CN104879765B - Air and gas system combination layout structure after the six outlet biserials with flue gas waste heat recovery apparatus - Google Patents

Abstract

The present invention relates to air and gas system combination layout structure after a kind of six outlet biserials with flue gas waste heat recovery apparatus, including six house outlets, air-introduced machine structure, desulfuration absorbing tower, wet-esp structure and chimney, air-introduced machine structure be by two draft mechanisms into biserial air-introduced machine structure, the air inlet of every air-introduced machine connects three house outlets, and two air-introduced machines connect the air inlet of desulfuration absorbing tower by flue gas waste heat recovery apparatus；Wet-esp structure is made up of four wet electrical dust precipitators, and four air outlets of desulfuration absorbing tower respectively connect the air inlet of a wet electrical dust precipitator, and the air outlet of four wet electrical dust precipitators passes through the air inlet that collecting pipe connects chimney；Air-introduced machine structure, flue gas waste heat recovery apparatus and six house outlets are arranged between desulfuration absorbing tower and chimney, air-introduced machine structure and flue gas waste heat recovery apparatus are positioned at the lower section of six house outlets, wet-esp structure is positioned at the top of six house outlets, the present invention has the beneficial effects such as small, the reduction initial cost cost of floor space, while also has Effec-tive Function, energy-conservation and other effects.

Description

Air and gas system combination layout structure after the six outlet biserials with flue gas waste heat recovery apparatus

Technical field

The present invention relates to air and gas system combination layout structure after a kind of six outlet biserials with flue gas waste heat recovery apparatus.Category In power plant's smoke evacuation and ventilation equipment technical field.

Background technology

The distance of deduster and air-introduced machine to chimney center line is important land requisition index in coal-fired station's project One of, after flue gas system most equipment is all disposed within stove, and preceding flue and deduster arrangement are relatively fixed, to cloth after stove After the optimization put is concentrated mainly on deduster.To the arrangement form after deduster, main arrangement general layout, which is substantially, both at home and abroad adopts With each equipment in-line arrangement, deduster 1-1 arranges air-introduced machine 1-2, desulfuration absorbing tower 1-3, wet type is arranged after air-introduced machine 1-2 afterwards Electric cleaner 1-4 and chimney 1-5.As shown in figure 1, each equipment uses in-line arrangement after deduster 1-1, air-introduced machine 1-2 is arranged in Between deduster 1-1 and desulfuration absorbing tower 1-3, the outlet of biserial air-introduced machine simply towards desulfuration absorbing tower 1-3 entrances, is inhaled with desulfurization It is to be staggeredly arranged to receive tower 1-3 center lines, and wet electrical dust precipitator 1-4 and air-introduced machine 1-2 positions are farther out.

Flue arrangement in-line scheme after traditional deduster is mainly the plane point using shape in one line, T-shaped or rectangle Cloth arranges.It uses shape in one line, T-shaped flue arrangement to widen house outlet to the fore-and-aft distance of chimney center line, increases The material consumption of floor space and flue is added；And using rectangular flue to arrange, the resistance and material consumption of flue will enter one Step increase so that auxiliary power consumption increases, and has 90 ° of elbows of level before desulfuration absorbing tower entrance, and Flow Field Distribution is uneven, influences to enter Flue gas uniformity in desulfuration absorbing tower.

As can be seen here, after traditional deduster in arrangement, no matter air-introduced machine is that shape, T-shaped or plane in one line are in Rectangular arrangement, can be due to pulling open the fore-and-aft distance between deduster and desulfuration absorbing tower, and produces the arrangement after deduster and account for The problems such as ground is big, flue is long, flue resistance is big, but also increase flue resistance and flue consumption of materials.Virtually add Coal-fired station's floor space and flue cost, increase initial cost cost, increase as well as the resistance of flue, also directly Connect the performance driving economy for affecting power plant.

The content of the invention

The purpose of the present invention, taken up an area to solve the arrangement of equipment after existing coal-fired station's deduster A kind of technical problems such as greatly, flue is long, flue resistance is big, there is provided cigarette wind system after six outlet biserials with flue gas waste heat recovery apparatus System combination layout structure.

The purpose of the present invention can be achieved through the following technical solutions：

Air and gas system combination layout structure after the six outlet biserials with flue gas waste heat recovery apparatus, including six dedusters go out Mouth, air-introduced machine structure, desulfuration absorbing tower, wet-esp structure and chimney, air-introduced machine structure be by two draft mechanisms into Biserial air-introduced machine structure, the air inlet of every air-introduced machine connect three house outlets, and two air-introduced machines are by more than flue gas Heat reclamation device connects the air inlet of desulfuration absorbing tower；Wet-esp structure is made up of four wet electrical dust precipitators, and desulfurization is inhaled Four air outlets for receiving tower respectively connect the air inlet of a wet electrical dust precipitator, and the air outlet of four wet electrical dust precipitators passes through remittance Flow tube connects the air inlet of chimney；Desulfuration absorbing tower is vertical structure, and the air inlet of desulfuration absorbing tower is arranged on the side wall of tower body Bottom, air outlet are arranged on the top of tower body；Air-introduced machine structure, flue gas waste heat recovery apparatus and six house outlets are arranged on Between desulfuration absorbing tower and chimney, air-introduced machine structure and flue gas waste heat recovery apparatus are wet positioned at the lower section of six house outlets Formula electric precipitation structure is positioned at the top of six house outlets, and six house outlets are in horizontally disposed, air-introduced machine structure Air outlet in horizontally disposed, the air inlet and air outlet of flue gas waste heat recovery apparatus are vertical setting, and are formed longitudinal and transverse, vertical 3 D stereo combination layout structure.

The purpose of the present invention can be also achieved through the following technical solutions：

Further, the desulfuration absorbing tower is provided with two air inlets and four air outlets, the air outlet of two air-introduced machines The air intake vent of flue gas waste heat recovery apparatus is connected, the air outlet of flue gas waste heat recovery apparatus is connected by two parallel side-by-side discharge pipes Connect two air inlets of desulfuration absorbing tower.

Further, wet-esp structure is arranged on the flue of connection desulfuration absorbing tower and chimney, the air-introduced machine For the air-introduced machine of structure on the center line between desulfuration absorbing tower and chimney, the air-introduced machine is arranged on wet-esp side by side Immediately below structure, the house outlet is located at air-introduced machine one or both sides position, and every three house outlets are connect by flue Enter an air-introduced machine.

Further, the connection flue of the flue gas waste heat recovery apparatus air outlet and desulfuration absorbing tower is curved.

Further, in the longitudinal direction of the air-introduced machine and flue gas waste heat recovery apparatus between desulfuration absorbing tower and chimney On heart line position.

Further, maintenance distance is remained between two air-introduced machines of the air-introduced machine structure, the air-introduced machine goes out Air port is connected by flue arranged side by side with the air inlet of flue gas waste heat recovery apparatus, the air outlet of flue gas waste heat recovery apparatus side by side with Desulfuration absorbing tower air intake vent connects.

Further, in six house outlets, every three house outlets pass through a three-in-one collecting pipe and one The air inlet of air-introduced machine connects.

Further, four air outlets of the desulfuration absorbing tower by the four double-deck arranged side by side output flues access it is upper, The air inlet of the wet electrical dust precipitator of lower distribution, four output flues of wet-esp structure pass through a four-in-one collecting pipe Access in chimney.

Further, the turning of each flue is using circular slow turning head connection.

Further, the air-introduced machine entrance is provided with the access head of 0-180 ° of corner.

Beneficial effects of the present invention：

1st, wet electrical dust precipitator structure of the invention is made up of four wet electrical dust precipitators；Desulfuration absorbing tower enters provided with two Air port and four air outlets, four air outlets of desulfuration absorbing tower respectively connect the air inlet of a wet electrical dust precipitator, and four wet The air inlet of the air outlet collecting pipe connection chimney of formula electric cleaner；Desulfuration absorbing tower is vertical structure, and desulfuration absorbing tower enters Air port is arranged on lower sidewall, air outlet is arranged on top；Air-introduced machine structure, flue gas waste heat recovery apparatus and six dedusters go out Mouth is arranged between desulfuration absorbing tower and chimney, and air-introduced machine structure is positioned at the lower section of six house outlets, wet electrical dust precipitator Structure is positioned at the top of six house outlets, and six house outlets are in horizontally disposed, the air inlet of air-introduced machine structure It is vertical setting, air outlet is in horizontally disposed；Form longitudinal and transverse, the three-dimensional combination layout structure of vertical three-dimensional；Therefore can shorten The distance of house outlet and chimney center line, have and the quantity of material of flue is greatly decreased, reduces flue gas system crushing, make equipment More efficiently run, reduce auxiliary power consumption, raising unit operation economy and occupation of land are small, flue material is few, resistance is small and flue gas Even flow field, the beneficial effects such as initial cost cost are reduced, while also there is energy-saving effect.

2nd, the air outlet of air-introduced machine of the invention connects air intake vent with flue gas waste heat recovery apparatus, flue gas waste heat recovery apparatus Air outlet connects with desulfuration absorbing tower air intake vent, and the flue to connect is curved, and air-introduced machine, flue gas waste heat recovery apparatus and wet type Electric cleaner is located between desulfuration absorbing tower and chimney, on the center line of desulfuration absorbing tower and chimney, is distributed in vertical type, Therefore, there is the advantages that occupation of land is small, flue material is few, resistance is small and flue gas flow field is uniform, can reduce initial cost cost, can also have The exhaust resistance of the reduction air-introduced machine of effect, makes smoke distribution uniform, desulfuration efficiency is improved, so as to improve the economical operation in power plant Property.

3rd, house outlet of the invention can be distributed in the one or both sides position of air-introduced machine, and arrangement various can be rationalized. And multiple house outlets are connected by collecting pipe one with the air inlet of air-introduced machine, six wet electrical dust precipitator air intake vents lead to respectively Cross ventilation duct arranged side by side with desulfuration absorbing tower to connect, air outlet is communicated by three-in-one collecting pipe with chimney air-out passage.Thus The flowing resistance of ventilation shaft can effectively be lowered, improve air inducing equipment and the operational efficiency of flue.

4th, the installation of vertical double-layer block form, the incoming end of wet electrical dust precipitator pass through wet electrical dust precipitator of the invention up and down Four bilayers access flue access desulfuration absorbing tower arranged side by side, output end is exported by four bilayers output flue arranged side by side, defeated Accessed in chimney and discharged by a four-in-one collecting pipe when going out, thus reduce wet electrical dust precipitator area occupied, and make flue gas point Cloth more uniformly exports, and improves the discharge efficiency of flue.

Brief description of the drawings

Fig. 1 is the structural representation of prior art of the present invention.

Fig. 2 is the structural representation of a specific embodiment of the invention.

Fig. 3 is Fig. 1 front view.

Fig. 4 is Fig. 1 top view.

Embodiment

Below in conjunction with accompanying drawing, the present invention is described in further detail.

Embodiment 1：

Air and gas system combination layout structure after reference picture 2 to six outlet biserials of the Fig. 4 with flue gas waste heat recovery apparatus, including Six house outlets 1, air-introduced machine structure, desulfuration absorbing tower 3, wet-esp structure and chimney 5, it is characterised in that：Air inducing Machine structure is the biserial air-introduced machine structure being made up of two air-introduced machines 2, and the air inlet of every air-introduced machine 2 connects three dedusters and gone out Mouth 1, two air-introduced machines 2 pass through the air inlet that flue gas waste heat recovery apparatus 7 connects desulfuration absorbing tower 3；Wet-esp knot Structure is made up of four wet electrical dust precipitators 4, and each one wet electrical dust precipitator 4 of connection of four air outlets of desulfuration absorbing tower 3 enters Air port, the air outlet of four wet electrical dust precipitators 4 connect the air inlet of chimney 5 by collecting pipe；Desulfuration absorbing tower 3 is vertical knot Structure, the air inlet of desulfuration absorbing tower 3 is arranged on the lower sidewall of tower body, air outlet is arranged on the top of tower body；Air-introduced machine structure, Flue gas waste heat recovery apparatus 7 and six house outlets 1 are arranged between desulfuration absorbing tower 3 and chimney 5, air-introduced machine structure and cigarette Gas waste-heat recovery device 7 is positioned at the lower section of six house outlets 1, and wet-esp structure is positioned at six house outlets 1 Top, six house outlets 1 are in being horizontally disposed with, and the air outlet of air-introduced machine structure is in horizontally disposed, flue gas waste heat recovery The air inlet and air outlet of device 7 are vertical setting, and form longitudinal and transverse, the three-dimensional combination layout structure of vertical three-dimensional.

In embodiment：

The desulfuration absorbing tower 3 is provided with two air inlets and four air outlets, the air outlet connection flue gas of two air-introduced machines 2 The air intake vent of waste-heat recovery device 7, the air outlet of flue gas waste heat recovery apparatus 7 are de- by two connections of parallel side-by-side discharge pipe 71 Two air inlets on sulphur absorption tower 3.The air outlet of desulfuration absorbing tower 3 connects with the air intake vent of wet-esp structure, the wet type Electric precipitation structure is arranged on connection desulfuration absorbing tower 3 and on the flue of chimney 5, the air-introduced machine 2 of the air-introduced machine structure is positioned at de- On longitudinal centre line between sulphur absorption tower 3 and chimney 5, the air-introduced machine is arranged on immediately below wet-esp structure side by side, The house outlet 1 is located at the side position of air-introduced machine 2 one, and every three house outlets 1 access an air-introduced machine 2 by flue.

The air-introduced machine 2 and flue gas waste heat recovery apparatus 7 between desulfuration absorbing tower 3 and chimney 5 on position of center line, The connection flue of the air outlet of flue gas waste heat recovery apparatus 7 and desulfuration absorbing tower 3 is curved, and the turning of each flue is using circular slow First 6 connection of turning.The flue gas of air-introduced machine 2 can be made more smoothly to draw and be delivered to desulfuration absorbing tower 3, and be delivered to chimney 5.

Maintenance distance is remained between two air-introduced machines 2 of the air-introduced machine structure, the air outlet of the air-introduced machine 2 passes through Flue arranged side by side connects with the air inlet of flue gas waste heat recovery apparatus 7, and the air outlet of flue gas waste heat recovery apparatus 7 is inhaled with desulfurization side by side Receive the air intake vent of tower 3 to connect so that the flue between flue gas waste heat recovery apparatus 7 and air-introduced machine 2 and desulfuration absorbing tower 3 is in vertical type Distribution.

In order to further save space-consuming, simplify its structure, in described six house outlets 1, every three dedustings Device outlet 1 is connected by a three-in-one collecting pipe 11 with the air inlet of an air-introduced machine 2, four of the desulfuration absorbing tower 3 Air outlet accesses the air inlet of upper and lower distribution wet electrical dust precipitator by double-deck four output flues arranged side by side, and wet type electricity removes Four output flues of dirt structure are accessed in chimney 5 by a four-in-one collecting pipe 41.Described three-in-one collecting pipe 11 is Utility model patent " cigarette air channel and its three-in-one collecting pipe (patent No. of the applicant's application：ZL 2014 2 0211274.0)”；Four-in-one collecting pipe 11 is utility model patent " cigarette air channel and its four-in-one collecting pipe of the applicant's application (the patent No.：ZL ZL 2,014 2 0211431.8 ") technology.

Above-mentioned each equipment and flue can common support framework be fixed.

For conventional coal-fired station, main building mainly arranges three parts after point steam turbine building, boiler room and stove.Pot Behind boiler room (containing bunker bay) and stove, the relative position of wherein boiler and deduster is basic for stove and the equal centralized arrangement of air and gas system It is fixed.

In this combined layout scheme：Every three house outlets 1 enter an air-introduced machine 2 by a three-in-one collecting pipe 11 Entrance, two air-introduced machines and flue gas waste heat recovery apparatus 7 is horizontally-parallel is arranged in juxtaposition between desulfuration absorbing tower and chimney are located at The lower section of wet electrical dust precipitator 4, the exhaust pass of air-introduced machine 2 are connected with the entrance of flue gas waste heat recovery apparatus 7, flue gas waste heat recovery apparatus 7 exhaust pass connect with the entrance of desulfuration absorbing tower 3, and the outlet of desulfuration absorbing tower 3 evenly distributes cigarette using four circular connecting pipe roads Gas, arranged by slow first 6 slow rotate into of turning of circle into wet electrical dust precipitator 4, wet electrical dust precipitator 4 in the surface of air-introduced machine 2, Flue gas further purifies through wet electrical dust precipitator 4, and outlet enters chimney using the interflow of four-in-one collecting pipe 41.It is final vertical up and down The air-introduced machine 2 and wet electrical dust precipitator 4 of distribution and the desulfuration absorbing tower 3 and chimney 5 of the distribution of its both sides are arranged into " one " font.

The air-introduced machine 2 of above-mentioned combined layout scheme is provided with the access head of 0-180 ° of corner by porch, enters air-introduced machine 2 Mouthful can 0-180 ° of angle air intake, outlet be connected with the entrance of flue gas waste heat recovery apparatus 7, the exhaust pass of flue gas waste heat recovery apparatus 7 Connect with the entrance of desulfuration absorbing tower 3 so that the inlet flue gas even flow field of desulfuration absorbing tower 3, improve desulfuration efficiency；Two air-introduced machines 2 both sides each reserve the maintenance wide not less than 5m apart from place, are easy to safeguard；Flue turning is slow by circle between each equipment First 6 switching of turning, makes the smooth connection of flue, flue resistance reduces.Each equipment and the arrangement of flue make full use of de- after deduster Laterally and vertically the distance between space, house outlet 1 to the center line of chimney 5 is greatly decreased to 27 for sulphur absorption tower 3 and chimney 5 Within rice.

Claims (10)

1. air and gas system combination layout structure after the six outlet biserials with flue gas waste heat recovery apparatus, including six house outlets (1), air-introduced machine structure, desulfuration absorbing tower (3), wet-esp structure and chimney (5), it is characterised in that：Air-introduced machine structure is The biserial air-introduced machine structure being made up of two air-introduced machines (2), the air inlet of every air-introduced machine (2) connect three house outlets (1), two air-introduced machines (2) connect the air inlet of desulfuration absorbing tower (3) by flue gas waste heat recovery apparatus (7)；Wet type electricity Dedusting structure is made up of four wet electrical dust precipitators (4), and respectively one wet type electricity of connection removes four air outlets of desulfuration absorbing tower (3) The air inlet of dirt device (4), the air outlet of four wet electrical dust precipitators (4) connect the air inlet of chimney (5) by collecting pipe；Desulfurization Absorption tower (3) is vertical structure, and the air inlet of desulfuration absorbing tower (3) is arranged on the lower sidewall of tower body, air outlet is arranged on tower The top of body；Air-introduced machine structure, flue gas waste heat recovery apparatus (7) and six house outlets (1) are arranged on desulfuration absorbing tower (3) Between chimney (5), air-introduced machine structure and flue gas waste heat recovery apparatus (7) are positioned at the lower section of six house outlets (1), wet type Electric precipitation structure is positioned at the top of six house outlets (1), and six house outlets (1) are in horizontally disposed, air-introduced machine In horizontally disposed, the air inlet and air outlet of flue gas waste heat recovery apparatus (7) are vertical setting the air outlet of structure, formed it is vertical, Horizontal, vertical three-dimensional solid combination layout structure.

2. air and gas system combined layout knot after the six outlet biserials according to claim 1 with flue gas waste heat recovery apparatus Structure, it is characterised in that：The desulfuration absorbing tower (3) is provided with two air inlets and four air outlets, the air-out of two air-introduced machines (2) The air intake vent of mouth connection flue gas waste heat recovery apparatus (7), the air outlet of flue gas waste heat recovery apparatus (7) pass through two parallel side-by-sides Two air inlets of discharge pipe (71) connection desulfuration absorbing tower (3).

3. air and gas system combined layout after the six outlet biserials according to claim 1 or 2 with flue gas waste heat recovery apparatus Structure, it is characterised in that：Wet-esp structure is arranged on the flue of connection desulfuration absorbing tower (3) and chimney (5), described to draw The air-introduced machine (2) of blower fan structure is located on the center line between desulfuration absorbing tower (3) and chimney (5), and the air-introduced machine is pacified side by side Immediately below the wet-esp structure, the house outlet (1) is located at air-introduced machine (2) one or both sides position, every three House outlet (1) accesses an air-introduced machine (2) by flue.

4. air and gas system combined layout knot after the six outlet biserials according to claim 3 with flue gas waste heat recovery apparatus Structure, it is characterised in that：The connection flue of flue gas waste heat recovery apparatus (7) air outlet and desulfuration absorbing tower (3) is curved.

5. air and gas system combined layout knot after the six outlet biserials according to claim 3 with flue gas waste heat recovery apparatus Structure, it is characterised in that：The air-introduced machine (2) and flue gas waste heat recovery apparatus (7) be located at desulfuration absorbing tower (3) and chimney (5) it Between longitudinal center's line position on.

6. air and gas system combined layout knot after the six outlet biserials according to claim 3 with flue gas waste heat recovery apparatus Structure, it is characterised in that：Maintenance distance is remained between two air-introduced machines (2) of the air-introduced machine structure, the air-introduced machine (2) Air outlet is connected by flue arranged side by side with the air inlet of flue gas waste heat recovery apparatus (7), the air-out of flue gas waste heat recovery apparatus (7) Mouth connects with desulfuration absorbing tower (3) air intake vent side by side.

7. air and gas system combined layout knot after the six outlet biserials according to claim 3 with flue gas waste heat recovery apparatus Structure, it is characterised in that：In six house outlets (1), every three house outlets (1) pass through a three-in-one collecting pipe (11) Connect with the air inlet of an air-introduced machine (2).

8. air and gas system combined layout knot after the six outlet biserials according to claim 3 with flue gas waste heat recovery apparatus Structure, it is characterised in that：Four air outlets of the desulfuration absorbing tower (3) by the four double-deck arranged side by side output flues access it is upper, The air inlet of the wet electrical dust precipitator of lower distribution, four output flues of wet-esp structure pass through a four-in-one collecting pipe (41) access in chimney (5).

9. air and gas system combined layout knot after the six outlet biserials according to claim 3 with flue gas waste heat recovery apparatus Structure, it is characterised in that：The turning of each flue is using circular slow turning head (6) connection.

10. air and gas system combined layout knot after the six outlet biserials according to claim 3 with flue gas waste heat recovery apparatus Structure, it is characterised in that：Air-introduced machine (2) entrance is provided with the access head of 0-180 ° of corner.