CN205145970U - Charcoal base catalyst SOx/NOx control system - Google Patents

Abstract

The utility model provides a charcoal base catalyst SOx/NOx control system, this system include flue gas system (A), desulfurization adsorption system (B), and denitration adsorption system (C), charcoal base catalyst conveyer system (E), nitrogen gas system (F), ammonia dilution system (G), cooling water system (I), charcoal base catalyst regeneration system (D) and air heating system (H) form through the pipe connection between each system. The boiler flue gas gets into the smoke stack emission after the charcoal base catalyst SOx/NOx control system processing is up to standard, the adsorption tower is got back to in the charcoal base catalyst regeneration after adding the thermal desorption after the absorption, and the high concentration SO2 that the desorption goes out is used for resource recycling. The two -stage that adopts this system device moves adsorbs desorption SO2 and NOx respectively, changes great flue gas condition to high sulphur content, change sulphur content and exhaust gas volumn and has very strong adaptability, can establish the basis extensive popularization and application of thermoelectricity trade for charcoal base catalyst flue gas purifying technology.

Description

A kind of carbon base catalyst system for desulfuration and denitration

Technical field

The utility model belongs to field of environment engineering, and being specifically related to a kind of take carbon base catalyst as the boiler smoke combined desulfurization and denitration system of adsorbent and catalyst.

Background technology

Carbon base catalyst flue gas desulfurization and denitrification know-why is: flue gas under the absorption and catalytic action of carbon base catalyst, the SO in flue gas ₂and O ₂and H ₂0 reacts generates H ₂sO ₄, H ₂sO ₄be adsorbed on carbon base catalyst surface; Utilize the catalytic performance of carbon base catalyst, in flue gas, NOx and ammonia generation catalytic reduction reaction generate N simultaneously ₂, achieve the desulphurization denitration of flue gas.The reacted carbon base catalyst of adsoption catalysis carries out regeneration Posterior circle and utilizes.

Utilize carbon base catalyst to carry out the systems approach of flue gas desulfurization and denitrification a lot, but existing system and systems approach also have the following disadvantages:

1, existing carbon base catalyst (as activated coke) system for desulfuration and denitration spininess is to flow and the design of relative concentration specific flue gas condition, and when flue gas flow and pollutant levels change greatly or be very fast, comparatively galling easily occurs the more difficult or material of the adjustment of carbon base catalyst material.

2, SO is worked as ₂time higher with NOx concentration, adopt single tower layout cannot realize the low concentration discharge of two kinds of pollutants.

Summary of the invention

For overcoming the above problems, the utility model provides a kind of carbon base catalyst system for desulfuration and denitration.

For achieving the above object, concrete technical scheme of the present utility model is as follows:

A kind of carbon base catalyst system for desulfuration and denitration, this system comprises flue gas system (A), desulfurization adsorption system (B), denitration adsorption system (C), carbon base catalyst conveyer system (E), nitrogen system (F), ammonia dilution system (G), cooling water system (I), connected to form by pipeline between each system, system also comprises carbon base catalyst regenerative system (D) and air heating system (H);

Described flue gas system (A) comprises former flue gas (boiler smoke) input channel (25), mixed flue gas pipeline (26), neat stress discharge tube (27), desulfurization adsorption column inlet header (2) and outlet header (3), denitration adsorption column inlet header (8) and outlet header (9);

Described desulfurization adsorption system (B) comprises desulfurization adsorption tower (1), desulfurization adsorption tower liftout bucket (4), material feed valve (5), material discharge valve (6); Desulfurization adsorption tower liftout bucket, material feed valve, desulfurization adsorption tower, material discharge valve are arranged successively from top to bottom;

Described denitration adsorption tower system (C) comprises denitration adsorption tower (7), denitration adsorption tower liftout bucket (10), material feed valve (11), material discharge valve (12); Denitration adsorption tower liftout bucket, material feed valve, denitration adsorption tower, material discharge valve are arranged successively from top to bottom; Described denitration adsorption tower and described desulfurization adsorption tower are arranged in series;

Described carbon base catalyst regenerative system (D) comprises desorption and regeneration tower (13), desorption and regeneration tower top hopper (14), material feed valve (15), material discharge valve (16), shaking screen (17); Desorption and regeneration tower top hopper, material feed valve, denitration adsorption tower, material discharge valve, shaking screen are arranged successively from top to bottom;

Desulfurization adsorption tower (1) and the parallel setting of denitration adsorption tower (7), former flue gas is delivered to desulfurization adsorption tower (1) by flue gas system (A) and carries out desulfurization process, the rear flue gas of process is delivered to denitration adsorption tower (7) again and carries out denitration process, processes neat stress up to standard and discharges through discharge tube; Carbon base catalyst after regeneration delivers to denitration adsorption tower respectively by adsorption tower chain transfer (19) after shaking screen screening and desulfurization adsorption tower recycles.

Further design of the present utility model is:

Described desulfurization adsorption tower is many bins structure, and desulfurization adsorption tower is separated into four to eight bins by waterbaffle and porous plate by this many bins structure, and porous plate is arranged perpendicular to flue gas flow direction, and waterbaffle is parallel to flue gas flow direction and arranges; The corresponding each bin in desulfurization adsorption tower top is provided with a feed valve, and the corresponding each bin in bottom is respectively equipped with a discharge valve.

Described desorption and regeneration tower inside is divided into heating material section and cooling section from top to bottom, and the carbon base catalyst after absorption regenerates in desorption and regeneration tower after adding thermal desorption gets back to adsorption tower, realizes the reuse of material.Material after desorption and regeneration enters shaking screen screening removing dust and wear particle.

Fresh material feed supplement storehouse (20) is furnished with between the material discharge valve of denitration adsorption tower and desorption and regeneration tower feed valve pipeline, fresh carbon base catalyst sends into desorption and regeneration tower together with the carbon base catalyst after absorption, delivers to denitration adsorption tower respectively and desulfurization adsorption tower utilizes after process after shaking screen screening by adsorption tower chain transfer (19).

Described air heating system (H) comprises high temperature air blower fan (22) and air heater (23); Air heating system and desorption and regeneration tower form loop, and adopt electrical heating that air circulating-heating is reached 500 ~ 600 DEG C, high temperature air is as the thermal source carrier gas of desorption and regeneration tower.

Described carbon base catalyst conveyer system (E) comprises two Z-type material chain transfers (18,19), carries carbon base catalyst respectively to denitration adsorption tower and desulfurization adsorption tower; Described nitrogen system (F) comprises PSA nitrogen making machine, nitrogen buffer tank, nitrogen heater; Nitrogen system is connected to desulfurization and denitration adsorption tower, for desorption provides required protection carrier gas; Described ammonia dilution system (G) comprises liquid ammonia steel bottle, liquid ammonia vaporization device, ammonia surge tank; This system is connected to porch, denitration absorption tower in order to provide denitration reducing agent used; Described cooling water system (I) comprises cooling tower and corresponding water pump, is respectively desulfurization adsorption tower and desorption and regeneration tower supply cooling water, carries out circulating cooling to flue gas in desulfurization adsorption tower and desorption and regeneration tower.

Ammonia-gas spraying device is provided with, for spraying into ammonia before described denitration adsorption tower smoke inlet header.In tower carbon base catalyst adsoption catalysis effect under, for removing the NOx in flue gas.

Utilize said system to carry out the method for desulphurization denitration process to flue gas, the method comprises desulphurization denitration and carbon base catalyst regenerative process, and detailed process is as follows:

(1) desulphurization denitration process:

Heat smoke (former flue gas) from boiler enters desulfurization adsorption tower through desulfurization adsorption column inlet header, and through the adsorption desulfurize process step by step of many bins, the flue gas after desulfurization enters flue through desulfurization adsorption column outlet header; Denitration adsorption tower is entered by denitration adsorption column inlet header after fully mixing from the flue gas after the ammonia of ammonia dilution system adsorbs with desulfurization in mixed flue gas pipeline (26), flue gas after denitration adsorption cleaning enters neat stress pipeline by its outlet header, and then passes through smoke stack emission;

(2) cleanser regenerative process urged by charcoal base:

1) SO has been adsorbed in desulfurization adsorption tower and denitration adsorption tower ₂and the carbon base catalyst of NOx enters desorption and regeneration tower chain transfer (18) by the discharge valve of side under tower, sends into desorption and regeneration tower top hopper;

2) simultaneously, air heating system is by air circulating-heating to 500 ~ 600 DEG C, and after heating, air is to carbon base catalyst heating material in desorption and regeneration tower, and carbon base catalyst completes desorption and regeneration in tower, the SO of generation ₂send to SO ₂utilize device (24); Carbon base catalyst after regeneration delivers to desulfurization adsorption tower through adsorption tower chain transfer (19) after shaking screen screening and denitration adsorption tower utilizes.

Wherein, described many bins, step by step in adsorption desulfurize processing procedure, control the delivery rate of each bin feed valve containing sulphur concentration according to boiler smoke.When inlet flue gas raises containing sulphur concentration, material decrease speed in the bin in smoke inlet direction can be allowed to accelerate, then enter the bin near Way out, material can be allowed in these bins with comparatively jogging speed decline, material is fully contacted with flue gas, effectively can reduce material wearing and tearing.

Carbon base catalyst system for desulfuration and denitration tool of the present utility model has the following advantages:

1, in the utility model system, desulfurization adsorption tower, denitration adsorption tower two tower be arranged in parallel, achieve that flue gas is arranged in series, carbon base catalyst material is arranged in parallel.Owing to mainly there is catalytic reduction reaction in denitration adsorption tower, therefore material translational speed in tower is relatively slow, reduces material wearing and tearing in denitration adsorption tower.

2, in the utility model system, SO is removed through desulfurization adsorption tower ₂after flue gas still containing the SO of minute quantity ₂, after this strand of flue gas enters denitration adsorption tower, can SO have been continued ₂remove, achieve cascade towers, the system that further increases is to SO in flue gas ₂removal efficiency.

3, devise desorption and regeneration tower in the utility model system, the carbon base catalyst of discharging bottom denitration adsorption tower also carries out desorption and regeneration.Flue gas after the purification of desulfurization adsorption tower continues to enter denitration adsorption tower and carries out denitration reaction, this process has ammonium sulfate to produce and is adsorbed on carbon base catalyst surface, in denitration adsorption tower, the discharge valve of carbon base catalyst bottom it of absorption enters desorption and regeneration tower chain transfer and delivers to desorption and regeneration tower, and in regenerative process, the ammonium sulfate molecule of carbon base catalyst adsorption decomposes.This process will reduce regeneration off gases CO greatly ₂generation, and then reduce the loss of carbon base catalyst.

4, in the utility model system, desulfurization adsorption tower adopts many bins structure, this structure desulfurization adsorption tower band waterbaffle, the requirement that can adapt to high sulphur content, become sulphur content, become exhaust gas volumn.Make sweetening process that bin classification can be divided to carry out simultaneously, be beneficial to and control each bin material decrease speed according to when flue gas flow and pollutant levels change, reduce throughout its mass decrease speed by friction speed combination, thus reduce supplies consumption.

5, the utility model carbon base catalyst system for desulfuration and denitration method, boiler smoke enters smoke stack emission after the process of carbon base catalyst system for desulfuration and denitration is up to standard, and the carbon base catalyst after absorption regenerates after adding thermal desorption gets back to adsorption tower, the high concentration SO that desorption goes out ₂for resource recycling.Desulfurization absorption tower adsorbs produces H ₂s0 ₄, denitration adsorption tower catalytic reduction produce ammonium sulfate, achieve low-carbon emission in desorption and regeneration process, belong to a kind of low-carbon (LC) desulfurization denitration method.Desulfurization and denitration divide two towers to carry out, and be that pollutant levels scope is large compared with single tower desulphurization denitration superiority, removal efficiency is high.

6, the utility model can compare decision desulfurization adsorption tower and denitration adsorption tower sharing of load situation according to carbon base catalyst and ammonia cost ratio, also can according to NOx/SO in flue gas ₂comparision contents flexible modulation desulphurization denitration load, makes system operation cost minimum.

7, the utility model system for desulfuration and denitration running and comparing is flexible, can at desulfurizing tower porch spray ammonia, and ammonia-gas spraying device arranges flexibly, can require to change the method for operation according to ammonia and catalyst and carbon emission, make in the operation of whole system for desulfuration and denitration without CO ₂produce, effectively reduce carbon base catalyst wearing and tearing, system operation cost will reduce greatly.

8, in the utility model, the fresh carbon base catalyst material that feed supplement storehouse supplements also is sent in desorption and regeneration tower by desorption and regeneration tower chain transfer, the self-contained moisture of carbon base catalyst is evaporated under desorption and regeneration tower hot conditions, the material entering desulfurization and denitration adsorption tower is kept dry state, and optimize the system operation condition.

9, the utility model adopts two-stage to move absorption, adapts to Variable Composition, becomes SO ₂/ NOx, high efficiency requirement; Desulfurization adsorption tower adopts a point storehouse to arrange to control material translational speed, to the flue gas condition that high sulphur content, change sulphur content and exhaust gas volumn change greatly, there is very strong adaptability, can be carbon base catalyst flue gases purification and lay the foundation at Thermal Power Generation Industry large-scale promotion application.

Accompanying drawing explanation

Fig. 1 is system schematic of the present utility model;

In figure: A-flue gas system; B-desulfurization adsorption system; C-denitration adsorption system; D-carbon base catalyst regenerative system; E-carbon base catalyst conveyer system; F-nitrogen system; G-ammonia dilution system; H-air heating system; I-cooling water system.

1-desulfurization adsorption tower; 2-(desulfurization adsorption tower) influent header; 3-(desulfurization adsorption tower) outlet header; 4-desulfurization adsorption tower liftout bucket; 5-(desulfurization adsorption tower) material feed valve; 6-(desulfurization adsorption tower) material discharge valve; 7-denitration adsorption tower; 8-(denitration adsorption tower) influent header; 9-(denitration adsorption tower) outlet header; 10-denitration adsorption tower liftout bucket; 11-(denitration adsorption tower) material feed valve; 12-(denitration adsorption tower) material discharge valve; 13-desorption and regeneration tower; 14-desorption and regeneration tower top hopper; 15-(desorption and regeneration tower) material feed valve; 16-(desorption and regeneration tower) material discharge valve; 17-shaking screen; 18-desorption and regeneration tower chain transfer; 19-adsorption tower chain transfer; 20-fresh material feed supplement storehouse; The fresh material discharge valve of 21-; 22-high temperature air blower fan; 23-air heater; 24-SO ₂utilize device; The former flue gas input channel of 25-; 26-mixed flue gas pipeline; 27-neat stress discharge tube.Mixed flue gas pipeline (26)

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model will be further described:

As shown in Figure 1, carbon base catalyst system for desulfuration and denitration of the present utility model, this system comprises flue gas system (A), desulfurization adsorption system (B), denitration adsorption system (C), carbon base catalyst regenerative system (D), carbon base catalyst conveyer system (E), nitrogen system (F), ammonia dilution system (G), air heating system (H), cooling water system (I), be formed by connecting by pipeline between each system.Wherein desulfurization adsorption tower (1) and denitration adsorption tower (7) two tower be arranged in parallel, and flue gas is arranged in series, carbon base catalyst material is arranged in parallel.

Flue gas system (A) comprises former flue gas (boiler smoke) input channel (25), mixed flue gas pipeline (26), neat stress discharge tube (27), desulfurization adsorption column inlet header (2) and outlet header (3), denitration adsorption column inlet header (8) and outlet header (9); Former flue gas through desulfurization adsorption tower (1), denitration adsorption tower (7) process up to standard after discharged by neat stress discharge tube; Entrance and outlet header adopt the mode of welding to be connected with each tower.

Desulfurization adsorption system (B) comprises desulfurization adsorption tower (1), desulfurization adsorption tower liftout bucket (4), material feed valve (5), material discharge valve (6); Desulfurization adsorption tower liftout bucket, material feed valve, desulfurization adsorption tower, material discharge valve are arranged successively from top to bottom.Described desulfurization adsorption tower is multiple bin, and each bin is all designed to rectangular channel, facilitates material cloth.Extensibility is strong, as arranged four to eight points of storehouses as required.In this example, adopt four bins.Desulfurization adsorption tower is separated by waterbaffle and porous plate by many bins structure, and porous plate is arranged perpendicular to flue gas flow direction, and waterbaffle is parallel to flue gas flow direction and arranges; Multiple bins laid out in parallel between two of desulfurization adsorption tower, two bins often arranged are one-level, and each bin is all designed to rectangular channel, facilitates material cloth, can realize grading control blanking speed.

Denitration adsorption tower system (C) comprises denitration adsorption tower (7), denitration adsorption tower liftout bucket (10), material feed valve (11), material discharge valve (12); Denitration adsorption tower liftout bucket, material feed valve, denitration adsorption tower, material discharge valve are arranged successively from top to bottom.Described denitration adsorption tower and described desulfurization adsorption tower are arranged in series.

Carbon base catalyst regenerative system (D) comprises desorption and regeneration tower (13), desorption and regeneration tower top hopper (14), material feed valve (15), material discharge valve (16), shaking screen (17); Desorption and regeneration tower top hopper, material feed valve, denitration adsorption tower, material discharge valve, shaking screen are arranged successively from top to bottom.

Carbon base catalyst conveyer system (E) comprises two Z-type material chain transfers (18,19); Material can carry out on this conveyer simultaneously level, vertically, horizontal feed again, on a conveyer, realize multiple feed and discharging simultaneously.This supporting conveyor apparatus can the loss of minimum degree reduction to material.

Nitrogen system (F) comprises PSA nitrogen making machine, nitrogen buffer tank, nitrogen heater; In order to provide the carrier gas of the protection needed for desorption;

Ammonia dilution system (G) comprises liquid ammonia steel bottle, liquid ammonia vaporization device, ammonia surge tank, in order to provide denitration reducing agent used;

Air heating system (H) comprises high temperature air blower fan (22) and air heater (23); Adopt electrical heating that air circulating-heating is reached about 500 ~ 600 DEG C, high temperature air is as the thermal source carrier gas of desorption and regeneration tower.

Cooling water system (I) comprises cooling tower and corresponding water pump, for carrying out circulating cooling cooling to desulfurization adsorption tower and desorption and regeneration Ta Tanei flue gas.

Under flue gas system can adapt to different flue gas flow condition, carbon base catalyst is to the desulphurization denitration purification process of flue gas.Described former flue gas comes from boiler hot flue gas.

Desulfurization adsorption tower is many bins structure, realizes point bin purification of flue gas.Described desulfurization adsorption tower material feed valve can control material decrease speed in tower.When smoke inlet changes containing sulphur concentration, when flue gas enters different bin, control feed valve and control material decrease speed, reduce throughout its mass decrease speed by friction speed combination, thus reduce supplies consumption.

Before denitration adsorption tower smoke inlet header, ammonia-gas spraying device is set, in tower carbon base catalyst adsoption catalysis effect under, for removing the NOx in flue gas.

Desorption and regeneration tower inside is divided into heating material section and cooling section from top to bottom.Carbon base catalyst after absorption regenerates in desorption and regeneration tower after adding thermal desorption gets back to adsorption tower, realizes the reuse of material.Material after desorption and regeneration enters shaking screen screening removing dust and wear particle.

Carbon base catalyst conveyer can carry out simultaneously level, vertically, horizontal feed again, on a conveyer, realize multiple feed and discharging simultaneously.This supporting conveyor apparatus can the loss of minimum degree reduction to material.

Nitrogen system provides the carrier gas of the protection needed for desorption; Described air heating system adopts electrical heating that air circulating-heating is reached 500 ~ 600 DEG C, and high temperature air is as the thermal source carrier gas of desorption and regeneration tower; Described cooling water system carries out circulating cooling to desulfurization adsorption tower and desorption and regeneration Ta Tanei flue gas.

Feed supplement storehouse is furnished with between the material discharge valve of denitration adsorption tower and desorption and regeneration tower feed valve, the fresh carbon base catalyst supplemented delivers to desorption and regeneration tower, for the carbon base catalyst of supplementary wearing and tearing by desorption and regeneration tower chain transfer together with the carbon base catalyst under discharging.Fresh carbon base catalyst removes moisture content by desorption and regeneration tower, and the carbon base catalyst under discharging is through the regeneration of desorption and regeneration tower, and the two send desulfurization and denitration adsorption tower together after shaking screen.

Flue gas is carried out to the method for desulphurization denitration, is jointly realized by desulfurization denitration method and carbon base catalyst renovation process, it is characterized in that, comprise the following steps:

(1) desulfurization denitration method

Heat smoke (100 ~ 120 DEG C) from boiler enters desulfurization adsorption tower through desulfurization adsorption column inlet header, and the flue gas after desulfurization enters flue through desulfurization adsorption column outlet header; Denitration adsorption tower is entered by denitration adsorption column inlet header after fully mixing from the flue gas after the ammonia of ammonia dilution system adsorbs with desulfurization in flue, flue gas after denitration adsorption cleaning enters neat stress pipeline by its outlet header, and then passes through smoke stack emission.

(2) carbon base catalyst renovation process

1. SO has been adsorbed in desulfurization adsorption tower and denitration adsorption tower ₂and the carbon base catalyst of NOx enters desorption column chain transfer by the discharge valve of side under tower, then enters desorption and regeneration tower hopper;

2. simultaneously, air heating system adopts electrical heating by air circulating-heating to about 500 ~ 600 DEG C, and high temperature air is that desorption and regeneration tower carbon base catalyst heating material is to 400 ~ 450 DEG C.Carbon base catalyst completes desorption and regeneration in tower, the SO that regeneration produces ₂remove SO ₂utilize device (24).Carbon base catalyst after regeneration sieves out through shaking screen the powder that the dust that adsorbs in desulphurization denitration process and self wearing and tearing produce, and then delivers to desulfurization adsorption tower through adsorption tower chain transfer (19) and denitration adsorption tower recycles.

SO is removed through desulfurization adsorption tower ₂after flue gas still containing the SO of minute quantity ₂, can continue removing of SO2 after this strand of flue gas enters denitration adsorption tower, achieve cascade towers, the system that further increases is to SO in flue gas ₂removal efficiency.

The carbon base catalyst of discharging bottom denitration adsorption tower also carries out desorption and regeneration.Flue gas after the purification of desulfurization adsorption tower continues to enter denitration adsorption tower and carries out denitration reaction, this process has ammonium sulfate to produce and is adsorbed on carbon base catalyst surface, in denitration adsorption tower, the discharge valve of carbon base catalyst bottom it of absorption enters desorption and regeneration tower chain transfer (18) and delivers to desorption and regeneration tower, and in regenerative process, the ammonium sulfate molecule of carbon base catalyst adsorption decomposes.This process will reduce regeneration off gases CO greatly ₂generation, and then reduce the loss of carbon base catalyst.

Desulfurization absorption tower adsorbs produces H ₂s0 ₄, denitration adsorption tower catalytic reduction produce ammonium sulfate, achieve low-carbon emission in desorption and regeneration process, belong to a kind of low-carbon (LC) system for desulfuration and denitration and method.

Desulfurization adsorption tower, denitration adsorption tower two tower be arranged in parallel, achieve that flue gas is arranged in series, carbon base catalyst material is arranged in parallel.Owing to mainly there is catalytic reduction reaction in denitration adsorption tower, therefore material translational speed in tower is relatively slow, reduces material wearing and tearing in denitration adsorption tower.

Can compare according to carbon base catalyst and ammonia cost ratio and determine desulfurization adsorption tower and denitration adsorption tower sharing of load situation, also can according to NOx/SO in flue gas ₂comparision contents flexible modulation desulphurization denitration load, makes system operation cost minimum.

System operation method is relatively more flexible, at desulfurizing tower porch spray ammonia, can make in the operation of whole system for desulfuration and denitration without CO ₂produce, effectively reduce carbon base catalyst wearing and tearing, system operation cost will reduce greatly.

The fresh carbon base catalyst material that feed supplement storehouse supplements also is sent in desorption and regeneration tower by desorption and regeneration tower chain transfer, the self-contained moisture of carbon base catalyst is evaporated under desorption and regeneration tower hot conditions, the material entering desulfurization and denitration adsorption tower is kept dry state, and optimize the system operation condition.

Claims (7)

1. a carbon base catalyst system for desulfuration and denitration, this system comprises flue gas system (A), desulfurization adsorption system (B), denitration adsorption system (C), carbon base catalyst conveyer system (E), nitrogen system (F), ammonia dilution system (G), cooling water system (I), be formed by connecting by pipeline between each system, it is characterized in that: also comprise carbon base catalyst regenerative system (D) and air heating system (H);

Described flue gas system (A) comprises former flue gas input channel (25), mixed flue gas pipeline (26), neat stress discharge tube (27), desulfurization adsorption column inlet header (2) and outlet header (3), denitration adsorption column inlet header (8) and outlet header (9);

Described desulfurization adsorption system (B) comprises desulfurization adsorption tower (1), desulfurization adsorption tower liftout bucket (4), material feed valve (5), material discharge valve (6); Desulfurization adsorption tower liftout bucket, material feed valve, desulfurization adsorption tower, material discharge valve are arranged successively from top to bottom;

Described denitration adsorption tower system (C) comprises denitration adsorption tower (7), denitration adsorption tower liftout bucket (10), material feed valve (11), material discharge valve (12); Denitration adsorption tower liftout bucket, material feed valve, denitration adsorption tower, material discharge valve are arranged successively from top to bottom; Described denitration adsorption tower and described desulfurization adsorption tower are arranged in series;

Described carbon base catalyst regenerative system (D) comprises desorption and regeneration tower (13), desorption and regeneration tower top hopper (14), material feed valve (15), material discharge valve (16), shaking screen (17); Desorption and regeneration tower top hopper, material feed valve, denitration adsorption tower, material discharge valve, shaking screen are arranged successively from top to bottom;

Desulfurization adsorption tower (1) and the parallel setting of denitration adsorption tower (7), former flue gas is delivered to desulfurization adsorption tower (1) by flue gas system (A) and carries out desulfurization process, the rear flue gas of process is delivered to denitration adsorption tower (7) again and carries out denitration process, processes neat stress up to standard and discharges through discharge tube; Carbon base catalyst after regeneration delivers to denitration adsorption tower respectively by adsorption tower chain transfer (19) after shaking screen screening and desulfurization adsorption tower recycles.

2. system for desulfuration and denitration as claimed in claim 1, it is characterized in that: described desulfurization adsorption tower is many bins structure, desulfurization adsorption tower is separated into four to eight bins by waterbaffle and porous plate by this many bins structure, porous plate is arranged perpendicular to flue gas flow direction, and waterbaffle is parallel to flue gas flow direction and arranges; The corresponding each bin in desulfurization adsorption tower top is provided with a feed valve, and the corresponding each bin in bottom is respectively equipped with a discharge valve.

3. system for desulfuration and denitration as claimed in claim 1 or 2, it is characterized in that: between the material discharge valve of denitration adsorption tower and desorption and regeneration tower feed valve pipeline, be furnished with fresh material feed supplement storehouse (20), fresh carbon base catalyst sends into desorption and regeneration tower together with the carbon base catalyst after absorption, delivers to denitration adsorption tower respectively and desulfurization adsorption tower utilizes after process after shaking screen screening by adsorption tower chain transfer (19).

4. system for desulfuration and denitration as claimed in claim 3, is characterized in that: described desorption and regeneration tower inside is divided into heating material section and cooling section from top to bottom.

5. system for desulfuration and denitration as claimed in claim 3, is characterized in that: described air heating system (H) comprises high temperature air blower fan (22) and air heater (23).

6. system for desulfuration and denitration as claimed in claim 3, is characterized in that: described carbon base catalyst conveyer system (E) comprises two Z-type material chain transfers, carries carbon base catalyst respectively to denitration adsorption tower and desulfurization adsorption tower; Described nitrogen system (F) comprises PSA nitrogen making machine, nitrogen buffer tank, nitrogen heater; Nitrogen system is connected to desulfurization and denitration adsorption tower, for desorption provides required protection carrier gas; Described ammonia dilution system (G) comprises liquid ammonia steel bottle, liquid ammonia vaporization device, ammonia surge tank; Described cooling water system (I) comprises cooling tower and corresponding water pump, is respectively desulfurization adsorption tower and desorption and regeneration tower supply cooling water, carries out circulating cooling to flue gas in desulfurization adsorption tower and desorption and regeneration tower.

7. system for desulfuration and denitration as claimed in claim 3, is characterized in that: be provided with ammonia-gas spraying device, for spraying into ammonia before described denitration adsorption tower smoke inlet header.