CN204739568U - Energy saving and emission reduction system that horizontal phase transition heat exchanger and prefix type hydrophily formula GGH unite - Google Patents
Energy saving and emission reduction system that horizontal phase transition heat exchanger and prefix type hydrophily formula GGH unite Download PDFInfo
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- CN204739568U CN204739568U CN201520410316.8U CN201520410316U CN204739568U CN 204739568 U CN204739568 U CN 204739568U CN 201520410316 U CN201520410316 U CN 201520410316U CN 204739568 U CN204739568 U CN 204739568U
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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
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B30/00—Energy efficient heating, ventilation or air conditioning [HVAC]
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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
Abstract
The utility model relates to an energy saving and emission reduction system that horizontal phase transition heat exchanger and prefix type hydrophily formula GGH unite. Still there is not one kind can carry out efficient handling of to the boiler flue gas at present to solve this type of device that the chimney emits " white cigarette " problem. The utility model discloses an along air heater, phase transition heat exchanger, low low temperature gas cooler, electrostatic precipitator, desulfurizing tower, clean flue gas re -heater and chimney that flue gas flow direction arranged in proper order, its characteristics are: still include phase transition heat transfer steam pocket, hot media water circulating pump and steam auxiliary heater, phase transition heat transfer steam pocket is located the top of phase transition heat exchanger, the pipe side entrance of phase transition heat transfer steam pocket and the export of pipe side respectively with the drawing forth the condensate pipe and draw back the condensate pipe and be connected of low pressure feed water heater, the export of water tank enters the mouth with the intraductal low temperature hot media water of low temperature gas cooler and is connected. The utility model discloses can carry out efficient handling of to the boiler flue gas, reduce exhaust gas temperature, heating low pressure feed water heater part condensate water, reach energy -conserving effect.
Description
Technical field
The utility model relates to the energy-saving and emission-reduction system that a kind of horizontal type phase-change heat exchanger is combined with prefix type hydrophily formula GGH, is mainly used in coal-fired power station boiler field, can Mist heat recovering and reduce station boiler pollutant emission.
Background technology
Domestic a lot of coal-fired power station boiler owing to manufacturing and designing, combustion adjustment, many reasons such as coal change, cause exhaust gas temperature substantial deviation design load, be approximately higher than design load 20 DEG C-50 DEG C.The higher heat loss due to exhaust gas that causes of exhaust gas temperature increases, and boiler efficiency reduces, thus directly affects thermal power unit operation economy, is unfavorable for energy-conservation.Exhaust gas temperature raises, and fly ash resistivity and exhaust gas volumn also can be caused to increase, thus reduce the efficiency of dust collection of electric cleaner, be unfavorable for environmental protection.
Flue gas after wet desulphurization is the wet saturated flue gas of about 50 DEG C, because flue-gas temperature is lower, if directly by smoke stack emission, easily forms " white cigarette " because the rising height of flue gas is not enough in chimney overhead, causes visual pollution.
For overcoming the problems referred to above, low low temp. electric dedusting technology and MGGH technology are there is both at home and abroad.Low low temp. electric dedusting technology arranges one-level flue gas waste heat recovery apparatus in the flue between air preheater and electric cleaner, and the flue-gas temperature before deduster is dropped to below flue gas acid dew point or acid dew point, and the fume afterheat of recovery is used for heat-setting water.Although low low temp. electric dedusting can improve efficiency of dust collection, reduce pollutant emission, can't resolve the difficult problem that chimney overhead emits " white cigarette ".If publication number is in the Chinese patent of CN103363536, disclose a kind of low temperature electric precipitation system in fuel electric plant, electric cleaner inlet flue gas is reduced to flue gas acid dew point or lower than flue gas acid dew point by this system with low-low temperature ESP, the fume afterheat reclaimed is for heating the condensate water of low-pressure heater, thus raising unit economy, reach energy-conservation effect, but but fail to solve the phenomenon that chimney emits " white cigarette ".
MGGH technology is the technology realizing flue gas heat transfer using heat medium water as heat carrier, gas cooler is arranged between air preheater and electric cleaner, flue-gas temperature is dropped to flue gas acid dew point or lower than flue gas acid dew point, neat stress heater is arranged between desulfurizing tower and chimney, be used for adding neat stress after thermally desulfurizing, after making desulfurizing tower, neat stress temperature is elevated to more than 80 DEG C from about 50 DEG C.Chimney breast flue-gas temperature is lifted to more than 80 DEG C by MGGH technology, efficiently solves the phenomenon that chimney emits " white cigarette ", but without energy-saving effect.Scholar is had to make improvement on the basis of MGGH technology, under guarantee chimney breast flue-gas temperature is lifted to the prerequisite of 80 DEG C, unnecessary fume afterheat is used for heat the condensate water of low-pressure heater, not only solves " white cigarette " problem of chimney, can also energy-saving effect be reached.If publication number is in the Chinese patent of CN104100994, disclose a kind of boiler energy-saving emission-reduction system based on flue gas waste heat recovery and thermal technology again, this system is lowered the temperature to deduster inlet flue gas in advance by gas cooler, the heat heating closed cycle water reclaimed, neat stress temperature is raised to more than 80 DEG C by the closed cycle water part neat stress reheater entered between desulfurizing tower and chimney, another part enters the condensate water that flue gas waste heat recovery apparatus adds hot pressing heater, this system not only solves the phenomenon that chimney emits " white cigarette ", also reclaimed part of waste heat to draw gas to squeeze low adding, serve energy-conservation effect, but because the condensate water heating low-pressure heater relies on the secondary convection heat transfer' heat-transfer by convection of closed cycle water, cause equipment heat transfer area larger, equipment is heavier, improve equipment cost expense, in addition, neat stress reheater heating surface adopts metal material, there is certain corrosion, reduce the service life of equipment.
In sum, also do not have one efficiently can process boiler smoke at present, reduce exhaust gas temperature, heating low-pressure heater partial coagulation water, reach energy-saving effect; Improve efficiency of dust collection, decreasing pollution thing discharges; And solve the energy-saving and emission-reduction system that chimney emits the horizontal type phase-change heat exchanger of " white cigarette " problem to combine with prefix type hydrophily formula GGH.
Utility model content
The purpose of this utility model is to overcome above shortcomings in prior art, and provides a kind of reasonable in design, efficiently can process boiler smoke, reduces exhaust gas temperature, heating low-pressure heater partial coagulation water, reaches energy-saving effect; Improve efficiency of dust collection, decreasing pollution thing discharges; And solve the energy-saving and emission-reduction system that chimney emits the horizontal type phase-change heat exchanger of " white cigarette " problem to combine with prefix type hydrophily formula GGH.
The technical scheme in the invention for solving the above technical problem is: the energy-saving and emission-reduction system that this horizontal type phase-change heat exchanger is combined with prefix type hydrophily formula GGH comprises the air preheater be arranged in order along flow of flue gas direction, phase-change heat-exchanger, low low-temperature flue gas cooler, electric cleaner, desulfurizing tower, neat stress reheater and chimney, its design feature is: also comprise phase-change heat-exchange drum, heat medium water circulating pump, steam auxiliary heater, steam auxiliary heater heat medium water inlet valve, steam auxiliary heater heat medium water outlet valve, steam auxiliary heater heat medium water bypass valve, quantity of steam control valve, terminal control unit, water tank, heat medium water bypass regulator valve, cryogenic temperature condensation water regulating valve, condensed water in high temperature gate valve, low-pressure heater, a flue gas temperature measurer, No. two flue gas temperature measurers, No. three flue gas temperature measurers, a heat medium water temperature measurer, No. two heat medium water temperature measurers, No. three heat medium water temperature measurers and wall temperature temperature measurer, described phase-change heat-exchange drum is shell-and-tube heat exchanger, described phase-change heat-exchange drum is positioned at the top of phase-change heat-exchanger, this phase-change heat-exchange drum is connected with phase-change heat-exchanger with down-comer by tedge, the shell-side of described phase-change heat-exchange drum is water vapor condensation chamber, the pipe side entrance of this phase-change heat-exchange drum and pipe side outlet respectively with the extraction condensate pipe of low-pressure heater with lead back condensate pipe and be connected, described cryogenic temperature condensation water regulating valve is arranged on the pipe side entrance pipeline of phase-change heat-exchange drum, and described condensed water in high temperature gate valve is arranged on the pipe side outlet pipeline of phase-change heat-exchange drum, the entrance and exit of described heat medium water circulating pump is connected with low temperature heating agent water inlet in the pipe of low low-temperature flue gas cooler with low temperature heating agent water out in the pipe of neat stress reheater respectively, described steam auxiliary heater is connected with high temperature heating agent water out in the pipe of low low-temperature flue gas cooler by steam auxiliary heater heat medium water inlet valve, and this steam auxiliary heater is connected with high temperature heating agent water inlet in the pipe of neat stress reheater by steam auxiliary heater heat medium water outlet valve, the entrance and exit of described steam auxiliary heater heat medium water bypass valve is connected with high temperature heating agent water inlet in the pipe of neat stress reheater with high temperature heating agent water out in the pipe of low low-temperature flue gas cooler respectively, the outlet of described quantity of steam control valve is connected with the steam inlet of steam auxiliary heater, the outlet of described water tank is connected with low temperature heating agent water inlet in the pipe of low low-temperature flue gas cooler, the entrance and exit of described heat medium water bypass regulator valve respectively with high temperature heating agent water out in the pipe of low low-temperature flue gas cooler with manage in low temperature heating agent water inlet be connected, described wall temperature temperature measurer is arranged on down-comer, a described flue gas temperature measurer is arranged on the outlet of phase-change heat-exchanger, described No. two flue gas temperature measurers are arranged on the outlet of low low-temperature flue gas cooler, described No. three flue gas temperature measurers are arranged on the outlet of neat stress reheater, in the pipe that a described heat medium water temperature measurer is arranged on neat stress reheater on high temperature heating agent water inlet, in the pipe that described No. two heat medium water temperature measurers are arranged on low low-temperature flue gas cooler on low temperature heating agent water inlet, in the pipe that described No. three heat medium water temperature measurers are arranged on low low-temperature flue gas cooler on high temperature heating agent water out, a described flue gas temperature measurer, No. two flue gas temperature measurers, No. three flue gas temperature measurers, a heat medium water temperature measurer, No. two heat medium water temperature measurers, No. three heat medium water temperature measurers, heat medium water bypass regulator valve, cryogenic temperature condensation water regulating valve and quantity of steam control valve are all connected on terminal control unit by wire.Make this system efficiently can process boiler smoke thus, reduce exhaust gas temperature, reach energy-saving effect; Improve efficiency of dust collection, decreasing pollution thing discharges; And solution chimney emits " white cigarette " problem simultaneously.
As preferably, phase-change heat-exchanger described in the utility model is pipe heat exchanger, in the flue after this phase-change heat-exchanger is arranged on air preheater, before low low-temperature flue gas cooler.
As preferably, the heating surface of phase-change heat-exchanger described in the utility model adopts 20 steel matter, and the heating surface of described low low-temperature flue gas cooler adopts the ND steel matter with antiseptic property; The heating surface of described neat stress reheater adopts fluoroplastics material.
As preferably, phase-change heat-exchanger described in the utility model, low low-temperature flue gas cooler and neat stress reheater all adopt modularized design.
The utility model compared with prior art, have the following advantages and effect: the two-stage phase-change heat transfer 1, utilizing phase-change heat-exchanger and phase-change heat-exchange drum, fume afterheat is heated the condensate water of low adding system, low adding can be squeezed and draw gas, improve Unit Economic efficiency, reduce unit generation coal consumption.2, before low low-temperature flue gas cooler is arranged on electric cleaner, flue-gas temperature is down to below acid dew point, most of SO in flue gas can be removed
3, and improve ESP Efficiency, reduce pollutant emission.3, utilize low low-temperature flue gas cooler by advance cooling after flue gas carry out second time lower the temperature, with enclosed heat medium water for heat transfer medium, flue gas heat is passed to the neat stress after desulfurizing tower by neat stress reheater, neat stress temperature is raised to 80 DEG C, solves the visual pollution that chimney emits " white cigarette ".4, horizontal type phase-change heat exchanger system and prefix type hydrophily formula GGH subsystem relatively independent, therefore control system is more simple, easy to operate.5, structure is simple, reasonable in design, and design is unique, easy to use, wide market.
Accompanying drawing explanation
Fig. 1 is the structural representation of the energy-saving and emission-reduction system that in the utility model embodiment, horizontal type phase-change heat exchanger is combined with prefix type hydrophily formula GGH.
Fig. 2 is the structural representation after removing air preheater and water tank in Fig. 1.
In figure: 1-air preheater, 2-phase-change heat-exchanger, 3-phase-change heat-exchange drum, the low low-temperature flue gas cooler of 4-, 5-electric cleaner, 6-desulfurizing tower, 7-neat stress reheater, 8-chimney, 9-heat medium water circulating pump, 10-steam auxiliary heater, 11-steam auxiliary heater heat medium water inlet valve, 12-steam auxiliary heater heat medium water outlet valve, 13-steam auxiliary heater heat medium water bypass valve, 14-quantity of steam control valve, 15-terminal control unit, 16-water tank, 17-heat medium water bypass regulator valve, 18-cryogenic temperature condensation water regulating valve, 19-condensed water in high temperature gate valve, , 20-low-pressure heater, 21-flue gas temperature measurer, 22-No. bis-flue gas temperature measurers, 23-No. tri-flue gas temperature measurers, 24-heat medium water temperature measurer, 25-No. bis-heat medium water temperature measurers, 26-No. tri-heat medium water temperature measurers, 27-wall temperature temperature measurer, 28-down-comer.
Detailed description of the invention
Below in conjunction with accompanying drawing, also by embodiment, the utility model is described in further detail, and following examples are that the utility model is not limited to following examples to explanation of the present utility model.
Embodiment.
See Fig. 1 to Fig. 2, the energy-saving and emission-reduction system that in the present embodiment, horizontal type phase-change heat exchanger is combined with prefix type hydrophily formula GGH comprises air preheater 1, phase-change heat-exchanger 2, phase-change heat-exchange drum 3, low low-temperature flue gas cooler 4, electric cleaner 5, desulfurizing tower 6, neat stress reheater 7, chimney 8, heat medium water circulating pump 9, steam auxiliary heater 10, steam auxiliary heater heat medium water inlet valve 11, steam auxiliary heater heat medium water outlet valve 12, steam auxiliary heater heat medium water bypass valve 13, quantity of steam control valve 14, terminal control unit 15, water tank 16, heat medium water bypass regulator valve 17, cryogenic temperature condensation water regulating valve 18, condensed water in high temperature gate valve 19, low-pressure heater 20, a flue gas temperature measurer 21, No. two flue gas temperature measurers 22, No. three flue gas temperature measurers 23, a heat medium water temperature measurer 24, No. two heat medium water temperature measurers 25, No. three heat medium water temperature measurers 26 and wall temperature temperature measurer 27.
Air preheater 1 in the present embodiment, phase-change heat-exchanger 2, low low-temperature flue gas cooler 4, electric cleaner 5, desulfurizing tower 6, neat stress reheater 7 and chimney 8 flow of flue gas direction are arranged in order, phase-change heat-exchange drum 3 is shell-and-tube heat exchanger, phase-change heat-exchange drum 3 is positioned at the top of phase-change heat-exchanger 2, this phase-change heat-exchange drum 3 is connected with phase-change heat-exchanger 2 with down-comer 28 by tedge, the shell-side of phase-change heat-exchange drum 3 is water vapor condensation chamber, the pipe side entrance of this phase-change heat-exchange drum 3 and pipe side outlet respectively with the extraction condensate pipe of low-pressure heater 20 with lead back condensate pipe and be connected, cryogenic temperature condensation water regulating valve 18 is arranged on the pipe side entrance pipeline of phase-change heat-exchange drum 3, condensed water in high temperature gate valve 19 is arranged on the pipe side outlet pipeline of phase-change heat-exchange drum 3.
The entrance and exit of the heat medium water circulating pump 9 in the present embodiment is connected with low temperature heating agent water inlet in the pipe of low low-temperature flue gas cooler 4 with low temperature heating agent water out in the pipe of neat stress reheater 7 respectively, steam auxiliary heater 10 is connected with high temperature heating agent water out in the pipe of low low-temperature flue gas cooler 4 by steam auxiliary heater heat medium water inlet valve 11, and this steam auxiliary heater 10 is connected with high temperature heating agent water inlet in the pipe of neat stress reheater 7 by steam auxiliary heater heat medium water outlet valve 12.The entrance and exit of steam auxiliary heater heat medium water bypass valve 13 is connected with high temperature heating agent water inlet in the pipe of neat stress reheater 7 with high temperature heating agent water out in the pipe of low low-temperature flue gas cooler 4 respectively.The outlet of quantity of steam control valve 14 is connected with the steam inlet of steam auxiliary heater 10.The outlet of water tank 16 is connected with low temperature heating agent water inlet in the pipe of low low-temperature flue gas cooler 4.The entrance and exit of heat medium water bypass regulator valve 17 respectively with high temperature heating agent water out in the pipe of low low-temperature flue gas cooler 4 with manage in low temperature heating agent water inlet be connected.
Wall temperature temperature measurer 27 in the present embodiment is arranged on down-comer 28, a flue gas temperature measurer 21 is arranged on the outlet of phase-change heat-exchanger 2, No. two flue gas temperature measurers 22 are arranged on the outlet of low low-temperature flue gas cooler 4, No. three flue gas temperature measurers 23 are arranged on the outlet of neat stress reheater 7, in the pipe that heat medium water temperature measurer 24 is arranged on neat stress reheater 7 on high temperature heating agent water inlet, in the pipe that No. two heat medium water temperature measurers 25 are arranged on low low-temperature flue gas cooler 4 on low temperature heating agent water inlet, in the pipe that No. three heat medium water temperature measurers 26 are arranged on low low-temperature flue gas cooler 4 on high temperature heating agent water out, a flue gas temperature measurer 21, No. two flue gas temperature measurers 22, No. three flue gas temperature measurers 23, a heat medium water temperature measurer 24, No. two heat medium water temperature measurers 25, No. three heat medium water temperature measurers 26, heat medium water bypass regulator valve 17, cryogenic temperature condensation water regulating valve 18 and quantity of steam control valve 14 are all connected on terminal control unit 15 by wire.
Usual phase-change heat-exchanger 2 in the present embodiment is pipe heat exchanger, in the flue after this phase-change heat-exchanger 2 is arranged on air preheater 1, before low low-temperature flue gas cooler 4.
Phase-change heat-exchanger in the present embodiment 2 pairs of boiler exhaust gas are lowered the temperature in advance, and this phase-change heat-exchanger 2 undergoes phase transition after managing interior closed-up water absorption fume afterheat becomes steam; The condensate water that the latent heat of vaporization that phase-change heat-exchange drum 3 utilizes steam generation condensation to release is drawn to heat low-pressure heater 20, the steam of this phase-change heat-exchange drum 3 comes from phase-change heat-exchanger 2; Flue gas heat is passed to condensate water by two-stage phase-change heat transfer by phase-change heat-exchanger 2 and phase-change heat-exchange drum 3, thus improves unit generation efficiency, reduces unit generation coal consumption.
Flue-gas temperature is down to below acid dew point before being arranged on electric cleaner 5 by the low low-temperature flue gas cooler 4 in the present embodiment, can remove most of SO in flue gas
3, and improve electric cleaner 5 efficiency of dust collection, reduce pollutant emission.
Neat stress reheater 7 in the present embodiment is conducted heat by heat medium water, and chimney 8 entrance flue gas temperature is raised to more than 80 DEG C, solves the visual pollution problem that chimney 8 emits " white cigarette ".
Phase-change heat-exchanger 2 in the present embodiment can avoid flue gas acid corrosion completely, and this phase-change heat-exchanger 2 heating surface adopts 20 steel matter, reduces the equipment cost of system; Low low-temperature flue gas cooler 4 heating surface adopts the ND steel matter with antiseptic property; Neat stress reheater 7 heating surface adopts antiseptic property good fluoroplastics material, and fluoroplastics have not burn into and are not stained with the advantages such as ash, density are little, effectively can alleviate weight of equipment, reduces equipment flue gas resistance and improve service life of equipment.
The energy-saving and emission-reduction method that in the present embodiment, horizontal type phase-change heat exchanger is combined with prefix type hydrophily formula GGH is as follows.
First the high-temperature flue gas come from the outlet of air preheater 1 is lowered the temperature in advance by phase-change heat-exchanger 2, after flue-gas temperature is down to about 120 DEG C, enter low low-temperature flue gas cooler 4 again and be lowered to below flue gas acid dew point, form cooled flue gas, cooled flue gas temperature is usually at about 90 DEG C.SO in cooled flue gas
3be combined into sulfuric acid vapor with steam, form sulfuric acid droplets after sulfuric acid vapor condensation and be adsorbed on fly ash granule, and be removed along with fly ash granule enters electric cleaner 5.Because flue-gas temperature is down to below acid dew point, reduce fly ash resistivity and flue gas flow, thus improve the efficiency of dust collection of electric precipitation.By the flue gas after dedusting through desulfurizing tower 6, become the wet saturated flue gas of about 50 DEG C, wet saturated flue gas is heated to 80 DEG C by neat stress reheater 7, enters chimney 8 and is disposed in air, can solve the problem that chimney of electric plant emits " white cigarette ".
The part low-temperature condensate of drawing from low-pressure heater 20 enters in the heat exchanger tube of phase-change heat-exchange drum 3, again leads back in low-pressure heater 20 system after being heated, thus squeezes low adding and draw gas, and improves unit generation efficiency, reduces unit net coal consumption rate.Due to phase-change heat-exchanger 2 and phase-change heat-exchange drum 3 manage in be phase transition process, the minimum wall temperature of phase-change heat-exchanger 2 pipe can be controlled acid dew point 5 DEG C more than-10 DEG C by the temperature controlling phase change medium, be approximately about 105 DEG C, thus avoid the acid corrosion of phase-change heat-exchanger 2, make the heating surface of phase-change heat-exchanger 2 adopt 20 steel matter.
The effect of low low-temperature flue gas cooler 4 is that the flue gas after being lowered the temperature in advance by phase-change heat-exchanger 2 continues to be cooled to below flue gas acid dew point, this partial heat is absorbed by enclosed heat medium water, enclosed heat medium water relies on heat medium water circulating pump 9 to provide operation power, transfers heat to the neat stress outside neat stress heater 7 pipe circularly.The low temperature heating agent coolant-temperature gage of low low-temperature flue gas cooler 4 entrance is about 70 DEG C, and the high temperature heating agent coolant-temperature gage that low low-temperature flue gas cooler 4 exports is set within the scope of 105 DEG C-110 DEG C.When system puts into operation, in heat medium water close conduit, injecting closed cycle heat medium water by water tank 16, by opening steam auxiliary heater 10, heat medium water being heated within the scope of 105 DEG C-110 DEG C.During underrun, also ensure that the entrance heat medium water temperature of neat stress reheater 7 reaches design load by steam auxiliary heater 10.
Terminal control unit 15 can respond in time to the fluctuation of system operational parameters.A flue gas temperature measurer 21, No. two flue gas temperature measurers 22 and No. three flue gas temperature measurers 23 are arranged on the exhanst gas outlet of phase-change heat-exchanger 2, low low-temperature flue gas cooler 4 and neat stress reheater 7 respectively; In the pipe that a heat medium water temperature measurer 24, No. two heat medium water temperature measurers 25 and No. three heat medium water temperature measurers 26 are arranged on neat stress reheater 7 respectively high temperature heating agent water inlet, low low-temperature flue gas cooler 4 pipe in low temperature heating agent water inlet and low low-temperature flue gas cooler 4 pipe in high temperature heating agent water out; Wall temperature temperature measurer 27 is arranged on down-comer 28.Input and a flue gas temperature measurer 21, No. two flue gas temperature measurers 22, No. three flue gas temperature measurers 23, heat medium water temperature measurer 24, No. two heat medium water temperature measurers 25, No. three heat medium water temperature measurers 26 of terminal control unit 15 are connected with the output of wall temperature temperature measurer 27, and the output of this terminal control unit 15 is connected with cryogenic temperature condensation water regulating valve 18 input with quantity of steam control valve 14, heat medium water bypass regulator valve 17.When the cigarette temperature that a flue gas temperature measurer 21 shows is on the low side, fed back by terminal control unit 15, regulate cryogenic temperature condensation water regulating valve 18, by the outlet cigarette temperature regulating the entrance cryogenic temperature condensation discharge of phase-change heat-exchange drum 3 to regulate phase-change heat-exchanger 2.When the cigarette temperature that No. two flue gas temperature measurers 22 show is on the low side, fed back by terminal control unit 15, regulate heat medium water bypass regulator valve 17, by part high temperature heat medium water being introduced the outlet cigarette temperature that low temperature heating agent waterpipe regulates low low-temperature flue gas cooler 4.When the cigarette temperature that No. three flue gas temperature measurers 23 show is on the low side, fed back by terminal control unit 15, steam regulation adjustable valve 14, by the entrance heat medium water temperature regulating the steam flow entering steam auxiliary heater 10 to improve neat stress reheater 7, thus improve the outlet cigarette temperature of neat stress reheater 7.When the heat medium water temperature of heat medium water temperature measurer 24 display is on the low side, fed back by terminal control unit 15, steam regulation adjustable valve 14, by the entrance heat medium water temperature regulating the steam flow entering steam auxiliary heater 10 to improve neat stress reheater 7, thus ensure the outlet cigarette temperature of neat stress reheater 7.When the heat medium water temperature of No. two heat medium water temperature measurer 25 displays is on the low side, fed back by terminal control unit 15, regulate heat medium water bypass regulator valve 17, by part high temperature heat medium water being introduced the outlet cigarette temperature that low temperature heating agent waterpipe regulates low low-temperature flue gas cooler 4.Whole control system can be automatically control, and simple to operate, reaction is quick.
Phase-change heat-exchanger 2, low low-temperature flue gas cooler 4 and neat stress reheater 7 all can adopt modularized design, and due to wall temperature control principle, phase-change heat-exchanger 2 can avoid flue gas corrosion completely, therefore heating surface adopts 20 steel, reduces equipment cost; In order to pre-flue gas low temperature corrosion, low low-temperature flue gas cooler 4 heating surface adopts ND steel matter.Neat stress reheater heating surface adopts fluoroplastics materials, and fluoroplastics have not burn into and are not stained with the advantages such as ash, density are little, effectively can alleviate weight of equipment, reduces equipment flue gas resistance and improve service life of equipment.
In addition, it should be noted that, the specific embodiment described in this description, the shape, institute's title of being named etc. of its parts and components can be different, and the above content described in this description is only to the explanation of the utility model structure example.The equivalence change that structure, feature and principle described in all foundation the utility model inventional idea are done or simple change, be included in the protection domain of the utility model patent.The utility model person of ordinary skill in the field can make various amendment or supplements or adopt similar mode to substitute to described specific embodiment; only otherwise depart from structure of the present utility model or surmount this scope as defined in the claims, protection domain of the present utility model all should be belonged to.
Claims (4)
1. a horizontal type phase-change heat exchanger energy-saving and emission-reduction system of combining with prefix type hydrophily formula GGH, comprises the air preheater be arranged in order along flow of flue gas direction, phase-change heat-exchanger, low low-temperature flue gas cooler, electric cleaner, desulfurizing tower, neat stress reheater and chimney, is characterized in that: also comprise phase-change heat-exchange drum, heat medium water circulating pump, steam auxiliary heater, steam auxiliary heater heat medium water inlet valve, steam auxiliary heater heat medium water outlet valve, steam auxiliary heater heat medium water bypass valve, quantity of steam control valve, terminal control unit, water tank, heat medium water bypass regulator valve, cryogenic temperature condensation water regulating valve, condensed water in high temperature gate valve, low-pressure heater, a flue gas temperature measurer, No. two flue gas temperature measurers, No. three flue gas temperature measurers, a heat medium water temperature measurer, No. two heat medium water temperature measurers, No. three heat medium water temperature measurers and wall temperature temperature measurer, described phase-change heat-exchange drum is shell-and-tube heat exchanger, described phase-change heat-exchange drum is positioned at the top of phase-change heat-exchanger, this phase-change heat-exchange drum is connected with phase-change heat-exchanger with down-comer by tedge, the shell-side of described phase-change heat-exchange drum is water vapor condensation chamber, the pipe side entrance of this phase-change heat-exchange drum and pipe side outlet respectively with the extraction condensate pipe of low-pressure heater with lead back condensate pipe and be connected, described cryogenic temperature condensation water regulating valve is arranged on the pipe side entrance pipeline of phase-change heat-exchange drum, and described condensed water in high temperature gate valve is arranged on the pipe side outlet pipeline of phase-change heat-exchange drum, the entrance and exit of described heat medium water circulating pump is connected with low temperature heating agent water inlet in the pipe of low low-temperature flue gas cooler with low temperature heating agent water out in the pipe of neat stress reheater respectively, described steam auxiliary heater is connected with high temperature heating agent water out in the pipe of low low-temperature flue gas cooler by steam auxiliary heater heat medium water inlet valve, and this steam auxiliary heater is connected with high temperature heating agent water inlet in the pipe of neat stress reheater by steam auxiliary heater heat medium water outlet valve, the entrance and exit of described steam auxiliary heater heat medium water bypass valve is connected with high temperature heating agent water inlet in the pipe of neat stress reheater with high temperature heating agent water out in the pipe of low low-temperature flue gas cooler respectively, the outlet of described quantity of steam control valve is connected with the steam inlet of steam auxiliary heater, the outlet of described water tank is connected with low temperature heating agent water inlet in the pipe of low low-temperature flue gas cooler, the entrance and exit of described heat medium water bypass regulator valve respectively with high temperature heating agent water out in the pipe of low low-temperature flue gas cooler with manage in low temperature heating agent water inlet be connected, described wall temperature temperature measurer is arranged on down-comer, a described flue gas temperature measurer is arranged on the outlet of phase-change heat-exchanger, described No. two flue gas temperature measurers are arranged on the outlet of low low-temperature flue gas cooler, described No. three flue gas temperature measurers are arranged on the outlet of neat stress reheater, in the pipe that a described heat medium water temperature measurer is arranged on neat stress reheater on high temperature heating agent water inlet, in the pipe that described No. two heat medium water temperature measurers are arranged on low low-temperature flue gas cooler on low temperature heating agent water inlet, in the pipe that described No. three heat medium water temperature measurers are arranged on low low-temperature flue gas cooler on high temperature heating agent water out, a described flue gas temperature measurer, No. two flue gas temperature measurers, No. three flue gas temperature measurers, a heat medium water temperature measurer, No. two heat medium water temperature measurers, No. three heat medium water temperature measurers, heat medium water bypass regulator valve, cryogenic temperature condensation water regulating valve and quantity of steam control valve are all connected on terminal control unit by wire.
2. the horizontal type phase-change heat exchanger according to claim 1 energy-saving and emission-reduction system of combining with prefix type hydrophily formula GGH, it is characterized in that: described phase-change heat-exchanger is pipe heat exchanger, in the flue after this phase-change heat-exchanger is arranged on air preheater, before low low-temperature flue gas cooler.
3. the horizontal type phase-change heat exchanger according to claim 1 and 2 energy-saving and emission-reduction system of combining with prefix type hydrophily formula GGH, it is characterized in that: the heating surface of described phase-change heat-exchanger adopts 20 steel matter, the heating surface of described low low-temperature flue gas cooler adopts the ND steel matter with antiseptic property; The heating surface of described neat stress reheater adopts fluoroplastics material.
4. the horizontal type phase-change heat exchanger according to claim 1 and 2 energy-saving and emission-reduction system of combining with prefix type hydrophily formula GGH, is characterized in that: described phase-change heat-exchanger, low low-temperature flue gas cooler and neat stress reheater all adopt modularized design.
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| CN201520410316.8U CN204739568U (en) | 2015-06-15 | 2015-06-15 | Energy saving and emission reduction system that horizontal phase transition heat exchanger and prefix type hydrophily formula GGH unite |
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| CN201520410316.8U CN204739568U (en) | 2015-06-15 | 2015-06-15 | Energy saving and emission reduction system that horizontal phase transition heat exchanger and prefix type hydrophily formula GGH unite |
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| Publication number | Priority date | Publication date | Assignee | Title |
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| CN104964265A (en) * | 2015-06-15 | 2015-10-07 | 杭州华电能源工程有限公司 | Energy-saving emission reduction system and energy-saving emission reduction method of horizontal type phase change heat exchanger and front-arrangement type water medium type GGH combined |
| CN105571381A (en) * | 2016-02-01 | 2016-05-11 | 浙江天地环保工程有限公司 | Control system and method for heat medium water pipe type heat exchanger |
| CN105674315A (en) * | 2016-04-12 | 2016-06-15 | 国电南京自动化股份有限公司 | Double-circuit and double-circulation heat exchanging system |
| CN106090971A (en) * | 2016-07-06 | 2016-11-09 | 大唐(北京)能源管理有限公司 | A kind of combined steam flue gas MGGH system and method |
| CN106439882A (en) * | 2016-08-26 | 2017-02-22 | 舒少辛 | Desulfuration wastewater treatment device utilizing flue gas waste heat |
| CN106678856A (en) * | 2017-01-10 | 2017-05-17 | 深圳市捷晶能源科技有限公司 | Flue gas refrigerant compression dehumidification system |
| CN106989409A (en) * | 2017-05-08 | 2017-07-28 | 江苏方天电力技术有限公司 | A kind of water-borne formula flue gas heat-exchange unit device |
| CN109114582A (en) * | 2018-08-28 | 2019-01-01 | 北京华通兴远供热节能技术有限公司 | Gas fired-boiler fume afterheat, which is utilized, removes system and method with white haze |
| CN110131742A (en) * | 2019-06-16 | 2019-08-16 | 清华大学 | The full ingredient of boiler exhaust gas based on waste heat driving is administered and resource utilization mode |
| CN113654072A (en) * | 2021-08-10 | 2021-11-16 | 西安西热锅炉环保工程有限公司 | WGGH (WGGH) environment-friendly and energy-saving comprehensive utilization system, boiler system and operation method thereof |
| CN110131742B (en) * | 2019-06-16 | 2024-04-26 | 清华大学 | Boiler smoke exhaust full-component treatment and resource recovery mode based on waste heat drive |
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| CN104964265A (en) * | 2015-06-15 | 2015-10-07 | 杭州华电能源工程有限公司 | Energy-saving emission reduction system and energy-saving emission reduction method of horizontal type phase change heat exchanger and front-arrangement type water medium type GGH combined |
| CN105571381A (en) * | 2016-02-01 | 2016-05-11 | 浙江天地环保工程有限公司 | Control system and method for heat medium water pipe type heat exchanger |
| CN105571381B (en) * | 2016-02-01 | 2018-08-14 | 浙江天地环保科技有限公司 | A kind of heat medium water pipe heat exchanger control system and method |
| CN105674315B (en) * | 2016-04-12 | 2017-11-28 | 国电南京自动化股份有限公司 | A kind of two-way Two-way Cycle heat-exchange system |
| CN105674315A (en) * | 2016-04-12 | 2016-06-15 | 国电南京自动化股份有限公司 | Double-circuit and double-circulation heat exchanging system |
| CN106090971A (en) * | 2016-07-06 | 2016-11-09 | 大唐(北京)能源管理有限公司 | A kind of combined steam flue gas MGGH system and method |
| CN106439882A (en) * | 2016-08-26 | 2017-02-22 | 舒少辛 | Desulfuration wastewater treatment device utilizing flue gas waste heat |
| CN106678856A (en) * | 2017-01-10 | 2017-05-17 | 深圳市捷晶能源科技有限公司 | Flue gas refrigerant compression dehumidification system |
| CN106989409A (en) * | 2017-05-08 | 2017-07-28 | 江苏方天电力技术有限公司 | A kind of water-borne formula flue gas heat-exchange unit device |
| CN106989409B (en) * | 2017-05-08 | 2023-07-14 | 江苏方天电力技术有限公司 | Water-borne flue gas heat exchanger device |
| CN109114582A (en) * | 2018-08-28 | 2019-01-01 | 北京华通兴远供热节能技术有限公司 | Gas fired-boiler fume afterheat, which is utilized, removes system and method with white haze |
| CN109114582B (en) * | 2018-08-28 | 2019-07-19 | 北京华通兴远供热节能技术有限公司 | Gas fired-boiler fume afterheat, which is utilized, removes system and method with white haze |
| CN110131742A (en) * | 2019-06-16 | 2019-08-16 | 清华大学 | The full ingredient of boiler exhaust gas based on waste heat driving is administered and resource utilization mode |
| CN110131742B (en) * | 2019-06-16 | 2024-04-26 | 清华大学 | Boiler smoke exhaust full-component treatment and resource recovery mode based on waste heat drive |
| CN113654072A (en) * | 2021-08-10 | 2021-11-16 | 西安西热锅炉环保工程有限公司 | WGGH (WGGH) environment-friendly and energy-saving comprehensive utilization system, boiler system and operation method thereof |
| CN113654072B (en) * | 2021-08-10 | 2024-04-09 | 西安西热锅炉环保工程有限公司 | WGGH environment-friendly and energy-saving comprehensive utilization system, boiler system and operation method thereof |
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| C14 | Grant of patent or utility model | ||
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| AV01 | Patent right actively abandoned |
Granted publication date: 20151104 Effective date of abandoning: 20171114 |