104545 U CN202222104545 U CN 202222104545U CN 218443379 U CN218443379 U CN 218443379U
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heat boiler
flue
waste heat
cement kiln
exhaust
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公丕峰
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Abstract

The utility model relates to a cement kiln waste gas nitrogen oxide emission reduction system based on split type exhaust-heat boiler, including exhaust-heat boiler, dust catcher and SCR device in advance, the last entry of hot medium of exhaust-heat boiler first part is through advancing the exhanst gas outlet intercommunication of tobacco pipe and cement kiln, and the hot exhanst gas outlet of lower part of exhaust-heat boiler first part is through the air intake intercommunication of first flue and dust catcher in advance, and the air outlet of dust catcher and the air intake intercommunication of SCR device in advance, the air outlet of SCR device and the air intake intercommunication of exhaust-heat boiler second part. The waste heat boiler is arranged into a split structure, and the flue gas with higher temperature is led out from the first part of the waste heat boiler, so that the acid poisoning resistance of the catalyst can be improved, and the nitrogen oxide can be efficiently and deeply removed; the SCR matched pre-dust collector is arranged between the SCR device and the first part of the waste heat boiler, so that adverse effects on waste heat power generation are reduced; and the denitrated flue gas is subjected to heat exchange through the second part of the waste heat boiler, so that the heat emission is further reduced.

Description

Cement kiln waste gas nitrogen oxide emission reduction system based on split type waste heat boiler
Technical Field
The utility model relates to a cement kiln's exhaust-gas treatment technical field especially involves a cement kiln waste gas nitrogen oxide emission reduction system based on split type exhaust-heat boiler.
Background
Technical guidelines (revised 2020) established for emergency emission reduction measures in severe-pollution weather major industry require that the environmental performance of cement clinker enterprises reach level A: the flue gas particulate matters of the cement kiln and the kiln tail waste heat utilization system are less than or equal to 10mg/Nm 3 (ii) a Sulfur dioxide: 35 mg/Nm or less 3 (ii) a Nitrogen oxide less than or equal to 50 mg/Nm 3 (ii) a Ammonia escape: not more than 5 mg/Nm 3 . Zibo city proposes ammonia escape: not more than 3PPm/Nm 3
Thus cement kiln NO x Emission reduction is deeply realized, and the work of accurately controlling ammonia escape is imperative.
The outlet temperature of the primary preheater of the advanced energy-saving cement kiln is lower than 260 ℃, so that a low-temperature catalyst becomes necessary in use. Under the strategy of low carbon, the cement kiln treats hazardous waste in a synergistic manner, the trend is to use alternative fuels, and acidic components in the smoke of the cement kiln are increased.
The cement kiln flue gas has high dust content, fine dust particle size and most of the components of CaO and CaCO 3 、SiO 2 The catalyst is easy to wear and block; the dust contains CaO and Na 2 O、K 2 O, and the like, and the smoke components of the cement kiln partially mixed with the burned garbage or the solid waste are more complicated, and the catalyst is easy to be poisoned by alkali metals.
SO in flue gas when middle-temperature SCR and low-temperature SCR are adopted 2 、SO 3 The catalyst can be poisoned, and the low-temperature inactivation of the catalyst is caused; in production, due to the reasons of low-load operation, ammonia escape, low ammonia spraying temperature, uneven temperature field and the like, ammonium bisulfate is condensed into liquid and is adhered to a catalyst, so that the activity of the catalyst is reduced until the catalyst loses activity, the normal use of the catalyst is influenced, and the activity of the catalyst can be recovered only by changing the liquid ammonium bisulfate into gas in time.
At present, no complete scheme is available in the industry, the method is suitable for low-temperature flue gas in an energy-saving cement kiln, is suitable for a waste heat boiler and a power generation system, is suitable for acid flue gas, and can stably, reliably and long-term realize that the emission concentration of nitrogen oxides discharged by waste gas of the cement kiln is less than or equal to 50 mg/Nm 3 And ammonia escape: not more than 3PPm/Nm 3
Disclosure of Invention
The utility model discloses to prior art's is not enough, provides a cement kiln waste gas nitrogen oxide emission reduction system based on split type exhaust-heat boiler, has realized nitrogen oxide emission reduction, has avoided the catalyst poisoning to the waste heat utilization of denitration flue gas has been realized.
The utility model discloses a following technical scheme realizes, provides a cement kiln waste gas nitrogen oxide emission reduction system based on split type exhaust-heat boiler, including exhaust-heat boiler, dust precipitator and SCR device in advance, the hot-medium of exhaust-heat boiler first part goes up the export of flue gas intercommunication of entry through advancing tobacco pipe way and cement kiln, and the hot exhanst gas outlet of lower part of exhaust-heat boiler first part is through the air intake intercommunication of first flue and dust precipitator in advance, and the air outlet of dust precipitator and the air intake intercommunication of SCR device in advance, the air outlet of SCR device and the air intake intercommunication of exhaust-heat boiler second part.
When the scheme is used, flue gas discharged by the cement kiln enters a first part of the waste heat boiler through a flue gas inlet pipeline for primary heat exchange and cooling, then is led out from a hot flue gas outlet at the lower part of the first part of the waste heat boiler, enters the SCR device after being dedusted by a pre-deduster, and enters a second part of the waste heat boiler for secondary heat exchange after being discharged from the SCR device, so that a low-temperature catalyst can tolerate higher sulfate and sulfite in use; firstly, dedusting the flue gas by a pre-deduster, then carrying out SCR denitration to remove alkali metals in the flue gas, so that the low-temperature catalyst is possible in use, the SCR denitration efficiency can reach 90%, and the corresponding NOx emission concentration is reduced to 28-40mg/Nm 3 And the ammonia escape can be well controlled.
Preferably, the SCR device is equipped with a catalyst thermal desorption system. The SCR device of this optimization scheme communicates catalyst thermal desorption system, utilizes the kiln flue gas that is heated to erode the catalyst, and the temperature rise is fast, makes liquid ammonium bisulfate more timely to gaseous transformation, can resolve at any time.
Preferably, the waste heat boiler further comprises a first short-circuit flue, one end of the first short-circuit flue is communicated with the smoke inlet pipeline, the other end of the first short-circuit flue is communicated with the first flue, a first valve is installed on the first short-circuit flue, and a second valve located between the first short-circuit flue and a hot medium upper inlet of the first part of the waste heat boiler is installed on the smoke inlet pipeline. The arrangement of the optimization scheme realizes the short circuit of the first part of the waste heat boiler, so that the flue gas discharged by the cement kiln directly enters the pre-dust collector, the application range is expanded, the cement kiln is suitable for more working conditions, the emission reduction of nitrogen oxides is ensured normally when the first part of the waste heat boiler is overhauled, and the use working condition with higher drying temperature requirement can be met.
And as optimization, the first flue is provided with a high-temperature fan. The high-temperature fan is arranged before pre-dedusting in the optimized scheme, so that the working negative pressure of the pre-dedusting and the SCR device is reduced, and the air leakage rate of the pre-deduster and the SCR device is reduced.
As optimization, the exhaust system further comprises a second short-circuit flue and a smoke exhaust pipeline communicated with an air outlet of the second part of the waste heat boiler, one end of the second short-circuit flue is communicated with the first flue, the communication point of the second short-circuit flue and the first flue is located on the downstream side of the high-temperature fan, the other end of the second short-circuit flue is communicated with the smoke exhaust pipeline, a third valve is installed on the second short-circuit flue, and a fourth valve located on the upstream side of the second short-circuit flue is installed on the smoke exhaust pipeline. This optimization scheme's setting has realized the short circuit to dust catcher in advance, SCR device and exhaust-heat boiler second part for the flue gas that the cement kiln discharged or directly get into subordinate's use system with the flue gas behind the first part heat transfer of exhaust-heat boiler, satisfied more use operating modes equally, especially when overhauing dust catcher in advance, SCR device or exhaust-heat boiler second part, guarantee the normal operating of the first part of cement kiln flue gas normal discharge and exhaust-heat boiler.
As optimization, the smoke exhaust pipeline is communicated with the material drying system. The arrangement of the optimized scheme realizes the further utilization of waste heat, and the flue gas discharged by the waste heat boiler is used for drying the raw materials, so that the further energy conservation and emission reduction are realized, and the heat waste is reduced.
And as optimization, the system also comprises a pre-dust collector arranged on the first flue, wherein an air inlet of the pre-dust collector is communicated with a hot flue gas outlet at the lower part of the first part of the waste heat boiler, and an air outlet of the pre-dust collector is communicated with an air inlet of the SCR device.
The utility model has the advantages that: the waste heat boiler is set to be a split structure, the flue gas with higher temperature is led out from the first part of the waste heat boiler, the SCR catalyst is used for working at 160-280 ℃, the acid poisoning resistance of the catalyst can be improved, the nitrogen oxide can be efficiently and deeply removed, the ammonia escape can be reliably controlled, the nitrogen oxide emission reduction concentration is stably and reliably realized for a long time and is not higher than 50 mg/cubic meter, and the low-temperature flue gas in the energy-saving cement kiln is adapted; the SCR matched pre-dust collector is arranged between the SCR device and the first part of the waste heat boiler, so that adverse effects on waste heat power generation are reduced, and the SCR matched pre-dust collector is suitable for the waste heat boiler and a power generation system; the denitrated flue gas is subjected to heat exchange through a second part of the waste heat boiler, so that the heat emission is further reduced; flue gas after denitration is used for drying raw materials, so that deep utilization of waste heat is realized; the method is suitable for the existing cement production process, has little influence on waste heat utilization, and has good application prospect.
Drawings
FIG. 1 is a flow chart of the present invention;
FIG. 2 is an enlarged view of a portion of FIG. 1;
shown in the figure:
1. the system comprises a smoke inlet pipeline, 2, a second valve, 3, a first short-circuit flue, 4, a first valve, 5, a first part of a waste heat boiler, 6, a fifth valve, 7, a high-temperature fan, 8, a third valve, 9, a second short-circuit flue, 10, a first flue, 11, a fourth valve, 12, a smoke exhaust pipeline, 13, a second part of the waste heat boiler, 14, an SCR device, 15, a pre-dust collector, 16, a sixth valve, 17, a catalyst thermal desorption system, 18 and a seventh valve.
Detailed Description
In order to clearly explain the technical features of the present solution, the present solution is explained by the following detailed description.
As shown in figure 1, the cement kiln waste gas nitrogen oxide emission reduction system based on the split type waste heat boiler comprises a waste heat boiler, a pre-dust collector 15 and an SCR device 14, wherein the SCR device is provided with a catalyst thermal desorption system 17, the pre-dust collector, the SCR device and the catalyst thermal desorption system are integrated, and the heating surface of the waste heat boiler is divided into two main parts, namely a first part of the waste heat boiler and a second part of the waste heat boiler. The first part of the waste heat boiler is connected with the second part of the waste heat boiler through a flue, so that equipment or parts can be conveniently arranged between the first part and the second part of the waste heat boiler, the waste heat boiler is of a split structure, the middle upper part of the existing waste heat boiler is used as the first part 5 of the waste heat boiler, and the lower part of the waste heat boiler is used as the second part 13 of the waste heat boiler.
An upper inlet of a heat medium of the first part 5 of the waste heat boiler is communicated with a flue gas outlet of the cement kiln through a flue gas inlet pipeline 1, as a preferred scheme, the flue gas outlet of the cement kiln of the embodiment is a waste gas outlet of a primary preheater, a lower hot flue gas outlet of the first part 5 of the waste heat boiler is communicated with an air inlet of a pre-dust collector 15 through a first flue 10, an air outlet of the pre-dust collector is communicated with an air inlet of an SCR device 14, an air outlet of the SCR device is communicated with an air inlet of a second part 13 of the waste heat boiler, an air outlet of the second part of the waste heat boiler is communicated with a smoke exhaust pipeline 12, and the smoke exhaust pipeline 12 is communicated with a material drying system. In order to improve the efficiency of the flue gas flow, a high temperature fan 7 is installed on the first flue 10, and the high temperature fan 7 is used for providing power for the flue gas flow. The upstream side and the downstream side of the present embodiment are based on the description of the flow direction of the flue gas, that is, the flue gas flows from upstream to downstream.
The temperature of the flue gas at the outlet of the first part of the waste heat boiler is higher, SCR denitration is carried out, and the poison of sulfate and sulfite is reduced. The flue gas is dedusted and then SCR denitration is carried out to remove alkali metals in the flue gas, so that the use of a low-temperature catalyst becomes possible. The denitration efficiency of SCR can reach 90%, and the corresponding NOx emission concentration is reduced to 28 to 40mg/m 3 And the ammonia escape can be well controlled. SCR device intercommunication catalyst thermal desorption system, inevitable produces ammonium bisulfate in the flue gas, through being equipped with catalyst thermal desorption system, utilizes the kiln flue gas that is heated to erode the catalyst, and the temperature rise is fast, makes liquid ammonium bisulfate more timely to gaseous transformation, can resolve at any time. The catalyst is divided into bins, an active smoke recovery flow is established, and the smoke used for activity recovery is heated by using the heat of hot smoke or steam or electricity or flame of a kiln. The hot flue gas enters the catalyst bin which is stopped using through the bypass pipeline, the surface of the catalyst is washed, the liquid ammonium bisulfate is changed into gaseous ammonium bisulfate, and the gaseous ammonium bisulfate is introduced into the flue to be purified again. Catalyst and process for preparing sameThe specific structure of the thermal desorption system can be realized by adopting the prior art, such as the patent scheme of patent number 2019204371511 named as 'a device for recovering the activity of a selective catalytic reduction catalyst'.
As shown in fig. 2, the emission reduction system of the present embodiment further includes a first short-circuit flue 3 and a second short-circuit flue 9. One end of the first short-circuit flue 3 is communicated with the flue inlet pipe 1, the other end of the first short-circuit flue is communicated with the first flue 18, a first valve 4 is installed on the first short-circuit flue, a second valve 2 located between the first short-circuit flue and a hot medium upper inlet of the first part of the waste heat boiler is installed on the flue inlet pipe, and a fifth valve 6 located between a hot flue gas outlet of the lower part of the first part of the waste heat boiler and the first short-circuit flue is also installed on the first flue 10.
One end of a second short-circuit flue 9 is communicated with a first flue 10, the communication point of the second short-circuit flue and the first flue is located on the downstream side of the high-temperature fan, the other end of the second short-circuit flue is communicated with a smoke exhaust pipeline 12, a third valve 8 is installed on the second short-circuit flue, a fourth valve 11 located on the upstream side of the second short-circuit flue is installed on the smoke exhaust pipeline, and a sixth valve 16 located between the second short-circuit flue and the pre-dust collector is installed on the first flue.
The embodiment is further provided with a third short-circuit flue, the third short-circuit flue is provided with a seventh valve 18, one end of the third short-circuit flue is communicated with the air inlet of the second part of the waste heat boiler, the other end of the third short-circuit flue is communicated with the air outlet of the second part of the waste heat boiler, and when the seventh valve 18 is opened, short circuit of the second part of the waste heat boiler is achieved.
The drying system of this embodiment selects the stoving of material, specifically is to grind the air intake intercommunication with raw materials of raw materials drying system, and raw materials grinds the air-out and gets into the afterbody dust remover, makes waste gas get into equipment such as raw materials mill and dries the raw materials, then gets into the afterbody dust remover, discharges to the chimney at last.
The outlet temperature of a primary preheater of an advanced energy-saving cement kiln is lower than 260 ℃, flue gas enters a waste heat boiler for heat exchange, generally passes through a steam superheater, then an evaporator and then an economizer, and the specific using method of the embodiment comprises the following aspects:
1. closing a first valve 4 and a third valve 8, opening a second valve 2, a fifth valve 6, a sixth valve 16 and a fourth valve 11, allowing flue gas to enter a first part of a waste heat boiler for primary cooling, cooling to 250 ℃ at 200 ℃, then leading out from a hot flue gas outlet at the lower part of the first part of the waste heat boiler, performing dust removal treatment by a pre-dust collector, allowing the flue gas to enter an SCR device, wherein the SCR device is provided with a catalyst thermal desorption system, allowing waste gas to exit the SCR and then enter a second part of the waste heat boiler for heat exchange, allowing the waste gas to exit the second part of the waste heat boiler for deep waste heat utilization, allowing the waste gas to enter a raw material drying system through a smoke exhaust pipeline, and drying raw materials;
2. closing the second valve 2, the fifth valve 6, the sixth valve 16 and the fourth valve 11, opening the first valve 4 and the third valve 8, and short-circuiting the SCR device, the first part of the waste heat boiler and the second part of the waste heat boiler, wherein the waste gas of the cement kiln directly enters a smoke exhaust pipeline;
3. closing the second valve 2, the third valve 8 and the fifth valve 6, opening the first valve 4, the sixth valve 16 and the fourth valve 11, carrying out short connection on the first part of the waste heat boiler, directly enabling the flue gas to enter a pre-deduster 15 through a flue gas inlet pipeline, then enabling the flue gas to enter the second part of the waste heat boiler for heat exchange after SCR treatment and denitration, and then enabling the flue gas to enter a smoke exhaust pipeline, wherein when the first part of the waste heat boiler does not operate, the flue gas denitration treatment can also be carried out;
4. and closing the first valve 4, the sixth valve 16 and the fourth valve 11, opening the second valve 2, the fifth valve 6 and the third valve 8, carrying out short circuit on the SCR device and the second part of the waste heat boiler, and allowing the flue gas to enter a smoke exhaust pipeline after heat exchange of the first part of the waste heat boiler so as to bypass the SCR device, thereby facilitating the disconnection of the SCR device.
The implementation uses SCR to deeply remove nitrogen oxides with high efficiency, reliably control ammonia escape, and stably and reliably realize the emission reduction concentration of the nitrogen oxides not higher than 50 mg/cubic meter for a long time. And the SCR matched dust remover and the SCR are arranged between the first part and the second part of the waste heat boiler, so that the influence on waste heat power generation is small. The temperature of the denitrated flue gas is still suitable for drying the raw materials, and the waste heat is continuously and deeply utilized. The system is suitable for the existing cement production process, has small influence on waste heat utilization, and has good application prospect.
The utility model is also suitable for other industrial kilns. Of course, the above description is not limited to the above examples, and technical features of the present invention that are not described in the present application may be implemented by or using the prior art, and are not described herein again; the above embodiments and drawings are only used for illustrating the technical solutions of the present invention and are not intended to limit the present invention, and the present invention has been described in detail with reference to the preferred embodiments, and those skilled in the art should understand that changes, modifications, additions or substitutions made by those skilled in the art within the spirit of the present invention should also belong to the protection scope of the claims of the present invention.

Claims (7)

1. The utility model provides a cement kiln waste gas nitrogen oxide reduces discharging system based on split type exhaust-heat boiler which characterized in that: the waste heat boiler comprises a waste heat boiler and an SCR device (14), wherein an upper inlet of a heat medium of a first part (5) of the waste heat boiler is communicated with a flue gas outlet of a cement kiln through a flue gas inlet pipeline (1), a lower hot flue gas outlet of the first part (5) of the waste heat boiler is communicated with an air inlet of the SCR device (14) through a first flue (10), and an air outlet of the SCR device is communicated with an air inlet of a second part (13) of the waste heat boiler.
2. The cement kiln waste gas nitrogen oxide emission reduction system based on the split type waste heat boiler as claimed in claim 1, is characterized in that: the SCR device is equipped with a catalyst thermal desorption system (17).
3. The cement kiln waste gas nitrogen oxide emission reduction system based on the split type waste heat boiler as claimed in claim 1, wherein: still include first short circuit flue (3), the one end and the advancing tobacco pipe way (1) intercommunication of first short circuit flue (3), the other end and first flue (10) intercommunication of first short circuit flue, install first valve (4) on the first short circuit flue, advance and install second valve (2) that are located on the tobacco pipe way between the hot-medium of first short circuit flue and exhaust-heat boiler first part and enter the mouth.
4. The cement kiln waste gas nitrogen oxide emission reduction system based on the split type waste heat boiler as claimed in claim 1, wherein: and the first flue (10) is provided with a high-temperature fan (7).
5. The cement kiln waste gas nitrogen oxide emission reduction system based on the split type waste heat boiler as claimed in claim 4, wherein: still include second short circuit flue (9) to and exhaust pipe (12) with the air outlet intercommunication of exhaust-heat boiler second part, the one end and the first flue (10) intercommunication of second short circuit flue, and the intercommunication point of second short circuit flue and first flue is located the downstream side of high temperature fan, the other end and the exhaust pipe (12) intercommunication of second short circuit flue, install third valve (8) on the second short circuit flue, install fourth valve (11) that are located second short circuit flue upper reaches side on the exhaust pipe.
6. The cement kiln waste gas nitrogen oxide emission reduction system based on the split type waste heat boiler as claimed in claim 5, wherein: the smoke exhaust pipeline (12) is communicated with the material drying system.
7. The cement kiln waste gas nitrogen oxide emission reduction system based on the split type waste heat boiler as claimed in claim 1, wherein: the exhaust-heat boiler further comprises a pre-dust collector (15) arranged on the first flue (10), an air inlet of the pre-dust collector (15) is communicated with a hot flue gas outlet at the lower part of the first part (5) of the exhaust-heat boiler, and an air outlet of the pre-dust collector is communicated with an air inlet of the SCR device (14).
CN202222104545.XU 2022-08-11 2022-08-11 Cement kiln waste gas nitrogen oxide emission reduction system based on split type waste heat boiler Active CN218443379U (en)

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