CN110465178A

CN110465178A - Flue gas desulfurization device

Info

Publication number: CN110465178A
Application number: CN201810439038.7A
Authority: CN
Inventors: 胡永彬; 王玉海; 孙建仁; 景小军; 宋延玲
Original assignee: Xinjiang North Construction Group Co Ltd
Current assignee: Xinjiang North Construction Group Co Ltd
Priority date: 2018-05-09
Filing date: 2018-05-09
Publication date: 2019-11-19
Anticipated expiration: 2038-05-09
Also published as: CN110465178B

Abstract

The invention discloses flue gas desulfurization devices, including air inlet pipe, waste heat recycling bins, thermal energy converter, calcium oxide particle, sodium hydroxide solution, atomizer and methyllanthionine solution, the air inlet pipe is mounted on the air inlet being arranged on the left of waste heat recycling bins, the inside of the waste heat recycling bins is equipped with flue dust strainer, heat absorbing conduit is installed inside waste heat recycling bins on the right side of the flue dust strainer, the left end of the heat absorbing conduit is mounted on the water outlet of the first delivery pump, water tank is installed on the right side of first delivery pump, thermal energy converter is installed on the right side of the water tank, gas pipeline is installed on gas outlet on the right side of the waste heat recycling bins, gasing pump is installed on the gas pipeline.The present invention solves the problem of removing of the sulphur in flue gas is insufficient, and flue gas still contains a large amount of dust after treatment.

Description

Flue gas desulfurization device

Technical field

The present invention relates to flue gas desulfurization device technical fields, specially flue gas desulfurization device.

Background technique

Flue gas desulfurization (FGD) is industrial trade large-scale application, effective sulfur method.According to sulphur compound absorbent and The form of byproduct, desulfurization technology can be divided into dry method, semidry method and three kinds of wet process.Dry desulfurizing process mainly utilizes solid to inhale The SO2 in agent removal flue gas is received, generally limestone fines are sprayed into burner hearth, it is made to be thermally decomposed into CaO, are absorbed in flue gas SO2 generates CaSO3, collects together with flying dust in deduster or is discharged through chimney.Wet process of FGD is using liquid-absorbant Gas liquid reaction under ionic conditions, and then the SO2 in flue gas is removed, system device therefor is simple, stable and reliable operation, desulfurization It is high-efficient.The great advantage of dry desulfurization is the discharge without waste water, spent acid in administering, and reduces secondary pollution；The disadvantage is that desulfurization Low efficiency, equipment are huge.Wet desulphurization uses liquid-absorbant washing flue gas to remove SO2, and device therefor is fairly simple, operation It is easy, desulfuration efficiency is high；But flue gas after desulfurization temperature is lower, and the corrosion of equipment is serious compared with dry method.

But existing flue gas desulfurization device has the following deficiencies:

1. existing flue gas desulfurization device, in sweetening process, the sulphur in flue gas is removed insufficient；

2. existing flue gas desulfurization device, flue gas still containing a large amount of dust etc., is discharged into outside outside contamination after treatment Boundary's environment.

Summary of the invention

(1) the technical issues of solving

In view of the deficiencies of the prior art, the present invention provides flue gas desulfurization device, the sulphur removing solved in flue gas is not filled Point, flue gas after treatment still contain a large amount of dust the problem of.

(2) technical solution

To achieve the above object, the invention provides the following technical scheme: flue gas desulfurization device, including air inlet pipe, waste heat return Case, thermal energy converter, calcium oxide particle, sodium hydroxide solution, atomizer and methyllanthionine solution, the air inlet pipe is received to be mounted on On the air inlet being arranged on the left of waste heat recycling bins, the inside of the waste heat recycling bins is equipped with flue dust strainer, the flue dust strainer Heat absorbing conduit is installed, the left end of the heat absorbing conduit is mounted on the water outlet of the first delivery pump inside the waste heat recycling bins on right side On, water tank is installed on the right side of first delivery pump, thermal energy converter, the waste heat are installed on the right side of the water tank Gas pipeline is installed on the gas outlet on the right side of recycling bins, gasing pump, the gasing pump right side are installed on the gas pipeline Gas pipeline on calcium oxide storage bin is installed, equally distributed calcium oxide particle is filled in the calcium oxide storage bin, Fluid reservoir is installed, the inside of the fluid reservoir is filled with sodium hydroxide solution, the storage on the right side of the calcium oxide storage bin Digester is installed, the inside of the digester is equipped with sparge pipe, and atomization spray is equipped on the sparge pipe on the right side of flow container Head, the tank bottom of atomizer lower part digester are equipped with liquid reserve tank, and the inside of the liquid reserve tank is loaded with methyllanthionine solution.

Preferably, the lower part on the left of the flue dust strainer is equipped with disposal box, and the disposal box is mounted on waste heat recycling bins On the shell of lower part.

Preferably, first delivery pump is interconnected by drinking-water pipe and water tank, and the water tank passes through connecting tube It is interconnected with thermal energy converter, the water inlet and heat absorbing conduit right end of thermal energy converter lower part are interconnected.

Preferably, the calcium oxide storage bin and fluid reservoir are interconnected by gas pipeline, and the hydrogen inside liquid storage pipe Most significant end of the liquid level on sodium hydroxide solution top lower than gas pipeline between calcium oxide storage bin and fluid reservoir.

Preferably, the fluid reservoir and digester are interconnected by gas pipeline, and gas pipeline passes through digester Outer wall extends to the middle position of digester atomized inside spray head lower part.

Preferably, the sparge pipe is interconnected by ammonia water pipeline and liquid reserve tank, and second is equipped in ammonia water pipeline Delivery pump.

Preferably, the atomizer is distributed at equal intervals on sparge pipe, and atomizer and sparge pipe are interconnected.

Preferably, demister, the outlet on the digester top are installed on the inner wall of sparge pipe top digester On smoke exhaust fan is installed.

Preferably, the thermal energy converter and extraneous battery are electrically connected by passing to line.

The invention also provides the application methods of flue gas desulfurization device, which comprises the following steps:

S1: flue gas enters in waste heat recycling bins from air inlet pipe, and flue dust strainer filtering falls dust or particulate matter in flue gas etc., The dust or particulate matter filtered out is scattering into dirt case；

S2: filtered flue gas passes through flue dust strainer, and the first conveying pump operation is by the heat absorption liquid in water tank from drinking-water pipe It is transported in heat absorbing conduit, heat absorption liquid runs the thermal energy absorbed in flue gas in heat absorbing conduit, and the heat absorption liquid after absorbing thermal energy is defeated It is sent in thermal energy converter, the thermal energy in heat absorption liquid is converted to electric energy by the operation of thermal energy converter, and is transported to external electric power storage Chi Zhong improves the utilization rate of the energy, and the heat absorption liquid after releasing thermal energy is transported in water tank from connecting tube to be recycled；

S3: the flue gas after recycling thermal energy is transported in calcium oxide particle by gas pipeline, two in calcium oxide and flue gas Sulfur oxide reaction removes the sulfide in flue gas；

S4: treated, and flue gas is being transported to the vulcanization removed again in flue gas in sodium hydroxide solution by gas pipeline Object；

S5: treated, and flue gas is transported in digester by gas pipeline, and the second conveying pump operation is molten by methyllanthionine Liquid is transported in sparge pipe by ammonia water pipeline, and methyllanthionine solution is sprayed from atomizer, removes the vulcanization in flue gas again Object；

S6: simultaneously smoke exhaust fan is run, and extracts the flue gas in digester, and flue gas is disposed in flue gas by demister Methyllanthionine solution after, be discharged into the external world from smoke exhaust fan.

(3) beneficial effect

The present invention provides flue gas desulfurization device, have it is following the utility model has the advantages that

(1) when present invention operation, filtered flue gas passes through flue dust strainer, and the first delivery pump, operation will be in water tank Heat absorption liquid is transported in heat absorbing conduit from drinking-water pipe, and heat absorption liquid runs the thermal energy absorbed in flue gas in heat absorbing conduit, absorbs heat Heat absorption liquid after energy is transported in thermal energy converter, and the thermal energy in heat absorption liquid is converted to electric energy by the operation of thermal energy converter, and defeated It is sent in external battery, improves the utilization rate of the energy, the heat absorption liquid after releasing thermal energy is transported to water tank from connecting tube It inside recycles, the flue gas after recycling thermal energy is transported in calcium oxide particle by gas pipeline, two in calcium oxide and flue gas Sulfur oxide reaction removes the sulfide in flue gas, and treated, and flue gas is transported in sodium hydroxide solution again by gas pipeline Sulfide in secondary removing flue gas, treated, and flue gas is transported in digester by gas pipeline, the second conveying pump operation Methyllanthionine solution is transported in sparge pipe by ammonia water pipeline, methyllanthionine solution is sprayed from atomizer, removes cigarette again Sulfide in gas, simultaneously smoke exhaust fan is run, and extracts the flue gas in digester, and flue gas disposes flue gas by demister In methyllanthionine solution after, be discharged into the external world from smoke exhaust fan, repeatedly remove flue gas in sulfide, sulfide remove thoroughly, It solves in sweetening process, the sulphur in flue gas removes insufficient problem.

(2) present invention passes through the flue dust strainer of setting, and flue gas enters in waste heat recycling bins from air inlet pipe, flue dust strainer filtering Fall dust or the particulate matter etc. in flue gas, the dust or particulate matter filtered out is scattering into dirt case, and structure is simple, simple and convenient By in flue gas dust or particulate matter dispose, effectively avoid dust or Particulate Pollution external environment, solve cigarette The problem of gas still contains a large amount of dust etc. after treatment, is discharged into outside contamination external environment.

Detailed description of the invention

Fig. 1 is schematic structural view of the invention；

Fig. 2 is the structural schematic diagram of thermal energy converter of the present invention.

In figure: 1 air inlet pipe, 2 waste heat recycling bins, 3 flue dust strainers, 4 disposal boxes, 5 first delivery pumps, 6 water tanks, 7 thermal energy Converter, 8 gas pipelines, 9 gasing pumps, 10 calcium oxide storage bins, 11 calcium oxide particles, 12 fluid reservoirs, 13 sodium hydroxide solutions, 14 digesters, 15 sparge pipes, 16 atomizers, 17 liquid reserve tanks, 18 methyllanthionine solution, 19 ammonia water pipelines, 20 second delivery pumps, 21 Demister, 22 smoke exhaust fans, 23 heat absorbing conduits, 24 drinking-water pipes, 25 connecting tubes.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

It please refers to shown in Fig. 1-2, a kind of embodiment provided by the invention；Flue gas desulfurization device, including air inlet pipe 1, waste heat Recycling bins 2, thermal energy converter 7, calcium oxide particle 11, sodium hydroxide solution 13, atomizer 16 and methyllanthionine solution 18, air inlet Pipe 1 is mounted on the air inlet being arranged on the left of waste heat recycling bins 2, and the inside of waste heat recycling bins 2 is equipped with flue dust strainer 3, flue dust The lower part in 3 left side of strainer is equipped with disposal box 4, and disposal box 4 is mounted on the shell of 2 lower part of waste heat recycling bins, and flue dust strainer 3 is right Heat absorbing conduit 23 is installed, the left end of heat absorbing conduit 23 is mounted on the water outlet of the first delivery pump 5 inside the waste heat recycling bins 2 of side On, the right side of the first delivery pump 5 is equipped with water tank 6, and the right side of water tank 6 is equipped with thermal energy converter 7, thermal energy converter 7 It is electrically connected with extraneous battery by passing to line, the first delivery pump 5 is interconnected by drinking-water pipe 24 and water tank 6, water storage Case 6 is interconnected by connecting tube 25 and thermal energy converter 7, the water inlet and 23 right end of heat absorbing conduit of 7 lower part of thermal energy converter It is interconnected, gas pipeline 8 is installed on the gas outlet on 2 right side of waste heat recycling bins, gasing pump 9 is installed on gas pipeline 8, it is defeated Calcium oxide storage bin 10 is installed on the gas pipeline 8 on 9 right side of air pump, calcium oxide storage bin 10 and fluid reservoir 12 pass through appendix Road 8 is interconnected, and the liquid level on 13 top of sodium hydroxide solution inside liquid storage pipe 12 is lower than calcium oxide storage bin 10 and liquid storage The most significant end of gas pipeline 8 between tank 12, calcium oxide storage bin 10 is interior to be filled with equally distributed calcium oxide particle 11, calcium oxide The right side of storage bin 10 is equipped with fluid reservoir 12, and the inside of fluid reservoir 12 is filled with sodium hydroxide solution 13, the right side of fluid reservoir 12 Side is equipped with digester 14, fluid reservoir 12 and digester 14 and is interconnected by gas pipeline 8, and gas pipeline 8 passes through desulfurization The outer wall of tank 14 extends to the middle position of 14 atomized inside spray head of digester, 16 lower part, and the inside of digester 14 is equipped with spray Liquid pipe 15, sparge pipe 15 is interconnected by ammonia water pipeline 19 and liquid reserve tank 17, and the second conveying is equipped in ammonia water pipeline 19 20 are pumped, atomizer 16 is installed on sparge pipe 15, atomizer 16 is distributed at equal intervals on sparge pipe 15, and atomizer 16 are interconnected with sparge pipe 15, and demister 21,14 top of digester are equipped on the inner wall of 15 top digester 14 of sparge pipe Outlet on smoke exhaust fan 22 is installed, the tank bottom of 16 lower part digester 14 of atomizer is equipped with liquid reserve tank 17, liquid reserve tank 17 Inside be loaded with methyllanthionine solution 18.

S1: flue gas enters in waste heat recycling bins 2 from air inlet pipe 1, and flue dust strainer 3 filters out dust or particulate matter in flue gas Deng the dust or particulate matter filtered out is scattering into dirt case 4；

S2: filtered flue gas passes through flue dust strainer 3, and the operation of the first delivery pump 5 is by the heat absorption liquid in water tank 6 from drawing water Pipe 24 is transported in heat absorbing conduit 23, and heat absorption liquid runs the thermal energy absorbed in flue gas in heat absorbing conduit 23, after absorbing thermal energy Heat absorption liquid is transported in thermal energy converter 7, and the thermal energy in heat absorption liquid is converted to electric energy by the operation of thermal energy converter 7, and is transported to In external battery, the utilization rate of the energy is improved, the heat absorption liquid after releasing thermal energy is transported in water tank 6 from connecting tube 25 It recycles；

S3: the flue gas after recycling thermal energy is transported in calcium oxide particle 11 by gas pipeline 8, in calcium oxide and flue gas The sulfide in flue gas is removed in sulfur dioxide reaction；

S4: treated flue gas is removed in flue gas again being transported in sodium hydroxide solution 13 by gas pipeline 8 Sulfide；

S5: treated, and flue gas is transported in digester 14 by gas pipeline 8, and the second delivery pump 20 is run sulphur ammonia Acid solution 18 is transported in sparge pipe 15 by ammonia water pipeline 19, and methyllanthionine solution 18 is sprayed from atomizer 16, again clearly Except the sulfide in flue gas；

S6: simultaneously smoke exhaust fan 22 is run, and extracts the flue gas in digester 14, and flue gas is disposed by demister 21 After methyllanthionine solution 18 in flue gas, the external world is discharged into from smoke exhaust fan 22.

Working principle: when the present invention is run, flue gas enters in waste heat recycling bins 2 from air inlet pipe 1, and flue dust strainer 3 filters out Dust or particulate matter in flue gas etc., the dust or particulate matter filtered out are scattering into dirt case 4, and filtered flue gas passes through cigarette Heat absorption liquid in water tank 6 is transported in heat absorbing conduit 23 by dirt strainer 3, the first delivery pump 5, operation from drinking-water pipe 24, is absorbed heat Liquid runs the thermal energy absorbed in flue gas in heat absorbing conduit 23, and the heat absorption liquid after absorbing thermal energy is transported in thermal energy converter 7, heat Thermal energy in heat absorption liquid is converted to electric energy by the energy operation of converter 7, and is transported in external battery, and the utilization of the energy is improved Rate, the heat absorption liquid after releasing thermal energy is transported in water tank 6 from connecting tube 25 to be recycled, and the flue gas after recycling thermal energy passes through Gas pipeline 8 is transported in calcium oxide particle 11, and calcium oxide reacts the sulfide removed in flue gas with the sulfur dioxide in flue gas, Treated, and flue gas is being transported to the sulfide removed again in flue gas in sodium hydroxide solution 13 by gas pipeline 8, handles Flue gas afterwards is transported in digester 14 by gas pipeline 8, and methyllanthionine solution 18 is passed through ammonia by the operation of the second delivery pump 20 Waterpipe 19 is transported in sparge pipe 15, and methyllanthionine solution 18 is sprayed from atomizer 16, removes the vulcanization in flue gas again Object, simultaneously smoke exhaust fan 22 is run, and extracts the flue gas in digester 14, and flue gas is disposed in flue gas by demister 21 After methyllanthionine solution 18, the external world is discharged into from smoke exhaust fan 22.

It can to sum up obtain, the present invention passes through the air inlet pipe 1 of setting, waste heat recycling bins 2, thermal energy converter 7, calcium oxide particle 11, sodium hydroxide solution 13, atomizer 16 and methyllanthionine solution 18, the sulphur removing solved in flue gas is insufficient, and flue gas exists The problem of still containing a large amount of dust after processing.

It should be noted that, in this document, relational terms such as first and second and the like are used merely to a reality Body or operation are distinguished with another entity or operation, are deposited without necessarily requiring or implying between these entities or operation In any actual relationship or order or sequence.Moreover, the terms "include", "comprise" or its any other variant are intended to Non-exclusive inclusion, so that the process, method, article or equipment including a series of elements is not only wanted including those Element, but also including other elements that are not explicitly listed, or further include for this process, method, article or equipment Intrinsic element.

It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with A variety of variations, modification, replacement can be carried out to these embodiments without departing from the principles and spirit of the present invention by understanding And modification, the scope of the present invention is defined by the appended.

Claims

1. flue gas desulfurization device, including air inlet pipe (1), waste heat recycling bins (2), thermal energy converter (7), calcium oxide particle (11), Sodium hydroxide solution (13), atomizer (16) and methyllanthionine solution (18), it is characterised in that: the air inlet pipe (1) is mounted on On the air inlet being arranged on the left of waste heat recycling bins (2), the inside of the waste heat recycling bins (2) is equipped with flue dust strainer (3), described It is equipped with heat absorbing conduit (23) inside waste heat recycling bins (2) on the right side of flue dust strainer (3), the left end peace of the heat absorbing conduit (23) On the water outlet of the first delivery pump (5), water tank (6), the water tank are installed on the right side of first delivery pump (5) (6) it is equipped on the right side of thermal energy converter (7), gas pipeline is installed on the gas outlet on the right side of the waste heat recycling bins (2) (8), it is equipped with gasing pump (9), is installed on the gas pipeline (8) on the right side of the gasing pump (9) aerobic on the gas pipeline (8) Change calcium storage bin (10), is filled with equally distributed calcium oxide particle (11) in the calcium oxide storage bin (10), the oxidation It is equipped on the right side of calcium storage bin (10) fluid reservoir (12), the inside of the fluid reservoir (12) is filled with sodium hydroxide solution (13), it is equipped with digester (14) on the right side of the fluid reservoir (12), the inside of the digester (14) is equipped with sparge pipe (15), it is equipped with atomizer (16) on the sparge pipe (15), the tank bottom of atomizer (16) the lower part digester (14) It is equipped with liquid reserve tank (17), the inside of the liquid reserve tank (17) is loaded with methyllanthionine solution (18).

2. flue gas desulfurization device according to claim 1, it is characterised in that: the lower part peace on the left of the flue dust strainer (3) Equipped with disposal box (4), the disposal box (4) is mounted on the shell of waste heat recycling bins (2) lower part.

3. flue gas desulfurization device according to claim 1, it is characterised in that: first delivery pump (5) passes through drinking-water pipe (24) it is interconnected with water tank (6), the water tank (6) is interconnected by connecting tube (25) and thermal energy converter (7), institute The water inlet and heat absorbing conduit (23) right end for stating thermal energy converter (7) lower part are interconnected.

4. flue gas desulfurization device according to claim 1, it is characterised in that: the calcium oxide storage bin (10) and fluid reservoir (12) it is interconnected by gas pipeline (8), and the liquid level on sodium hydroxide solution (13) top of liquid storage pipe (12) inside is lower than The most significant end of gas pipeline (8) between calcium oxide storage bin (10) and fluid reservoir (12).

5. flue gas desulfurization device according to claim 1, it is characterised in that: the fluid reservoir (12) and digester (14) are logical It crosses gas pipeline (8) to be interconnected, and outer wall of the gas pipeline (8) across digester (14) extends to the internal mist of digester (14) Change the middle position of spray head (16) lower part.

6. flue gas desulfurization device according to claim 1, it is characterised in that: the sparge pipe (15) passes through ammonia water pipeline (19) it is interconnected with liquid reserve tank (17), and the second delivery pump (20) is installed in ammonia water pipeline (19).

7. flue gas desulfurization device according to claim 1, it is characterised in that: the atomizer (16) is distributed at equal intervals On sparge pipe (15), and atomizer (16) and sparge pipe (15) are interconnected.

8. flue gas desulfurization device according to claim 1, it is characterised in that: sparge pipe (15) the top digester (14) Inner wall on be equipped with demister (21), smoke exhaust fan (22) are installed in the outlet on digester (14) top.

9. flue gas desulfurization device according to claim 1, it is characterised in that: the thermal energy converter (7) and extraneous electric power storage Pond is electrically connected by passing to line.

10. the invention also provides the application methods of flue gas desulfurization device, which comprises the following steps:

(S1): flue gas enters in waste heat recycling bins (2) from air inlet pipe (1), flue dust strainer (3) filter out dust in flue gas or Grain object etc., the dust or particulate matter filtered out is scattering into dirt case (4)；

(S2): filtered flue gas pass through flue dust strainer (3), the first delivery pump (5) operation by the heat absorption liquid in water tank (6) from Drinking-water pipe (24) is transported in heat absorbing conduit (23), and heat absorption liquid operation in heat absorbing conduit (23) absorbs the thermal energy in flue gas, is inhaled Heat absorption liquid after receiving thermal energy is transported in thermal energy converter (7), and thermal energy converter (7) operation is converted to the thermal energy in heat absorption liquid Electric energy, and being transported in external battery, improves the utilization rate of the energy, and the heat absorption liquid after releasing thermal energy is from connecting tube (25) It is transported in water tank (6) and recycles；

(S3): the flue gas after recycling thermal energy is transported in calcium oxide particle (11) by gas pipeline (8), in calcium oxide and flue gas Sulfur dioxide reaction remove flue gas in sulfide；

(S4): treated flue gas is removed in flue gas again being transported in sodium hydroxide solution (13) by gas pipeline (8) Sulfide；

(S5): treated, and flue gas is being transported in digester (14) by gas pipeline (8), and the second delivery pump (20) operation will Methyllanthionine solution (18) is transported in sparge pipe (15) by ammonia water pipeline (19), and methyllanthionine solution (18) is from atomizer (16) it sprays, removes the sulfide in flue gas again；

(S6): simultaneously smoke exhaust fan (22) is run, and extracts the flue gas in digester (14), and flue gas is clear by demister (21) After removing the methyllanthionine solution (18) in flue gas, the external world is discharged into from smoke exhaust fan (22).