CN203489264U - Powder burner - Google Patents

Abstract

The utility model discloses a powder burner which comprises an ignition pipeline, a primary air pipeline, a powder pipeline, a secondary air pipeline and a negative-pressure injection device. The primary air pipeline is arranged outside the ignition pipeline in a sleeved mode and provided with a primary air inlet, the powder pipeline is arranged outside the primary air pipeline in a sleeved mode and provided with a powder inlet, the secondary air pipeline is arranged outside the powder pipeline in a sleeved mode and provided with a secondary air inlet, one end of the ignition pipeline, one end of the primary air pipeline, one end of the powder pipeline and one end of the secondary air pipeline are communicated at an outlet of the powder burner, and the negative-pressure injection device is close to the powder inlet. According to the powder burner, the negative-pressure injection device lowers powder conveying pressure, energy loss in the powder conveying process of the powder burner is lowered, the length and shape of flames in the burning process are adjustable, and the flame control ability of the powder burner is enhanced.

Description

Powder burner

Technical field

The utility model relates to field of combustion technology, especially relates to a kind of powder burner.

Background technology

The ubiquitous problem of traditional powder burner is that fuel type is single, and adaptability is wideless, and production cost is high, in the course of conveying of powder before reaching burner, energy consumption is high, and conveying equipment is complicated, control system is loaded down with trivial details and cost is high, and burner combustion efficiency is low, flame poor controllability.

Utility model content

The utility model is intended at least solve one of technical problem existing in prior art.For this reason, an object of the present utility model is to propose a kind of powder burner, and described powder burner carries the pressure of powder low.

According to powder burner of the present utility model, comprising: igniting pipeline; A wind pipeline, a described wind pipeline is set in outside described igniting pipeline, has a wind inlet to pass into combustion-supporting gas in a described wind pipeline on a described wind pipeline; Powder pipeline, described powder pipeline is set in outside a described wind pipeline, has powder import to pass into described powder in described powder pipeline on described powder pipeline; Secondary Air pipeline, described Secondary Air pipeline is set in outside described powder pipeline, on described Secondary Air pipeline, have secondary air inlet to pass into combustion-supporting gas in described Secondary Air pipeline, one end of described igniting pipeline, a described wind pipeline, described powder pipeline and described Secondary Air pipeline communicates in the exit of described powder burner; And negative-pressure ejecting device, the contiguous described powder import of described negative-pressure ejecting device arranges, so that described powder injection is entered in described powder pipeline.

According to powder burner of the present utility model, by negative-pressure ejecting device is set, under the effect of pressure differential that powder can be between negative-pressure ejecting device and powder pipeline, by injection, entered in powder pipeline, thereby reduced the discharge pressure of powder, and then reduced the energy loss of powder burner in powder course of conveying, and can regulate in length and the shape of process Flame of burning, thereby strengthened the flame control ability of powder burner.

Alternatively, described powder pipeline is provided with powder pipe, and described powder pipe communicates with described powder pipeline by described powder import.

Further, described powder pipe is located on described powder pipeline obliquely.

Alternatively, the angle between described powder pipe and described horizontal plane is 20 °～60 °.Its concrete numerical value can be according to actual requirement setting, to have the effect of better conveying powder.

Further, described powder burner further comprises: air-supply pipeline, described air-supply pipeline communicates with a described wind pipeline, described Secondary Air pipeline by a described wind inlet, described secondary air inlet respectively.

Particularly, described air-supply pipeline is provided with airduct one time, described air-supply pipeline communicates with a described wind pipeline by a described airduct, and described air-supply pipeline is provided with secondary air channel, and described air-supply pipeline communicates with described Secondary Air pipeline by described secondary air channel.

Preferably, in a described airduct, be provided with wind adjusting valve one time, in described secondary air channel, be provided with Secondary Air adjusting valve.Thus, by wind adjusting valve and Secondary Air adjusting valve are set, by regulating the aperture of wind adjusting valve and Secondary Air adjusting valve, can effectively regulate the angle of flare of exit air-flow and the size of recirculating zone of powder burner, thereby can control on the whole the situation of whole powder burning, really realize efficient energy-saving, environmental protection burning.

Alternatively, the contiguous described wind inlet setting of a described wind adjusting valve, the contiguous described secondary air inlet setting of described Secondary Air adjusting valve.

Preferably, in a described wind pipeline and described powder pipeline, be respectively equipped with the first cyclone and the second cyclone.Thus, by the first cyclone and the second cyclone are set, can make powder sufficient combustion, prevent from producing localized hyperthermia's scaling loss because internal mix burning causes powder burner, and powder burner is applied widely, for example can be for fineness the powder between 60～300 orders.

Alternatively, described the first cyclone and described the second cyclone all arrange in the described exit of contiguous described powder burner.

Additional aspect of the present utility model and advantage in the following description part provide, and part will become obviously from the following description, or recognize by practice of the present utility model.

Accompanying drawing explanation

Above-mentioned and/or additional aspect of the present utility model and advantage accompanying drawing below combination obviously and is easily understood becoming the description of embodiment, wherein:

Fig. 1 is according to the schematic diagram of the powder burner of the utility model embodiment.

The specific embodiment

Describe embodiment of the present utility model below in detail, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has the element of identical or similar functions from start to finish.Below by the embodiment being described with reference to the drawings, be exemplary, only for explaining the utility model, and can not be interpreted as restriction of the present utility model.

In description of the present utility model, it will be appreciated that, orientation or the position relationship of the indications such as term " " center ", " laterally ", " on ", D score, " left side ", " right side ", " vertically ", " level ", " top ", " end ", " interior ", " outward " be based on orientation shown in the drawings or position relationship; be only the utility model and simplified characterization for convenience of description; rather than the device of indication or hint indication or element must have specific orientation, with specific orientation structure and operation, so can not be interpreted as restriction of the present utility model.In addition, term " first ", " second " be only for describing object, and can not be interpreted as indication or hint relative importance or the implicit quantity that indicates indicated technical characterictic.Thus, one or more these features can be expressed or impliedly be comprised to the feature that is limited with " first ", " second ".In description of the present utility model, except as otherwise noted, the implication of " a plurality of " is two or more.

In description of the present utility model, it should be noted that, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, and for example, can be to be fixedly connected with, and can be also to removably connect, or connect integratedly; Can be to be directly connected, also can indirectly be connected by intermediary, can be the connection of two element internals.For the ordinary skill in the art, can concrete condition understand the concrete meaning of above-mentioned term in the utility model.

Below with reference to Fig. 1, describe according to the powder burner 100 of the utility model embodiment.

As shown in Figure 1, according to powder burner 100 of the present utility model, comprise igniting pipeline 1, wind pipeline 2, powder pipeline 3, Secondary Air pipeline 4 and a negative-pressure ejecting device (scheming not shown).

One time wind pipeline 2 is set in outside igniting pipeline 1, has a wind inlet to pass into combustion-supporting gas in a wind pipeline 2 on a wind pipeline 2.For example, in the example of Fig. 1, the straight tube that igniting pipeline 1 is hollow, igniting pipeline 1 along continuous straight runs extends, the ignitron of igniter can stretch into from the right-hand member of igniting pipeline 1 in igniting pipeline 1, the lateral dimension of a wind pipeline 2 is greater than the lateral dimension of igniting pipeline 1, igniting pipeline 1 can stretch in a wind pipeline 2 like this, between the outer wall of the inwall of a wind pipeline 2 and igniting pipeline 1, jointly limit wind passage 21 one time, one time wind inlet is formed on a wind pipeline 2 and runs through wind pipeline 2 one time, one time wind inlet is connected with a wind passage 21, thereby combustion-supporting gas such as air etc. can enter in a wind passage 21 by a wind inlet.Alternatively, wind pipeline 2 length on left and right directions is less than the length of igniting pipeline 1 on left and right directions.Here, it should be noted that, the structure of igniter and operation principle etc. are known for a person skilled in the art, no longer describe in detail here.

Powder pipeline 3 is set in outside a wind pipeline 2, has powder import to pass into powder in powder pipeline 3 on powder pipeline 3.With reference to Fig. 1, the lateral dimension of powder pipeline 3 is greater than the lateral dimension of a wind pipeline 2, such wind pipeline 2 can stretch in powder pipeline 3, between the outer wall of the inwall of powder pipeline 3 and a wind pipeline 2, jointly limit powder passage 31, powder import is formed on powder pipeline 3 and runs through powder pipeline 3, powder import is connected with powder passage 31, thereby powder can enter in powder passage 31 by powder import such as coal dust, biomass powder etc.Alternatively, the length of powder pipeline 3 on left and right directions is less than wind pipeline 2 length on left and right directions.

Secondary Air pipeline 4 is set in outside powder pipeline 3, has secondary air inlet to pass into combustion-supporting gas in Secondary Air pipeline 4 on Secondary Air pipeline 4.As shown in Figure 1, the lateral dimension of Secondary Air pipeline 4 is greater than the lateral dimension of powder pipeline 3, powder pipeline 3 can stretch in Secondary Air pipeline 4 like this, between the outer wall of the inwall of Secondary Air pipeline 4 and powder pipeline 3, jointly limit secondary air channel 41, secondary air inlet is formed on Secondary Air pipeline 4 and runs through Secondary Air pipeline 4, secondary air inlet is connected with secondary air channel 41, thereby combustion-supporting gas such as air etc. can enter in secondary air channel 41 by secondary air inlet.Alternatively, the length of Secondary Air pipeline 4 on left and right directions is less than the length of powder pipeline 3 on left and right directions.

One end of igniting pipeline 1, wind pipeline 2, powder pipeline 3 and a Secondary Air pipeline 4 communicates at outlet 101 places of powder burner 100.For example, in the example of Fig. 1, the left end of powder burner 100 can be connected with the burner hearth of combustion apparatus (scheming not shown), that is to say, a wind passage 21, the left end of secondary air channel 41 and powder passage 31 is connected with the burner hearth of combustion apparatus respectively, a wind inlet is formed on the right-hand member of a wind pipeline 2, powder import is formed on the right-hand member of powder pipeline 3, secondary air inlet is formed on the right-hand member of Secondary Air pipeline 4, combustion-supporting gas and powder are respectively by a wind inlet, secondary air inlet and powder import enter a corresponding wind passage 21, secondary air channel 41 and powder passage 31, and at a wind passage 21, in secondary air channel 41 and powder passage 31, flow from right to left, when combustion-supporting gas and the powder left end by powder burner 100 enters in the burner hearth of combustion apparatus, the ignitron of igniter is lighted a fire so that combustion-supporting gas and powder burn in the high-temperature region of burner hearth.Because combustion-supporting gas and powder are in the outer burning of powder burner 100, thereby effectively prevented from producing the situation of localized hyperthermia's scaling loss because internal mix burning causes powder burner 100.

Alternatively, combustion apparatus can be industrial furnace, medium and small tonnage pulverized coal fired boiler, biomass powder and other powder combustion apparatus, the heat-treatment furnace of building materials heat-treatment furnace, glass kiln or machining etc.

The contiguous powder import of negative-pressure ejecting device arranges, so that powder injection is entered in powder pipeline 3.Because the pressure of negative-pressure ejecting device is lower than the pressure in powder pipeline 3, under the effect of the pressure differential that powder such as coal dust, biomass powder etc. can be between negative-pressure ejecting device and powder pipelines 3 like this, by injection, entered in powder pipeline 3, thereby reduced the discharge pressure of powder.

According to powder burner 100 of the present utility model, by negative-pressure ejecting device is set, under the effect of pressure differential that powder can be between negative-pressure ejecting device and powder pipeline 3, by injection, entered in powder pipeline 3, thereby reduced the discharge pressure of powder, and then reduced the energy loss of powder burner 100 in powder course of conveying, and can regulate in length and the shape of process Flame of burning, thereby strengthened the flame control ability of powder burner 100.

Alternatively, powder pipeline 3 is provided with powder pipe 5, and powder pipe 5 communicates with powder pipeline 3 by powder import.In the example of Fig. 1, powder pipe 5 is connected with powder pipeline 3, powder pipe 5 is connected with powder passage 31 by powder import, the lateral dimension of one end (example is upper end as shown in Figure 1) being connected with powder pipeline 3 of powder pipe 5 is greater than one end away from powder pipeline 3 (example is lower end as shown in Figure 1) of powder pipe 5, alternatively, powder pipe 5 be configured to from top to bottom lateral dimension first equate, after increase gradually.

Further, powder pipe 5 is located on powder pipeline 3 obliquely.Alternatively, the angle between powder pipe 5 and horizontal plane is 20 °～60 °.As shown in Figure 1, powder pipe 5 stretches in powder passage 31 from right to left obliquely, and the central axis of powder pipe 5 and the angle between horizontal plane can be 20 °～60 °.It will be appreciated that, the angle of inclination of powder pipe 5 can be according to actual requirement setting, to have the effect of better conveying powder.

With reference to Fig. 1, powder burner 100 further comprises: air-supply pipeline 6, air-supply pipeline 6 communicates with wind pipeline 2, a Secondary Air pipeline 4 by wind inlet, a secondary air inlet respectively.That is to say, air-supply pipeline 6 communicates with a wind pipeline 2 by a wind inlet, and air-supply pipeline 6 communicates with Secondary Air pipeline 4 by secondary air inlet.

For example, in the example of Fig. 1, air-supply pipeline 6 is positioned at the top of igniting pipeline 1, air-supply pipeline 6 extends along left and right directions, air-supply pipeline 6 is provided with airduct 61 one time, air-supply pipeline 6 communicates with a wind pipeline 2 by an airduct 61, air-supply pipeline 6 is provided with secondary air channel 62, air-supply pipeline 6 communicates with Secondary Air pipeline 4 by secondary air channel 62, particularly, one time airduct 61 extends along the vertical direction, and the upper end of an airduct 61 is connected with air-supply pipeline 6, its lower end is connected with a wind passage 21 by a wind inlet, secondary air channel 62 is configured to oblique downward-extension from right to left, and the right-hand member of secondary air channel 62 is connected with the left end of air-supply pipeline 6, its right-hand member is connected with secondary air channel 41 by secondary air inlet, a part combustion-supporting gas such as the air passing into from air-supply pipeline 6 right-hand members like this etc. can enter in a wind passage 21 by an airduct 61, another part combustion-supporting gas such as air etc. can enter in secondary air channel 41 by secondary air channel 62.Alternatively, the lateral dimension of airduct 61, secondary air channel 62 is all less than the lateral dimension of air-supply pipeline 6.

As shown in Figure 1, in an airduct 61, be provided with one time wind adjusting valve 611, in secondary air channel 62, be provided with Secondary Air adjusting valve 621.Thus, by wind adjusting valve 611 and Secondary Air adjusting valve 621 are set, by regulating the aperture of wind adjusting valve 611 and Secondary Air adjusting valve 621, can effectively regulate outlet 101 angles of flare of place's air-flow and the size of recirculating zone of powder burner 100, thereby can control on the whole the situation of whole powder burning, really realize efficient energy-saving, environmental protection burning.Alternatively, a contiguous wind inlet setting of wind adjusting valve 611, the contiguous secondary air inlet setting of Secondary Air adjusting valve 621.

Preferably, in wind pipeline 2 and powder pipeline 3, be respectively equipped with the first cyclone 22 and the second cyclone 32.For example, in the example of Fig. 1, the first cyclone 22 and the second cyclone 32 all outlet 101 places of contiguous powder burner 100 arrange, in other words, the first cyclone 22 is located in a wind pipeline 2 and the left end setting of a contiguous wind pipeline 2, the second cyclone 32 is located in powder pipeline 3 and the right-hand member setting of contiguous powder pipeline 3, by the first cyclone 22 and the second cyclone 32 are set, can make powder sufficient combustion, prevent from producing localized hyperthermia's scaling loss because internal mix burning causes powder burner 100, and powder burner 100 is applied widely, for example can be for fineness the powder between 60～300 orders.

According to powder burner 100 of the present utility model, through project actual verification, obtained significant effect, the four tons of coal-fired steam boilers of take below describe as example.

Before this four tons of coal-fired steam boilers transformation, exist burning not to the utmost, ash content carbon high (having reached after testing 20%), efficiency is on the low side problems such as (51.2%), after transformation, efficiency has improved 21.3%, has reached 72.5%.

Particularly, cinder is mixed to 20% coal and ground powder process, the fineness of the coal dust obtaining reaches 80～120 orders, before the powder system is delivered to powder burner 100 of the present utility model, combustion air pressurizes through roots blower, crossing heat exchanger heat exchange and deliver to before powder burner 100 of the present utility model, burns in the high-temperature region that then coal dust and combustion air enter the burner hearth of four tons of coal-fired steam boilers by powder burner 100, and the length of flame is that 2 meters of left and right, diameter are 0.4 meter of left and right.Fire box temperature has been brought up to 900 ℃ by 700 ℃ before transforming, and exhaust gas temperature has dropped to 140 ℃ by 220 ℃, and comprehensive fire coal has reduced that 20%(is identical to exert oneself).Ton steam cost has reduced by 34.71 yuan, supposes that four tons of coal-fired steam boilers can be used 16000 tons of steam every year, thereby can realize 555360 yuan of energy saving economy benefits.If powder burner 100 is used biomass fuel or petroleum coke powder replacement for heavy, tar and natural gas equal energy sources, can cost-saving 45% left and right, it meets national energy policy simultaneously, can bring immeasurable economic benefit and social benefit.

In the description of this description, the description of reference term " embodiment ", " some embodiment ", " illustrative examples ", " example ", " concrete example " or " some examples " etc. means to be contained at least one embodiment of the present utility model or example in conjunction with specific features, structure, material or the feature of this embodiment or example description.In this manual, the schematic statement of above-mentioned term is not necessarily referred to identical embodiment or example.And the specific features of description, structure, material or feature can be with suitable mode combinations in any one or more embodiment or example.

Although illustrated and described embodiment of the present utility model, those having ordinary skill in the art will appreciate that: in the situation that not departing from principle of the present utility model and aim, can carry out multiple variation, modification, replacement and modification to these embodiment, scope of the present utility model is limited by claim and equivalent thereof.

Claims (10)

1. a powder burner, is characterized in that, comprising:

Igniting pipeline;

A wind pipeline, a described wind pipeline is set in outside described igniting pipeline, has a wind inlet to pass into combustion-supporting gas in a described wind pipeline on a described wind pipeline;

Powder pipeline, described powder pipeline is set in outside a described wind pipeline, has powder import to pass into described powder in described powder pipeline on described powder pipeline;

Secondary Air pipeline, described Secondary Air pipeline is set in outside described powder pipeline, on described Secondary Air pipeline, have secondary air inlet to pass into combustion-supporting gas in described Secondary Air pipeline, one end of described igniting pipeline, a described wind pipeline, described powder pipeline and described Secondary Air pipeline communicates in the exit of described powder burner; And

Negative-pressure ejecting device, the contiguous described powder import of described negative-pressure ejecting device arranges, so that described powder injection is entered in described powder pipeline.

2. powder burner according to claim 1, is characterized in that, described powder pipeline is provided with powder pipe, and described powder pipe communicates with described powder pipeline by described powder import.

3. powder burner according to claim 2, is characterized in that, described powder pipe is located on described powder pipeline obliquely.

4. powder burner according to claim 3, is characterized in that, the angle between described powder pipe and horizontal plane is 20 °～60 °.

5. powder burner according to claim 1, is characterized in that, further comprises:

Air-supply pipeline, described air-supply pipeline communicates with a described wind pipeline, described Secondary Air pipeline by a described wind inlet, described secondary air inlet respectively.

6. powder burner according to claim 5, is characterized in that, described air-supply pipeline is provided with airduct one time, and described air-supply pipeline communicates with a described wind pipeline by a described airduct,

Described air-supply pipeline is provided with secondary air channel, and described air-supply pipeline communicates with described Secondary Air pipeline by described secondary air channel.

7. powder burner according to claim 6, is characterized in that, in a described airduct, is provided with wind adjusting valve one time, is provided with Secondary Air adjusting valve in described secondary air channel.

8. powder burner according to claim 7, is characterized in that, the contiguous described wind inlet setting of a described wind adjusting valve, the contiguous described secondary air inlet setting of described Secondary Air adjusting valve.

9. according to the powder burner described in any one in claim 1-8, it is characterized in that, in a described wind pipeline and described powder pipeline, be respectively equipped with the first cyclone and the second cyclone.

10. powder burner according to claim 9, is characterized in that, described the first cyclone and described the second cyclone all described exit of contiguous described powder burner arrange.

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