CN104896491A - Four-outlet biserial rear smoke wind system combined layout structure with flue gas waste heat recovery device - Google Patents

Abstract

The invention relates to a four-outlet biserial rear smoke wind system combined layout structure with a flue gas waste heat recovery device. The four-outlet biserial rear smoke wind system combined layout structure comprises four dust catcher outlets, a draught fan structure, a desulfurizing absorption tower, a wet type Electrostatic precipitator structure and a chimney; the draught fan structure is a biserial draught fan structure composed of two draught fans, an air inlet of each draught fan is communicated with the two corresponding dust catcher outlets, and the two draught fans are connected with an air inlet of the desulfurizing absorption tower through the flue gas waste heat recovery device; the wet type Electrostatic precipitator structure is made of a wet type Electrostatic precipitator, two air outlets of the desulfurizing absorption tower are connected with two air inlets of the wet type Electrostatic precipitator, and two air outlets of the wet type Electrostatic precipitator are connected with an air inlet of the chimney through a collecting pipe; and the draught fan structure, the flue gas waste heat recovery device and the four dust catcher outlets are disposed between the desulfurizing absorption tower and the chimney, the draught fan structure and the flue gas waste heat recovery device are located below the four dust catcher outlets, and the wet type Electrostatic precipitator structure is located over the four dust catcher outlets. The four-outlet biserial rear smoke wind system combined layout structure has the advantages of the less occupied area, initial investment cost reduction and the like, and also has the effects of efficient operation, energy conservation and the like.

Description

With air and gas system combination layout structure after four outlet biserials of flue gas waste heat recovery apparatus

Technical field

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

Background technology

In coal-fired station's project, deduster and air-introduced machine are one of important land requisition index to the distance of chimney center line, after flue gas system most equipment is all arranged in stove, and front flue and deduster are arranged relatively fixing, after mainly deduster is concentrated on to the optimization of arranging after stove.To the arrangement form after deduster, main layout general layout is substantially all adopt each equipment in-line arrangement both at home and abroad, arranges air-introduced machine 1-2, arrange desulfuration absorbing tower 1-3, wet electrical dust precipitator 1-4 and chimney 1-5 after air-introduced machine 1-2 after deduster 1-1.As shown in Figure 1, after deduster 1-1, each equipment adopts in-line arrangement, air-introduced machine 1-2 is arranged between deduster 1-1 and desulfuration absorbing tower 1-3, the outlet of biserial air-introduced machine is just towards desulfuration absorbing tower 1-3 entrance, be staggeredly arranged with desulfuration absorbing tower 1-3 center line, wet electrical dust precipitator 1-4 and air-introduced machine 1-2 position far away.

The plane distribution arrangement mainly adopting shape in one line, T-shaped or rectangle along row scheme arranged by flue after tradition deduster.It adopts shape in one line, T-shaped flue is arranged and widened the fore-and-aft distance of house outlet to chimney center line, adds the material consumption of floor space and flue; And adopting rectangular flue to arrange, resistance and the material consumption of flue will increase further, and auxiliary power consumption is increased, and have level 90 ° of elbows before desulfuration absorbing tower entrance, and Flow Field Distribution is uneven, and impact enters 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 in one line, T-shaped or plane are in rectangular layout, all can owing to pulling open the fore-and-aft distance between deduster and desulfuration absorbing tower, and produce the problems such as the layout after deduster is taken up an area greatly, flue is long, flue resistance is large, 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, simultaneously also because the resistance of flue increases, also directly affect the performance driving economy in power plant.

Summary of the invention

Object of the present invention, being that arrangement in order to solve equipment after existing coal-fired station deduster takes up an area the technical problems such as large, flue is long, flue resistance is large, providing a kind of with air and gas system combination layout structure after four outlet biserials of flue gas waste heat recovery apparatus.

Object of the present invention realizes by following technical scheme:

With air and gas system combination layout structure after four outlet biserials of flue gas waste heat recovery apparatus, comprise four house outlet, air-introduced machine structure, desulfuration absorbing tower, wet-esp structure and chimney, air-introduced machine structure is the biserial air-introduced machine structure be made up of two air-introduced machines, the air inlet of every platform air-introduced machine is communicated with two house outlet, and described 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 a wet electrical dust precipitator, and two air outlets of desulfuration absorbing tower are connected to two air inlets of wet electrical dust precipitator, and two air outlets of wet electrical dust precipitator connect the air inlet of chimney by collecting pipe; Desulfuration absorbing tower is vertical structure, the top that air inlet is arranged on the lower sidewall of tower body, air outlet is arranged on tower body of desulfuration absorbing tower; Air-introduced machine structure, flue gas waste heat recovery apparatus and four house outlet are arranged between desulfuration absorbing tower and chimney, air-introduced machine structure and flue gas waste heat recovery apparatus are positioned at the below of four house outlet, wet-esp structure is positioned at the top of four house outlet, described four house outlet are in being horizontally disposed with, the air outlet of air-introduced machine structure is in being horizontally disposed with, air inlet and the air outlet of flue gas waste heat recovery apparatus are vertical setting, and form the three-dimensional combination layout structure of longitudinal and transverse, vertical two dimension.

Object of the present invention also realizes by following technical scheme:

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

Further, wet-esp structure installment is on the flue connecting desulfuration absorbing tower and chimney, on the air-introduced machine of the described air-introduced machine structure center line between desulfuration absorbing tower and chimney, described air-introduced machine is arranged on immediately below wet-esp structure side by side, described house outlet is located at position, air-introduced machine one or both sides, and every two house outlet access an air-introduced machine by flue.

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

Further, described air-introduced machine and flue gas waste heat recovery apparatus are between desulfuration absorbing tower and chimney on position of center line.

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

Further, in four house outlet, every two outlets are connected with the air inlet of an air-introduced machine by a two-in-one collecting pipe one.

Further, two air outlets of described desulfuration absorbing tower access the air inlet of wet electrical dust precipitators by two output flues, two output flues of wet-esp structure are accessed in chimney by a two-in-one collecting pipe two.

Further, the turning of described each flue adopts circular slow turning head to connect.

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

Beneficial effect of the present invention:

1, wet electrical dust precipitator structure of the present invention is made up of four wet electrical dust precipitators; Desulfuration absorbing tower is provided with two air inlets and two air outlets, and two air outlets of desulfuration absorbing tower respectively connect two air inlets of a wet electrical dust precipitator, and two air outlets of wet electrical dust precipitator connect the air inlet of chimney by collecting pipe; Desulfuration absorbing tower is vertical structure, and the air inlet of desulfuration absorbing tower is arranged on lower sidewall, air outlet is arranged on top; Air-introduced machine structure, flue gas waste heat recovery apparatus and four house outlet are arranged between desulfuration absorbing tower and chimney, air-introduced machine structure is positioned at the below of four house outlet, wet electrical dust precipitator structure is positioned at the top of four house outlet, described four house outlet are in being horizontally disposed with, and the air inlet of air-introduced machine structure is vertical setting, air outlet is in being horizontally disposed with; Formed except the three-dimensional combination layout structure of longitudinal and transverse, vertical two dimension; Therefore, it is possible to shorten the distance of house outlet and chimney center line, have significantly reduce flue quantity of material, reduce flue gas system crushing, equipment is more efficiently run, reduce auxiliary power consumption, improve unit operation economy and take up an area little, flue material is few, resistance is little and flue gas flow field evenly, reduce the beneficial effects such as initial cost cost, also there is energy-saving effect simultaneously.

2, the air outlet of air-introduced machine of the present invention connects with flue gas waste heat recovery apparatus air intake vent, flue gas waste heat recovery apparatus air outlet connects with desulfuration absorbing tower air intake vent, the flue connected is curved, and air-introduced machine, flue gas waste heat recovery apparatus and wet electrical dust precipitator are located between desulfuration absorbing tower and chimney, be positioned on the center line of desulfuration absorbing tower and chimney, distribute in vertical type, therefore, there is occupation of land little, flue material is few, resistance is little and flue gas flow field is even, the advantages such as initial cost cost can be reduced, also effectively can reduce the exhaust resistance of air-introduced machine, make smoke distribution even, improve desulfuration efficiency, thus improve the performance driving economy in power plant.

3, house outlet of the present invention can be distributed in the position, one or both sides of air-introduced machine, layout can variously be rationalized, and multiple house outlet is connected with the air inlet of air-introduced machine by collecting pipe one, two air intake vents of wet electrical dust precipitator connect with desulfuration absorbing tower respectively by ventilation duct arranged side by side, and two air outlets of wet electrical dust precipitator are communicated with chimney air-out passage by two-in-one collecting pipe.Effectively can lower the flowing resistance of ventilation shaft thus, improve the operational efficiency of air inducing equipment and flue.

4, wet electrical dust precipitator incoming end of the present invention is by two access flue access desulfuration absorbing towers arranged side by side, output passes through two output flue outputs arranged side by side, by discharging in a two-in-one collecting pipe access chimney during output, reduce wet electrical dust precipitator area occupied thus, and smoke distribution is more evenly exported, improve the discharge efficiency of flue.

Accompanying drawing explanation

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

Fig. 2 is the structural representation of the present invention's specific embodiment.

Fig. 3 is the front view of Fig. 1.

Fig. 4 is the top view of Fig. 1.

Detailed description of the invention

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

Embodiment 1:

With reference to shown in Fig. 2 to Fig. 4, with air and gas system combination layout structure after four outlet biserials of flue gas waste heat recovery apparatus, comprise four house outlet 1, air-introduced machine structure, desulfuration absorbing tower 3, wet-esp structure and chimney 5, air-introduced machine structure is the biserial air-introduced machine structure be made up of two air-introduced machines 2, the air inlet of every platform air-introduced machine 2 is communicated with two house outlet 1, and described two air-introduced machines 2 connect the air inlet of desulfuration absorbing tower 3 by flue gas waste heat recovery apparatus 7; Wet-esp structure is made up of a wet electrical dust precipitator 4, and two air outlets of desulfuration absorbing tower 3 respectively connect two air inlets of a wet electrical dust precipitator 4, and two air outlets of wet electrical dust precipitator 4 connect the air inlet of chimney 5 by collecting pipe; Desulfuration absorbing tower 3 is vertical structure, the top that air inlet is arranged on the lower sidewall of tower body, air outlet is arranged on tower body of desulfuration absorbing tower 3; Air-introduced machine structure, flue gas waste heat recovery apparatus 7 and four house outlet 1 are arranged between desulfuration absorbing tower 3 and chimney 5, air-introduced machine structure and flue gas waste heat recovery apparatus 7 are positioned at the below of four house outlet 1, wet-esp structure is positioned at the top of four house outlet 1, described four house outlet 1 are in being horizontally disposed with, the air outlet of air-introduced machine structure is in being horizontally disposed with, air inlet and the air outlet of flue gas waste heat recovery apparatus 7 are vertical setting, and form the three-dimensional combination layout structure of longitudinal and transverse, vertical two dimension.

In embodiment:

Described desulfuration absorbing tower 3 is provided with two air inlets and two air outlets, the air outlet of two air-introduced machines 2 connects the air intake vent of flue gas waste heat recovery apparatus 7, and the air outlet of flue gas waste heat recovery apparatus 7 connects two air inlets of desulfuration absorbing tower 3 by two parallel side-by-side discharge pipes 71.The air outlet of desulfuration absorbing tower 3 connects with the air intake vent of wet-esp structure, this wet-esp structure installment is connecting desulfuration absorbing tower 3 with on the flue of chimney 5, on the air-introduced machine 2 of the described air-introduced machine structure center line between desulfuration absorbing tower 3 and chimney 5, described air-introduced machine is arranged on immediately below wet-esp structure side by side, described house outlet 1 is located at position, air-introduced machine 2 one or both sides, and every two house outlet 1 access an air-introduced machine 2 by flue.

Described air-introduced machine 2 and flue gas waste heat recovery apparatus 7 are between desulfuration absorbing tower 3 and chimney 5 on position of center line, the connection flue of this flue gas waste heat recovery apparatus 7 air outlet and desulfuration absorbing tower 3 is curved, the turning of each flue adopts circular slow 6 connection of turning, and makes flue gas waste heat recovery apparatus 7 and the flue between air-introduced machine 2 and desulfuration absorbing tower 3 be that vertical type distributes.

Maintenance distance is remained with between two air-introduced machines 2 of described air-introduced machine structure, the air outlet of described air-introduced machine 2 is connected by the air inlet of flue arranged side by side with flue gas waste heat recovery apparatus 7, and the air outlet of flue gas waste heat recovery apparatus 7 connects with desulfuration absorbing tower 3 air intake vent side by side.

Taking up room to save further, simplifying its structure, in four house outlet 1, every two house outlet 1 are connected with the air inlet of an air-introduced machine 2 by a two-in-one collecting pipe 1; Two air outlets of described desulfuration absorbing tower 3 access the air inlet of wet electrical dust precipitators by arranged side by side two output flues, two output flues of wet-esp structure are accessed in chimney 5 by a two-in-one collecting pipe 2 41.

Described air-introduced machine 2 entrance is provided with the access head of 0-180 ° of corner.

Above-mentioned collecting pipe 1 and collecting pipe 2 41 are utility model patent " cigarette air channel and two-in-one collecting pipe (patent No.: ZL 201420211669.0) thereof " technology adopting the applicant's application, and described each equipment and flue can be fixed by common support framework.

For conventional coal-fired station, main building mainly arranges two parts after point steam turbine building, boiler room and stove.Boiler and the equal centralized arrangement of air and gas system are after boiler room (containing bunker bay) and stove, and wherein the relative position of boiler and deduster is substantially fixing.

In this combined layout scheme: every two house outlet 1 enter air-introduced machine 2 entrance by a two-in-one collecting pipe 1, two air-introduced machines and the horizontal parallel side-by-side of flue gas waste heat recovery apparatus 7 are arranged between desulfuration absorbing tower and chimney, be positioned at below wet electrical dust precipitator 4, air-introduced machine 2 exhaust pass is connected with flue gas waste heat recovery apparatus 7 entrance, flue gas waste heat recovery apparatus 7 outlet connects with desulfuration absorbing tower 3 entrance, desulfuration absorbing tower 3 exports employing two circular connecting pipe road uniform distribution flue gases, wet electrical dust precipitator 4 is entered by slow 6 slow the turning of turning of circle, wet electrical dust precipitator 4 is arranged directly over air-introduced machine 2, flue gas purifies further through wet electrical dust precipitator 4, outlet adopts two-in-one collecting pipe 2 41 interflow to enter chimney.The air-introduced machine 2 of final vertical distribution is up and down arranged with 5 one-tenth, chimney " one " font with the desulfuration absorbing tower 3 that wet electrical dust precipitator 4 and its both sides distribute.

The air-introduced machine 2 of upper associating arrangement is provided with the access head of 0-180 ° of corner by porch, make air-introduced machine 2 entrance can 0-180 ° of angle air intake, outlet connects with flue gas waste heat recovery apparatus 7 entrance, flue gas waste heat recovery apparatus 7 exports and desulfuration absorbing tower 3 entrance, make desulfuration absorbing tower 3 inlet flue gas even flow field, improve desulfuration efficiency; Two air-introduced machine 2 both sides reserve separately and are not less than the wide maintenance distance place of 5m, are convenient to safeguard; Between each equipment, flue turning is by circular slow 6 switching of turning, and make the smooth and easy connection of flue, flue resistance reduces.After deduster, the layout of each equipment and flue makes full use of desulfuration absorbing tower 3 and chimney 5 transverse direction and vertical space, and the distance between house outlet 1 to chimney 5 center line is significantly reduced within 27 meters.

Claims (10)

1. be with flue gas waste heat recovery apparatus four outlet biserials after air and gas system combination layout structure, comprise four house outlet (1), air-introduced machine structure, desulfuration absorbing tower (3), wet-esp structure and chimney (5), it is characterized in that: air-introduced machine structure is the biserial air-introduced machine structure be made up of two air-introduced machines (2), the air inlet of every platform air-introduced machine (2) is communicated with two house outlet (1), and described two air-introduced machines (2) connect the air inlet of desulfuration absorbing tower (3) by flue gas waste heat recovery apparatus (7), wet-esp structure is made up of a wet electrical dust precipitator (4), two air outlets of desulfuration absorbing tower (3) are connected to two air inlets of wet electrical dust precipitator (4), and two air outlets of wet electrical dust precipitator (4) connect the air inlet of chimney (5) by collecting pipe, desulfuration absorbing tower (3) is vertical structure, the top that air inlet is arranged on the lower sidewall of tower body, air outlet is arranged on tower body of desulfuration absorbing tower (3), air-introduced machine structure, flue gas waste heat recovery apparatus (7) and four house outlet (1) are arranged between desulfuration absorbing tower (3) and chimney (5), air-introduced machine structure and flue gas waste heat recovery apparatus (7) are positioned at the below of four house outlet (1), wet-esp structure is positioned at the top of four house outlet (1), described four house outlet (1) are in being horizontally disposed with, the air outlet of air-introduced machine structure is in being horizontally disposed with, air inlet and the air outlet of flue gas waste heat recovery apparatus (7) are vertical setting, formed vertical, horizontal, the three-dimensional combination layout structure of vertical two dimension.

2. band flue gas waste heat recovery apparatus according to claim 1 four outlet biserials after air and gas system combination layout structure, it is characterized in that: described desulfuration absorbing tower (3) is provided with two air inlets and two air outlets, the air outlet of two air-introduced machines (2) connects the air intake vent of flue gas waste heat recovery apparatus (7), and the air outlet of flue gas waste heat recovery apparatus (7) connects two air inlets of desulfuration absorbing tower (3) by two parallel side-by-side discharge pipes (71).

3. band flue gas waste heat recovery apparatus according to claim 1 and 2 four outlet biserials after air and gas system combination layout structure, it is characterized in that: wet-esp structure installment is connecting desulfuration absorbing tower (3) with on the flue of chimney (5), the air-introduced machine (2) of described air-introduced machine structure is positioned on the center line between desulfuration absorbing tower (3) and chimney (5), described air-introduced machine is arranged on immediately below wet-esp structure side by side, described house outlet (1) is located at air-introduced machine (2) position, one or both sides, every two house outlet (1) access an air-introduced machine (2) by flue.

4. band flue gas waste heat recovery apparatus according to claim 3 four outlet biserials after air and gas system combination layout structure, it is characterized in that: the connection flue of described flue gas waste heat recovery apparatus (7) air outlet and desulfuration absorbing tower (3) is curved.

5. air and gas system combination layout structure after four outlet biserials of band flue gas waste heat recovery apparatus according to claim 3, is characterized in that: described air-introduced machine (2) and flue gas waste heat recovery apparatus (7) to be positioned between desulfuration absorbing tower (3) and chimney (5) on position of center line.

6. band flue gas waste heat recovery apparatus according to claim 3 four outlet biserials after air and gas system combination layout structure, it is characterized in that: between two air-introduced machines (2) of described air-introduced machine structure, remain with maintenance distance, the air outlet of described air-introduced machine (2) is connected by the air inlet of flue arranged side by side with flue gas waste heat recovery apparatus (7), and the air outlet of flue gas waste heat recovery apparatus (7) connects with desulfuration absorbing tower (3) air intake vent side by side.

7. band flue gas waste heat recovery apparatus according to claim 3 four outlet biserials after air and gas system combination layout structure, it is characterized in that: in four house outlet (1), every two house outlet (1) are connected with the air inlet of an air-introduced machine (2) by a two-in-one collecting pipe one (11).

8. band flue gas waste heat recovery apparatus according to claim 3 four outlet biserials after air and gas system combination layout structure, it is characterized in that: two air outlets of described desulfuration absorbing tower (3) access the air inlet of wet electrical dust precipitators by two output flues, two output flues of wet-esp structure are accessed in chimney (5) by a two-in-one collecting pipe two (41).

9. air and gas system combination layout structure after four outlet biserials of band flue gas waste heat recovery apparatus according to claim 3, is characterized in that: the turning of described each flue adopts circular slow turning head (6) to connect.

10. band flue gas waste heat recovery apparatus according to claim 3 four outlet biserials after air and gas system combination layout structure, it is characterized in that: described air-introduced machine (2) entrance is provided with the access head of 0-180 ° of corner.