CN206682971U - A kind of flue gas waste heat recovery apparatus - Google Patents
A kind of flue gas waste heat recovery apparatus Download PDFInfo
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- CN206682971U CN206682971U CN201720472293.2U CN201720472293U CN206682971U CN 206682971 U CN206682971 U CN 206682971U CN 201720472293 U CN201720472293 U CN 201720472293U CN 206682971 U CN206682971 U CN 206682971U
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- flue gas
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E20/00—Combustion technologies with mitigation potential
- Y02E20/30—Technologies for a more efficient combustion or heat usage
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Abstract
The utility model discloses a kind of flue gas waste heat recovery apparatus, including nine grades of turn flues and the demister being arranged on nine grades of turn flues, water inlet pipe on the demister is provided with high-pressure pump, nozzle is provided with below the demister and nozzle and smoke flow direction are into 60 degree of angles, the pipeline of nine grades of turn flues bottom is provided with condensation of water pipeline, the condensation of water pipeline leads to slurry pool, heat pipe is provided with the slurry pool, the heat pipe is connected with boiler recirculated water return pipe, the boiler recirculated water return pipe is provided with circulating pump, the boiler recirculated water return pipe leads to the heating of storage pond, the boiler of conveying, so that boiler blow-down water temperature raises, reach recovery heat.After the utility model is by desulphurization and denitration, dust collecting process, above the passage of flue gas above 60 degree of angles, add water atomization heat sink, after the heat of flue gas is absorbed by device, low-heat fume emission, 20 degree or so discharges, every cube of flue gas mass 1.256kg, 0.1668 kilocalorie of heat are dropped to from 160 degree.
Description
Technical field
It the utility model is related to waste heat recovering energy conserving technical field, more particularly to a kind of flue gas waste heat recovery apparatus.
Background technology
13 planning propose, are decline 15% on energy consumption basis in 2015, and energy consumption keeps 5,000,000,000 tons of standard coals of total amount.Together
When, China adds Paris agreement, promises to undertake that the year two thousand thirty fossil energy declines 60-65%, and control ocean temperature rise is no more than 2 degree,
Global combusts fossil energy overall control is in 17,500,000,000 tons of standard coals.
In the operation of coal-burning boiler, fume afterheat resources loss is most important residual heat resources loss, accounts for boiler
The 60%~70% of residual heat resources loss.Exhaust gas temperature is the principal element for influenceing fume afterheat resources loss, and China makes at present
Design temperature is generally higher than with the enterprise practical exhaust gas temperature of boiler, generally, exhaust gas temperature often reduces 10 DEG C, more than flue gas
Thermal resource loss reduces 0.6%~1%, accordingly saves coal consumption 1.2%~2.4%, remarkable in economical benefits.In addition, reduce smoke evacuation
Temperature is significant to improving desulfuration efficiency, saving desulfurization water, and the optimal desulfurization temperature of wet desulphurization is 80~90 DEG C, in order to
Ensure desulfuration efficiency, it is necessary to which about 166 DEG C of exhaust gas temperature is reduced into 80-90 DEG C using cold water before flue gas enters desulphurization system
Enter back into desulfurizing tower and carry out desulfurization process, it is necessary to consume substantial amounts of water resource during flue gas cool-down, not only aggravated de-
The burden of sulphur system, and waste a large amount of residual heat resources contained in flue gas.
Meanwhile silver bromide vaporation-type unit is generally used in industry, cost is high, and recovery is slow, and enterprise investment pressure is big, one
70MW residual heat from boiler fume recovery unit needs 3,000,000 yuan of investment, 3 years payoff periods.One 70MW boiler of heat pipe-type recovery technology
Recuperation of heat unit invests 100,000 yuan, invests then, then cost-recovering, gets out of the red.It is big that 70MW boiler hots reclaim heat every year
Ten thousand yuan or so of about 100-150.
Utility model content
Based on technical problem existing for background technology, the utility model proposes a kind of flue gas waste heat recovery apparatus.
The utility model proposes a kind of flue gas waste heat recovery apparatus, including nine grades of turn flues and be arranged on nine grades and turn
Demister on curved flue, the water inlet pipe on the demister are provided with high-pressure pump, nozzle and spray are provided with below the demister
Mouth is with smoke flow direction into 60 degree of angles, and described nine grades of turn flues one end is smoke inlet, the other end is exhanst gas outlet, institute
The pipeline for stating nine grades of turn flue bottoms is provided with condensation of water pipeline and the condensation trap being arranged on condensation of water pipeline, institute
To state condensation of water pipeline and lead to slurry pool, heat pipe is provided with the slurry pool, the heat pipe is connected with boiler recirculated water return pipe,
The boiler recirculated water return pipe is provided with circulating pump, and the boiler recirculated water return pipe leads to storage pond.
Preferably, nine grades of turn flues are nine sections of bend pipes, and the demister is arranged on since smoke inlet
Two sections of bend pipes.
Preferably, it is provided with smog heat recovery holder in the storage pond.
Preferably, the slurry pool bottom is provided with outlet valve.
A kind of waste heat recovery operating method of flue gas waste heat recovery apparatus, including following operating method:
1) heat is absorbed:Flue gas after desulphurization and denitration, dust collecting process is passed through from smoke inlet, open demister and
High-pressure pump, flue gas mix with water smoke, and water smoke absorption flue gas heat formation water droplet flows back in nine grades of turn flues forms heat water;
2) heat Water Sproading:Condensation trap is opened, the heat water flows into slurry pool by condensation of water pipeline;
3) smog heat recovery:After temperature is higher than setting working value in slurry pool, circulating pump is started working, the water in heat pipe
Convection current is formed with storage water pool inner water, the heat that heat pipe is absorbed in slurry pool is taken in storage pond, stores the water in pond
Heating, smog heat recovery holder will just store the energy absorption of water pool inner water, when temperature is less than setting not work in slurry pool
After work value, circulating pump is stopped, the heat-exchange system installation automation control appliance that circulating pump 9 works.
In the utility model, 1, by desulphurization and denitration, dust collecting process after, above the passage of flue gas above 60 degree of angles,
Add water atomization heat sink, after the heat of flue gas is absorbed by device, low-heat fume emission, 20 degree or so rows are dropped to from 160 degree
Put, every cube of flue gas mass 1.256kg, 0.1668 kilocalorie of heat, flue gas waste heat recovery energy-saving potential is huge;
2nd, 60 degree of angles and use high-pressure pump atomized water spray above the passage of flue gas, according to mechanics principle, spraying force F is decomposed
Into F1 and F2, F1 accelerates flow of flue gas speed, and speed reaches 9m/s, improves 2 times of flow efficiencies, and F2 rinses the vapor of flue gas,
Because the inertial impaction of gas acts on, reach fast endothermic purpose;
3rd, heat pipe in slurry pool, heat pipe use fine copper outer spiral tube, the thermal conductivity factor of copper be up to 260-340 kilocalories/square
Meters per hour DEG C, and the design of smog heat recovery holder can preferably absorb smog waste heat, whole device operation
Simply, it is high to absorb conversion energy efficiency.
Brief description of the drawings
Fig. 1 be the utility model proposes a kind of flue gas waste heat recovery apparatus structural representation;
Fig. 2 is enlarged diagram at demister in Fig. 1 and high-pressure pump;
Fig. 3 is the mechanics schematic diagram that spraying force F resolves into F1 and F2;
In figure:Nine grades of turn flues of 1-, 2- smoke inlets, 3- exhanst gas outlets, 4- demisters, 41- nozzles, 42- water inlet pipes,
5- high-pressure pumps, 6- condensation of water pipeline, 61- condensation traps, 7- slurry pools, 71- outlet valves, 8- heat pipes, 9- circulating pumps, 10- boilers
Recirculated water return pipe, 11- storages pond, 12- smog heat recovery holders.
Embodiment
The utility model is made with reference to specific embodiment further to explain.
A kind of flue gas waste heat recovery apparatus, including nine grades of turn flues 1 and the demisting that is arranged on nine grades of turn flues 1
Device 4, the water inlet pipe 42 on demister 4 are provided with high-pressure pump 5, and the lower section of demister 4 is provided with nozzle 41 and nozzle 41 and smoke flow
Direction is into 60 degree of angles, and nine grades of one end of turn flue 1 are smoke inlet 2, the other end is exhanst gas outlet 3, nine grades of bottoms of turn flue 1
The pipeline at end is provided with condensation of water pipeline 6 and the condensation trap 61 being arranged on condensation of water pipeline 6, condensation of water pipeline 6
Lead to slurry pool 7, be provided with heat pipe 8 in slurry pool 7, heat pipe 8 is connected with boiler recirculated water return pipe 10, boiler recirculated water return pipe
10 are provided with circulating pump 9, and boiler recirculated water return pipe 10 leads to storage pond 11, and recirculated water return pipe leads to boiler so that pot
Stove return water temperature raises, and reaches recovery heat.
Nine grades of turn flues 1 are nine sections of bend pipes, and demister 4 is arranged on the second segment bend pipe since smoke inlet 2, storage
Smog heat recovery holder 12 is provided with pond 11, is provided with boiler in smog heat recovery holder 12, the bottom of slurry pool 7 is set
There is outlet valve 71.
A kind of waste heat recovery operating method of flue gas waste heat recovery apparatus, including following operating method:
1) heat is absorbed:Flue gas after desulphurization and denitration, dust collecting process is passed through from smoke inlet 2, open demister 4 with
And high-pressure pump 5, flue gas mixes with water smoke, and water smoke absorption flue gas heat formation water droplet flows back in nine grades of turn flues forms heat
Water;
2) heat Water Sproading:Condensation trap is opened, the heat water flows into slurry pool 7 by condensation of water pipeline 6;
3) smog heat recovery:Temperature is higher than (slurry pool water temperature is higher than backwater temperature after 70 degree of working value of setting in slurry pool 7
10 degree of degree), circulating pump 9 is started working, and the water in heat pipe 8 forms convection current with water in storage pond 11, and heat pipe 8 is absorbed into slurry pool
Heat in 7 is taken in storage pond 11, stores the water heating in pond 11, and smog heat recovery holder 12 will just store water
The energy absorption of water in pond 11, after temperature is less than 50 degree of nonoperate value of setting in slurry pool 7, circulating pump is stopped, and circulates
(circulating pump 9 works or operating temperature can not set according to operating condition for the heat-exchange system installation automation control appliance that pump 9 works
It is fixed), slurry pool water temperature is higher than 10 degree of return water temperature, and circulating pump is started working, and slurry pool water temperature is higher than 2 degree of stopping works of return water temperature
(2 degree of temperature difference heat exchange efficiencies are low, uneconomical, because recovery heat maintains an equal level with power consumption for work;10-20 degree temperature difference heat exchange efficiency is high,
Heat recovery is fast).
60 degree of angles and use high-pressure pump atomized water spray above the passage of flue gas, according to mechanics principle, spraying force F is resolved into
F1 and F2, F1 accelerate flow of flue gas speed, and speed reaches 9m/s, improve 2 times of flow efficiencies, and F2 rinses the vapor of flue gas, by
Acted in the inertial impaction of gas, reach fast endothermic purpose, water smoke is captured being acted on by identical, during flow of flue gas
Rapidly, continuously changed the direction of motion, receive the collective effect of inertia force and gravity, quickly by the drop carried secretly in flue gas point
Separate out and, form the backflow of heat water, significantly increase the removal probability of waste heat in flue gas.
It is described above, the only preferable embodiment of the utility model, but the scope of protection of the utility model is not
This is confined to, any one skilled in the art is in the technical scope that the utility model discloses, according to this practicality
New technical scheme and its utility model design are subject to equivalent substitution or change, should all cover in protection model of the present utility model
Within enclosing.
Claims (4)
1. a kind of flue gas waste heat recovery apparatus, it is characterised in that including nine grades of turn flues and be arranged on nine grades of turn flues
On demister, the water inlet pipe on the demister is provided with high-pressure pump, nozzle and nozzle and cigarette is provided with below the demister
Mist flow direction is into 60 degree of angles, and described nine grades of turn flues one end is smoke inlet, the other end is exhanst gas outlet, described nine grades
The pipeline of turn flue bottom is provided with condensation of water pipeline and the condensation trap being arranged on condensation of water pipeline, the condensation
Outlet conduit leads to slurry pool, is provided with heat pipe in the slurry pool, the heat pipe is connected with boiler recirculated water return pipe, the pot
Stove recirculated water return pipe is provided with circulating pump, the boiler that the boiler recirculated water return pipe leads in storage pond.
2. a kind of flue gas waste heat recovery apparatus according to claim 1, it is characterised in that nine grades of turn flues are nine
Section bend pipe, the demister are arranged on the second segment bend pipe since smoke inlet.
3. a kind of flue gas waste heat recovery apparatus according to claim 1, it is characterised in that be provided with cigarette in the storage pond
Mist heat recovery holder, the smog heat recovery holder are provided with boiler.
4. a kind of flue gas waste heat recovery apparatus according to claim 1, it is characterised in that the slurry pool bottom is provided with out
Water valve.
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CN201720472293.2U CN206682971U (en) | 2017-04-28 | 2017-04-28 | A kind of flue gas waste heat recovery apparatus |
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CN201720472293.2U CN206682971U (en) | 2017-04-28 | 2017-04-28 | A kind of flue gas waste heat recovery apparatus |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108278908A (en) * | 2017-12-15 | 2018-07-13 | 上海电力学院 | A kind of fume afterheat and device for reclaiming moisture |
-
2017
- 2017-04-28 CN CN201720472293.2U patent/CN206682971U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108278908A (en) * | 2017-12-15 | 2018-07-13 | 上海电力学院 | A kind of fume afterheat and device for reclaiming moisture |
CN108278908B (en) * | 2017-12-15 | 2020-03-13 | 上海电力学院 | Flue gas waste heat and moisture recovery device |
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