CN209540885U - A kind of warm and humid coupling gas fired-boiler low nitrogen burning system - Google Patents

Abstract

The utility model discloses a kind of warm and humid coupling gas fired-boiler low nitrogen burning systems, including burner and burner hearth, phase transformation cohesion water collection device, mixer, temperature and humidity regulator etc..Phase transformation, which is agglomerated, is equipped with heat exchanger tube, spraying cooling pipe row and labyrinth type water collection device in water collection device.Uniform flow orifice, spray humidification pipe row and heat exchanger tube are equipped with inside temperature and humidity regulator.Burner and burner hearth, convection heating surface and phase transformation cohesion water collection device are sequentially connected.Import is connect by recirculation blower with phase transformation cohesion water collection device mixer all the way, and mixed air is sent into burner, participates in burning in furnace.The condensed water of phase transformation cohesion water collection device is collected by high-level water storage case, is all sprayed into temperature and humidity regulator, for heating and humidifying air.The condensed water that mixer and temperature and humidity regulator are recycled is for cooling down smoke temperature.To reduce the flue-gas temperature in partial pressure of oxygen and burner hearth in combustion air.The utility model has system water consume low, and air inlet humidity regulation is sensitive, combustion gas NO_XThe significant advantage of emission reduction effect.

Description

A kind of warm and humid coupling gas fired-boiler low nitrogen burning system

Technical field

The utility model relates to a kind of warm and humid coupling gas fired-boiler low nitrogen burning systems, belong to cogeneration of heat and power technical field.

Background technique

Energy restructuring is the important means of air contaminant treatment, the following increase with clean energy resource specific gravity, naturally Gas dosage will also quickly increase.The Air Pollutants of combustion of natural gas discharge are NO_x, therefore, natural gas low nitrogen burning skill Art is the important technology guarantee of China's scale clean utilization natural gas.Natural gas is widely used in work as a kind of clean fuel The fields such as industry production and resident's heat supply.With Environmental Protection in China require it is increasingly strict, to gas fired-boiler discharged nitrous oxides limit Also higher and higher, some importance regional requirements create gas fired-boiler nitrogen oxide emission and are lower than 30mg/Nm³, this is fired to low nitrogen Burning technology brings great challenge.

Therefore, the low-NO_x combustion technology for researching and developing more low emissions levels not only contributes to realize that the stabilization of existing gas fired-boiler reaches Mark discharge, while NO can also be further decreased_XDischarge provides guarantee for realizing that PM2.5 concentration further decreases.

Natural gas main component is methane, and content is generally even higher in 95-97%, is substantially free of fuel bound nitrogen, is firing During burning mainly based on heating power type and Quick-type NOx.Thermal NO x is the N in air₂At high temperature by O₂Oxidation generates NOx, account for about NOx generate total amount 90-95%, be combustion of natural gas NOx control important constructive ways.

Dilute the method for flame to reduce flue-gas temperature be current widely used low-NO_x combustion technology, again such as flue gas Circulation, air wetting technology.The addition of flue gas recycled reduces combustion air partial pressure of oxygen, so that burn rate is reduced, furnace Flame temperature is also reduced, and the production quantity of thermal NO x is controlled effectively.However, with the increasing of amount of circulating gas Greatly, the oxygen in air is constantly diluted, simultaneously because the increase of air mass flow, causes burner flow field to change, Yi Yinqi Flame combustion it is unstable, or lead to the too long of flame, influence boiler and operate normally and safety.Therefore, how flue gas is solved It is to further decrease natural gas when recirculation rate further increases the problems such as combustion stability, condensed water precipitation and boiler efficiency And other gas fuel combustions NO_XThe key of discharge.

Air wetting is filled the water to flame zone to reduce combustion zone temperature and can play the work for inhibiting thermal NO x to generate With, however humidifying technology is resulted in the technical application and is restricted due to the source of water and recycling problem.Such as patent document In CN108613173A, the heat source heated using gas between air and flue gas-gas heat exchange as air, while being sprayed in heat exchanger entrance Enter boiler blow-down water, flue gas recycled is added in heat exchanger exit.In patent document CN106500120A, also with gas-gas heat exchange into The heating of row air, and using condensed water come humidifying air, however, gas-gas heat exchange needs biggish temperature end poor in above scheme Cause flue gas waste heat recovery heat and condensation water quantity less, the humidity in air and huge heat exchanger can not be greatly improved Size limits the utilization of the technical solution, while cannot be considered in terms of the contradictory problems between ultralow nitrogen and combustion stability.

Utility model content

The utility model is intended to provide a kind of warm and humid coupling gas fired-boiler low nitrogen burning system.Combustion flame can be stablized, greatly Amplitude reduction NO_x formation, and the waste heat and moisture in water collection device depth recovered flue gas are agglomerated by phase transformation, it is effectively save With water, boiler efficiency is improved.

The utility model is achieved through the following technical solutions:

A kind of warm and humid coupling gas fired-boiler low nitrogen burning system, including gas fired-boiler, phase transformation agglomerate water collection device, warm and humid adjusting Device, mixer and pressure fan；The gas fired-boiler includes the burner hearth and convection heating surface being sequentially connected；The burner hearth interior forward end It is provided with burner；The phase transformation cohesion water collection device is arranged between the convection heating surface and the temperature and humidity regulator, described Cigarette air pipe line is respectively equipped between phase transformation cohesion water collection device and the convection heating surface to be connected with heat-exchange working medium pipeline；The phase transformation It is formed and is connected by circulation between cohesion water collection device and the temperature and humidity regulator；The temperature and humidity regulator is connected with the mixer；Institute The cigarette air pipe line stated between mixer and phase transformation cohesion water collection device and the convection heating surface passes through gas recirculating fan It is connected, and the mixer is connected with the burner；The temperature and humidity regulator, phase transformation cohesion water collection device and convection heating surface it Between be equipped with heat-exchange working medium pipeline be connected；The pressure fan be connected between the mixer and burner or the mixer and temperature Between wet adjuster.

In above-mentioned technical proposal, high-level water storage case is provided between the phase transformation cohesion water collection device and the temperature and humidity regulator With high-order water pump, the circuit between the temperature and humidity regulator and phase transformation cohesion water collection device is equipped with low level water tank and low level Water pump.

In above-mentioned technical proposal, the mixer includes air inlet pipe, escape pipe and setting between air inlet pipe and escape pipe Mixing chamber and the flue gas recycled inlet tube and condensate pipe that are arranged on mixing chamber；The condensate pipe setting is mixing Bottom of chamber portion, and the condensate pipe is connect with the low level water tank.

In above-mentioned technical proposal, the cylinder that the air inlet pipe, escape pipe and the mixing chamber are arranged coaxially, and it is described Mixing chamber diameter is 1.2~1.5 times of the air inlet pipe diameter；Diffuser is equipped between the air inlet pipe and the mixing chamber to connect It connects；The flue gas recycled inlet tube is cut from the side circumferential direction of mixing chamber.

In above-mentioned technical proposal, the mixing chamber is externally provided with ring-shaped flue, if being evenly distributed with dry flue gas on ring-shaped flue Spout, the flue gas spout connect the ring-shaped flue and the mixing chamber.

In above-mentioned technical proposal, the flue gas spout is arranged by 50~60m/s of design current velocity.

In above-mentioned technical proposal, be successively arranged in the phase transformation cohesion water collection device phase inversion heat pipe, spraying cooling pipe row and Labyrinth type water collection device；Several spraying cooling pipes are arranged in the spraying cooling pipe row, and the spraying cooling pipe is in tilted layout, and described Spraying cooling pipe is provided with several spray ports towards phase inversion heat pipe side, and the spray port injection direction is towards the phase It converts heat pipe side and tilts upward in 0~30 °；The labyrinth type water collection device setting is exported in phase transformation cohesion water collection device, Including several V-types being set side by side or I-shaped baffle plate.

In above-mentioned technical proposal, the temperature and humidity regulator entrance is to flow in the divergent segment equipped with several in divergent segment Orifice plate；Spray humidification pipe row and fin heat exchange tube are additionally provided in the temperature and humidity regulator；The fin heat exchange tube is close to warm and humid tune The setting of device outlet section is saved, the spray humidification pipe row is in tilted layout towards the temperature and humidity regulator entrance.

The utility model has the following advantages that and the utility model has the advantages that 1) is heated by temperature and humidity regulator to air, can prevent Only cold air directly mixes with flue gas recycled and generates condensed water；2) addition of flue gas recycled is by the combustion-supporting sky of burner inlet Gas oxygen content is reduced to 18~20%, is reducing flame combustion rate simultaneously, effectively cooling furnace flame temperature, final to reduce The generation of thermal NO x；3) purpose of spray humidification is increased in combustion air in the case where guaranteeing combustion air oxygen content Three atomic gas contents, the specific heats of gases, which are held, to increase, and further decreases combustion flame temperature；4) temperature and humidity regulator, phase transformation cohesion are received Hydrophone passes through gas-liquid and indirectly and directly exchanges heat, and heat exchange efficiency is high, and heat exchanger structure is compact；5) water used is sprayed to arise directly from Flue gas condensing water saves water, while the moisture in recovered flue gas, can eliminate the white cigarette in chimney；6) by increasing in air Humidity, reduce the partial pressure of oxygen in air, under the two coupling, (NOx emission is lower than 15mg/ realizing super low nitrogen burning Nm³(@3.5%)) while, the stability of combustion flame can be increased.

Detailed description of the invention

Fig. 1 is a kind of warm and humid coupling gas fired-boiler low nitrogen burning system signal of arrangement involved in the utility model Figure.

Fig. 2 is that the warm and humid coupling gas fired-boiler low nitrogen burning system of another kind arrangement involved in the utility model is shown It is intended to.

Fig. 3 is that water collection device structural schematic diagram is agglomerated in phase transformation involved in the utility model.

Fig. 4 is temperature and humidity regulator structural schematic diagram involved in the utility model.

Fig. 5 is the mixer structure schematic diagram of one of which embodiment involved in the utility model.

Fig. 6 is the mixer structure schematic diagram of another embodiment involved in the utility model: a) cross section is illustrated Figure；B) structural schematic diagram.

In figure: 1-air inlet adjustment valve；2-burner hearths；3-convection heating surfaces；Water collection device is agglomerated in 4-phase transformations；41-phase inversion heat pipes； 42-spraying cooling pipes row；43-labyrinth type water collection devices；44-condensed waters receive the mouth of a river；5-flue gas recirculation regulating valves；6-flue gases follow again Ring blower；7-temperature and humidity regulators；71-fin heat exchange tubes；72-spray humidification pipe rows；73-uniform flow orifices；74-receive the mouth of a river；8-send Blower；9-mixers；91-air inlet pipe；92-diffusers；93-flue gas recycled inlet tubes；94-condensate pipes；95-annular air distributions Pipe；96-flue gas spouts；97-mixing chambers；98-escape pipes；10-high-level water storage casees；11-high-order water pumps；12-low level water tanks； 13-low level water pumps；14-regulating valves.

Specific embodiment

Specific embodiment of the present utility model and the course of work are further described with reference to the accompanying drawing.

The positional terms such as the upper, lower, left, right, front and rear in present specification be positional relationship based on the figure and It establishes.Attached drawing is different, then corresponding positional relationship is also possible to change therewith, therefore cannot be interpreted as with this to protection model The restriction enclosed.

As depicted in figs. 1 and 2, a kind of warm and humid coupling gas fired-boiler low nitrogen burning system, including gas fired-boiler, phase transformation cohesion Water collection device 4, temperature and humidity regulator 7, mixer 9 and pressure fan 8.Gas fired-boiler includes sequentially connected burner hearth 2 and convection heating surface 3.2 interior forward end of burner hearth is provided with burner.Phase transformation agglomerate the setting of water collection device 4 convection heating surface 3 and temperature and humidity regulator 7 it Between.Cigarette air pipe line is respectively equipped between phase transformation cohesion water collection device 4 and convection heating surface 3 to be connected with heat-exchange working medium pipeline.Phase transformation is solidifying It is formed and is connected by circulation between poly- water collection device 4 and temperature and humidity regulator 7.Temperature and humidity regulator 7 is also connected with mixer 9.Mixer 9 with Phase transformation agglomerates the cigarette air pipe line between water collection device 4 and convection heating surface 3 and is connected by gas recirculating fan 6, flue gas recirculation Flue gas recirculation regulating valve 5 is provided between blower 6 and cigarette air pipe line.Mixer 9 is connected with burner.Temperature and humidity regulator 7, phase Become between cohesion water collection device 4 and convection heating surface 3 and is connected equipped with heat-exchange working medium pipeline.Pressure fan is connected to mixer and burner Between between (Fig. 1) or mixer and temperature and humidity regulator (Fig. 2).It is additionally provided with air inlet adjustment valve 1 before burner inlet, is used for Adjust total blast volume.

High-level water storage case 10 and high-order water pump 11, warm and humid tune are provided between phase transformation cohesion water collection device 4 and temperature and humidity regulator 7 The circuit saved between device 7 and phase transformation cohesion water collection device 4 is equipped with low level water tank 12 and low level water pump 13.

As shown in figure 4, flowing first rear direction by air-flow in phase transformation cohesion water collection device 4 is successively arranged phase inversion heat pipe 41, spray Drench cooling pipe row 42 and labyrinth type water collection device 43.42 several spraying cooling pipes of setting of spraying cooling pipe row, the inclination of spraying cooling pipe Arrangement, and spraying cooling pipe is provided with several spray ports towards 41 side of phase inversion heat pipe, spray port injection direction is towards phase transformation It 41 side of heat exchanger tube and tilts upward in 0~30 °.The setting of labyrinth type water collection device 43 is exported in phase transformation cohesion water collection device 4, including Several V-types being set side by side or I-shaped baffle plate.

As shown in figure 5,7 entrance of temperature and humidity regulator is to be equipped with several uniform flow orifices 73 in divergent segment in divergent segment, make air What is be evenly distributed enters temperature and humidity regulator 7.Spray humidification pipe row 72 and fin heat exchange tube 71 are additionally provided in temperature and humidity regulator 7.Fin Piece heat exchanger tube 71 is arranged close to 7 outlet section of temperature and humidity regulator.Spray humidification pipe row 72 tilts cloth towards 7 entrance of temperature and humidity regulator It sets.Spray humidification pipe row 72 includes several sprays humidification pipe, the spout that several directions come gas direction is provided with, by condensed water Inclination sprays to air-flow.

Mixer 9 includes air inlet pipe 91, escape pipe 98 and the mixing chamber 97 being arranged between air inlet pipe 91 and escape pipe 98 And flue gas recycled inlet tube 93 and condensate pipe 94 on mixing chamber 97 are set.Condensate pipe 94 is arranged in mixing chamber 97 Bottom, and condensate pipe 94 is connect with the low level water tank 12.

One of technical solution is as shown in figure 5, what air inlet pipe 91, escape pipe 98 and the mixing chamber 97 were arranged coaxially Cylinder, and 97 diameter of the mixing chamber is 1.2~1.5 times of 91 diameter of air inlet pipe；The air inlet pipe 91 is mixed with described It closes and is equipped with the connection of diffuser 92 between chamber 97；The flue gas recycled inlet tube 93 is cut from the side circumferential direction of mixing chamber 97.

Another technical solution is as shown in Figure 6.Mixing chamber 97 is externally provided with ring-shaped flue 95, at this time 91/ escape pipe of air inlet pipe 98 with the cross section of mixing chamber 97 can be round or rectangle, and corresponding ring-shaped flue 95 is also circular ring shape or rectangular loop.Rectangle Section such as Fig. 6 a) shown in.If being evenly distributed with dry flue gas spout 96 on ring-shaped flue 95, flue gas spout 96 connects ring-shaped flue 95 With mixing chamber 97.Fig. 6 b) show the mixer of rectangular section.Flue gas spout 96 is arranged by 50~60m/s of design current velocity.

It passes air through after uniform flow orifice 73 is evenly distributed with and enters temperature and humidity regulator 7；Spray condensed water is passed through into spray humidification pipe Row 72 sprays into temperature and humidity regulator 7.Make to spray condensed water and air direct contact heat transfer, while heating air, a part condensation Water directly evaporates, and another part condensation water drop is carry by air to be continued in the fin heat exchange tube 71 of temperature and humidity regulator 7 Heat exchange；So that boiler blow-down water is entered the fin heat exchange tube 71 of temperature and humidity regulator 7 and the air heat-exchange that carry condensation water drop, makes sky It is evaporated after condensed water drop absorption boiler blow-down water heat in gas, while air absorbs temperature raising after heat, and increases air In water vapour be saturated partial pressure.The boiler blow-down water amount for entering temperature and humidity regulator 7 is adjusted by regulating valve 14, and warm and humid adjusting is adjusted The air that device 7 exports is to 30~50 DEG C.

Air after humidification heating is uniformly mixed into mixer 9 with flue gas recycled, the mixing air after making blending Temperature rises to 50~60 DEG C, decrease in oxygen partial pressure to 18-20%.

Mixing air is sent into burner by air inlet adjustment valve 1, makes the combustion of natural gas into burner, generates high temperature Flue gas；High-temperature flue gas passes through the heat exchange of burner hearth 2 and convection heating surface 3, and flue-gas temperature is reduced to 110~130 DEG C.

Part of smoke is set to pass through flue gas recirculation under the adjusting of flue gas recirculation regulating valve 5 as flue gas recycled Blower 6 is mixed with air into mixer 9 as mixing air.At this point, adjust flue gas recycled amount be amount of flue gas emission 5~ 10%.

Another part flue gas enters phase transformation cohesion water collection device 4, successively by phase inversion heat pipe 41,42 spray of spraying cooling pipe row The heat exchange of leaching makes flue-gas temperature be reduced to 50~60 DEG C.Drop is collected under flue gas carrying by labyrinth type water collection device 43, simultaneously Condensed water converges into catch basin 44 in spent shower water, flue gas, is then flowed into high-level water storage case 10, by high-order water pump 11 Pressurization is sent into the spray humidification pipe row 72 of temperature and humidity regulator 7 as spray condensed water warming and humidifying air.Spray condensed water heating Cooling becomes condensed water after humidifying air, converges into low level water tank 12.The condensed water in mixer 9 is from condensate pipe simultaneously 94, which are also delivered to low level water tank 12, collects.These condensed waters are sent into phase transformation after the pressurization of low level water pump 13 and agglomerate water collection device 4 Spraying cooling is carried out to flue gas in spraying cooling pipe row 42.

Air is heated by temperature and humidity regulator 7, can prevent cold air from directly mixing generation with flue gas recycled solidifying It bears water.The combustion air oxygen content of burner inlet is reduced to 18~19% by the addition of flue gas recycled, is reducing flame Simultaneously, effectively cooling furnace flame temperature finally reduces the generation of thermal NO x to burn rate.Spraying the purpose being humidified is then In the case where guaranteeing combustion air oxygen content, increase three atomic gas contents in combustion air, the specific heats of gases, which are held, to increase, into one Step reduces combustion flame temperature.By the humidity in increase air, the partial pressure of oxygen in air is reduced, under the two coupling, Realize that (NOx emission is lower than 15mg/Nm to super low nitrogen burning³(@3.5%)) while, the stability of combustion flame can be increased.

Boiler blow-down water can be transported to fin heat exchange tube 71, the phase-change heat-exchange of temperature and humidity regulator 7 by heat-exchange working medium pipeline The phase inversion heat pipe 41 and convection heating surface 3 of pipe 4, after successively exchanging heat again for users to use.Tune is provided on heat-exchange working medium pipeline It saves valve and carries out flow adjusting distribution.

The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the utility model, for this For the technical staff in field, various modifications and changes may be made to the present invention.It is all in the spirit and principles of the utility model Within, any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.

Claims (8)

1. a kind of warm and humid coupling gas fired-boiler low nitrogen burning system, which is characterized in that the low nitrogen burning system includes gas-fired boiler Furnace, phase transformation cohesion water collection device (4), temperature and humidity regulator (7) and mixer (9)；The gas fired-boiler includes the burner hearth being sequentially connected (2) and convection heating surface (3)；Burner hearth (2) interior forward end is provided with burner；Phase transformation cohesion water collection device (4) setting Between the convection heating surface (3) and the temperature and humidity regulator (7), phase transformation cohesion water collection device (4) and the convection current by Cigarette air pipe line is respectively equipped between hot face (3) to be connected with heat-exchange working medium pipeline；Phase transformation cohesion water collection device (4) with it is described warm and humid It is formed and is connected by circulation between adjuster (7)；The temperature and humidity regulator (7) is connected with the mixer (9)；The mixer (9) Cigarette air pipe line between phase transformation cohesion water collection device (4) and the convection heating surface (3) passes through gas recirculating fan (6) It is connected, and the mixer (9) is connected with the burner；The temperature and humidity regulator (7), phase transformation cohesion are water collection device (4) and right It flows and is connected between heating surface (3) equipped with heat-exchange working medium pipeline.

2. the warm and humid coupling gas fired-boiler low nitrogen burning system of one kind according to claim 1, which is characterized in that the phase transformation High-level water storage case (10) and high-order water pump (11), the temperature are provided between cohesion water collection device (4) and the temperature and humidity regulator (7) Circuit between wet adjuster (7) and phase transformation cohesion water collection device (4) is equipped with low level water tank (12) and low level water pump (13)。

3. the warm and humid coupling gas fired-boiler low nitrogen burning system of one kind according to claim 2, which is characterized in that the mixing Device (9) includes air inlet pipe (91), escape pipe (98) and the mixing chamber (97) being arranged between air inlet pipe (91) and escape pipe (98) And the flue gas recycled inlet tube (93) and condensate pipe (94) being arranged on mixing chamber (97)；The condensate pipe (94) sets It sets in mixing chamber (97) bottom, and the condensate pipe (94) is connect with the low level water tank (12).

4. the warm and humid coupling gas fired-boiler low nitrogen burning system of one kind according to claim 3, which is characterized in that the air inlet The cylinder that pipe (91), escape pipe (98) are arranged coaxially with the mixing chamber (97), and the mixing chamber (97) diameter is institute 1.2~1.5 times for stating air inlet pipe (91) diameter；Diffuser (92) are equipped between the air inlet pipe (91) and the mixing chamber (97) Connection；The flue gas recycled inlet tube (93) is cut from the side circumferential direction of mixing chamber (97).

5. the warm and humid coupling gas fired-boiler low nitrogen burning system of one kind according to claim 3, which is characterized in that the mixing Chamber (97) is externally provided with ring-shaped flue (95), ring-shaped flue (95) if on be evenly distributed with dry flue gas spout (96), flue gas spray Mouth (96) connects described ring-shaped flue (95) and the mixing chamber (97).

6. the warm and humid coupling gas fired-boiler low nitrogen burning system of one kind according to claim 5, which is characterized in that the flue gas Spout (96) is arranged by 50~60m/s of design current velocity.

7. the warm and humid coupling gas fired-boiler low nitrogen burning system of one kind according to claim 1, which is characterized in that the phase transformation Phase inversion heat pipe (41), spraying cooling pipe row (42) and labyrinth type water collection device (43) are successively arranged in cohesion water collection device (4)；It is described Spraying cooling pipe arranges (42) and several spraying cooling pipes is arranged, and the spraying cooling pipe is in tilted layout, and spraying cooling pipe court Phase inversion heat pipe (41) side is provided with several spray ports, the spray port injection direction is towards the phase inversion heat pipe (41) it side and tilts upward in 0~30 °；Labyrinth type water collection device (43) setting goes out in phase transformation cohesion water collection device (4) Mouthful, including several V-types being set side by side or I-shaped baffle plate.

8. the warm and humid coupling gas fired-boiler low nitrogen burning system of one kind according to claim 1, which is characterized in that described warm and humid Adjuster (7) entrance is to be equipped with several uniform flow orifices (73) in the divergent segment in divergent segment；In the temperature and humidity regulator (7) It is additionally provided with spray humidification pipe row (72) and fin heat exchange tube (71)；The fin heat exchange tube (71) goes out close to temperature and humidity regulator (7) Mouth section setting, the spray humidification pipe row (72) are in tilted layout towards the temperature and humidity regulator (7) entrance.