CN105240818B

CN105240818B - A kind of power station burning boiler

Info

Publication number: CN105240818B
Application number: CN201510764786.9A
Authority: CN
Inventors: 罗志诚
Original assignee: Jinhua City Straw And Environmental Protection Technology Consulting Co Ltd
Current assignee: Boao Zongheng Network Technology Co ltd; Jiangsu Chengguo Energy Environmental Protection Co ltd
Priority date: 2015-11-10
Filing date: 2015-11-10
Publication date: 2017-10-20
Anticipated expiration: 2035-11-10
Also published as: CN107178777A; CN107327823A; CN107327819A; CN105240818A

Abstract

The present invention discloses a kind of power station burning boiler, including body of heater and cyclone separator, the body of heater includes air-distribution device, combustion furnace and drum, the air-distribution device is located at the lower section of combustion furnace, the air-distribution device includes igniter and air hose, the igniter is connected with air hose, water-cooling wall and filter are provided with the combustion furnace, the water-cooling wall is located at the top of combustion furnace, the filter is located at the left upper end of water-cooling wall, the drum is located at the upper left side of combustion furnace, the drum is connected with water-cooling wall, the cyclone separator is located at the right side of body of heater, the cyclone separator includes swelling pipeline, smoke filter and feed back pipe, the swelling pipeline is located at the upper right side of cyclone separator, and be connected with body of heater, the smoke filter is located at the top of cyclone separator, the feed back pipe is located at the lower section of cyclone separator；The power station burning boiler can fully burning fuel, improve the advantages of utilization ratio and energy-conserving and environment-protective.

Description

A kind of power station burning boiler

Technical field

The invention belongs to field of electrical equipment, and in particular to a kind of power station burning boiler.

Background technology

Flame detector can be all set inside boiler furnace, and its effect is that the combustion case in burner hearth is examined in real time Survey, once there are abnormal conditions, will be closed Boiler door automatically by relative control apparatus, and make boiler shutdown.Boiler In use, coking is phenomenon commonplace during coal-burning boiler is run, and it can destroy normal combustion operating mode, reduce boiler Exert oneself, destroy the bad phenomenons such as normal water circulation, and when serious, after the big coke block of boiler can fall in slag cooling bucket, moment production Raw substantial amounts of vapor, causes negative pressure in stove to fluctuate, after this phenomenon occurs, what flame detector will make a mistake sentences Disconnected, so that fire door be closed and make boiler shutdown, if this phenomenon is frequently occurred, boiler will frequently blowing out and again point Fire, so as to cause the service life of boiler to reduce, wastes the energy, influences the normal operation of boiler.

Further, since existing boiler is during combustion power generation, too fast due to burning, oxygen is not enough, causes coal And other biological matter fuel can not thoroughly burn in combustion, cause to expend that resource is big, heat is low, in turn resulted in hair The inefficiency of electricity, it is impossible to which substantial amounts of electric power is provided.

The value of comprehensive utilization to improve boiler can promote fuel combustion, heating power sufficient and section, it is necessary to design one kind The station boiler of energy environmental protection.

The content of the invention

The technical problem to be solved in the present invention is to provide one kind can fully burning fuel, improve utilization ratio and energy-saving ring The power station burning boiler of guarantor.

To solve the above problems, the present invention is adopted the following technical scheme that：

A kind of power station burning boiler, including body of heater and cyclone separator, the body of heater include air-distribution device, combustion furnace and vapour Bag, the air-distribution device is located at the lower section of combustion furnace, and the air-distribution device includes igniter and air hose, the igniter and sky Tracheae is connected, and water-cooling wall and filter are provided with the combustion furnace, and the water-cooling wall is located at the top of combustion furnace, the mistake Filter is located at the left upper end of water-cooling wall, and the drum is located at the upper left side of combustion furnace, and the drum is connected with water-cooling wall, described Cyclone separator is located at the right side of body of heater, and the cyclone separator includes swelling pipeline, smoke filter and feed back pipe, described swollen Tube expansion road is located at the upper right side of cyclone separator, and is connected with body of heater, and the smoke filter is located at the upper of cyclone separator Side, the feed back pipe is located at the lower section of cyclone separator.

Further, it is provided with oxygen hose on the combustion furnace.

Further, the oxygen hose is provided with more than one.

Further, the filter bottom is provided with blast pipe.

Further, the drum lower end is provided with drainpipe.

Further, the feed back pipe is connected with combustion furnace 6.

A kind of preparation method of water-cooling wall, is made up of the material of following parts by weight：Including 30-38 parts of iron ore, chromium powder 7-12 parts, 8-14 parts of silica, 3-5 parts of molybdenum powder, 8-11 parts of zinc oxide, 2-6 parts of titanium valve, 6-12 parts of pyrochlore, crude boron stone 7- 7-11 parts of 13 parts, 10-14 parts of carbon fiber, 14-23 parts of nano-ceramic powder, 7-9 parts of interstitial solid solution and magnesia, including with Lower step：

1) take 6-12 parts of 30-38 parts of iron ore, 8-14 parts of silica, 7-13 parts of crude boron stone and pyrochlore will in smelting furnace Temperature brings up to 700 DEG C, then adds 7-11 parts of magnesia and is used as fluxing agent so that above-mentioned material is respectively melted, and obtains boron steel Metal liquid, it is standby；

2) 14-23 parts of 7-12 parts of chromium powder, 3-5 parts of molybdenum powder, 2-6 parts of titanium valve, 10-14 parts of carbon fiber and nano-ceramic powder are taken Smelting furnace is put into, above-mentioned material is melted by 600-700 DEG C of high temperature and merged, alloying metal liquid is made, it is standby；

3) by step 1) and step 2) made from metal liquid fusion, metal derby is then moulded to obtain by casting, and cause The temperature of metal derby is maintained at 200 DEG C so that metal derby is in flaccid state, and is ceaselessly forged by forging device, by metal Impurity inside block forges removal, standby；

4) by step 3) metal derby of free from admixture that has forged is placed again into smelting furnace, and temperature is brought up to from 700 DEG C 1500 DEG C so that metal derby is fused into metal liquid again, and adds 8-11 parts of zinc oxide so that zinc oxide melts with metal liquid Close, it is standby；

5) take 7-9 parts of interstitial solid solution to be added to step 4) in obtained alloying metal liquid, and pass through high-temperature molten Close, it is standby；

6) by step 5) made from alloying metal liquid by casting mould to obtain alloy block, then by alloy block quench cool 200 DEG C of temperature is kept to 200 DEG C, and by smelting furnace, it is standby；

7) by step 6) in alloy block keep 200 DEG C at a temperature of, by not stopping to forge, will be closed by secondary forge Impurity in gold bullion is removed, standby；

8) by step 7) carry out obtained alloy block after secondary forge and put into smelting furnace again, pass through 1500 DEG C of high temperature melting Change, then shaped by casting, after after temperature cooling, you can.

The beneficial effects of the invention are as follows：By being provided with body of heater, fuel can be burnt in furnace interior, due to being provided with Air-distribution device, can carry out uniform air inducing into body of heater, be conducive to combustion-supporting, and due to being provided with combustion furnace, can thoroughly burn combustion Material, due to being provided with drum, can store vapor, prevent vapor to be back in combustion furnace, can due to cyclone separator Noxious material is separated, can be by second-time burning in defeated time combustion furnace of the fuel not burnt thoroughly due to setting feed back pipe.

Brief description of the drawings

Fig. 1 is a kind of overall structure diagram of power station burning boiler of the invention.

Embodiment

Embodiment 1：

As shown in fig.1, a kind of power station burning boiler, including body of heater 1 and cyclone separator 2, the body of heater 1 includes cloth wind Device 3, combustion furnace 6 and drum 9, the air-distribution device 3 are located at the lower section of combustion furnace 6, and the air-distribution device 3 includes igniter 4 With air hose 5, the igniter 4 is connected with air hose 5, and water-cooling wall 7 and filter 8 are provided with the combustion furnace 6, described Water-cooling wall 7 is located at the top of combustion furnace 6, and the filter 8 is located at the left upper end of water-cooling wall 7, and the drum 9 is located at combustion furnace 6 Upper left side, the drum 9 is connected with water-cooling wall 7, and the cyclone separator 2 is located at the right side of body of heater 1, the cyclonic separation Device 2 includes swelling pipeline 10, smoke filter 11 and feed back pipe 12, and the swelling pipeline 10 is located at the upper right of cyclone separator 2 Side, and be connected with body of heater 1, the smoke filter 11 is located at the top of cyclone separator 2, and the feed back pipe 12 is located at whirlwind The lower section of separator 2.

Oxygen hose is provided with the combustion furnace 6, oxygen can be conveyed to combustion furnace, be conducive to combustion-supporting.

The oxygen hose is provided with more than one, oxygen uniformly can be conveyed into combustion furnace, is conducive to improving burning effect Rate.

The bottom of filter 8 is provided with blast pipe, and the gas of furnace interior can be suitably drained by blast pipe, is had Oxygen is conveyed beneficial to oxygen hose.

The lower end of drum 9 is provided with drainpipe, the vapor discharge that can condense bubble.

The feed back pipe 12 is connected with combustion furnace 6, and fuel recovery can be burnt again.

A kind of preparation method of water-cooling wall, is made up of the material of following parts by weight：Including 38 parts of iron ore, 7 parts of chromium powder, 8 parts of silica, 3 parts of molybdenum powder, 8 parts of zinc oxide, 2 parts of titanium valve, 6 parts of pyrochlore, 7 parts of crude boron stone, 10 parts of carbon fiber, nano ceramics 7 parts of 14 parts of powder, 7 parts of interstitial solid solution and magnesia, comprise the following steps：

1) 6 parts of 38 parts of iron ore, 8 parts of silica, 7 parts of crude boron stone and pyrochlore is taken to bring up to temperature in smelting furnace 700 DEG C, then add 7 parts of magnesia and be used as fluxing agent so that above-mentioned material is respectively melted, and obtains boron steel metal liquid, standby；

2) 7 parts of chromium powder, 3 parts of molybdenum powder, 2 parts of titanium valve, 14 parts of input smelting furnaces of 10 parts of carbon fiber and nano-ceramic powder are taken, are passed through 600-700 DEG C of high temperature, which melts above-mentioned material, to be merged, and alloying metal liquid is made, standby；

4) by step 3) metal derby of free from admixture that has forged is placed again into smelting furnace, and temperature is brought up to from 700 DEG C 1500 DEG C so that metal derby is fused into metal liquid again, and adds 8 parts of zinc oxide so that zinc oxide is merged with metal liquid, It is standby；

5) take 7 parts of interstitial solid solution to be added to step 4) in obtained alloying metal liquid, and merged by high temperature, It is standby；

Embodiment 2：

A kind of preparation method of water-cooling wall, is made up of the material of following parts by weight：Including 30 parts of iron ore, chromium powder 12 Part, 4 parts of silica 1,5 parts of molybdenum powder, 11 parts of zinc oxide, 6 parts of titanium valve, 12 parts of pyrochlore, 13 parts of crude boron stone, 14 parts of carbon fiber, 11 parts of 23 parts of nano-ceramic powder, 9 parts of interstitial solid solution and magnesia, comprise the following steps：

1) 12 parts of 38 parts of iron ore, 4 parts of silica 1,13 parts of crude boron stone and pyrochlore is taken to improve temperature in smelting furnace To 700 DEG C, then add 11 parts of magnesia and be used as fluxing agent so that above-mentioned material is respectively melted, and obtains boron steel metal liquid, standby With；

2) 12 parts of chromium powder, 5 parts of molybdenum powder, 6 parts of titanium valve, 23 parts of input smelting furnaces of 14 parts of carbon fiber and nano-ceramic powder are taken, are led to Above-mentioned material is melted fusion by the high temperature for crossing 600-700 DEG C, and alloying metal liquid is made, standby；

4) by step 3) metal derby of free from admixture that has forged is placed again into smelting furnace, and temperature is brought up to from 700 DEG C 1500 DEG C so that metal derby is fused into metal liquid again, and adds 11 parts of zinc oxide so that zinc oxide melts with metal liquid Close, it is standby；

5) take 9 parts of interstitial solid solution to be added to step 4) in obtained alloying metal liquid, and merged by high temperature, It is standby；

Embodiment 3：

A kind of preparation method of water-cooling wall, is made up of the material of following parts by weight：Including 34 parts of iron ore, chromium powder 10 Part, 1 part of silica 1,4 parts of molybdenum powder, 10 parts of zinc oxide, 4 parts of titanium valve, 9 parts of pyrochlore, 10 parts of crude boron stone, 12 parts of carbon fiber, receive 9 parts of 18 parts of ceramic powder of rice, 8 parts of interstitial solid solution and magnesia, comprise the following steps：

1) 9 parts of 34 parts of iron ore, 1 part of silica 1,10 parts of crude boron stone and pyrochlore is taken to bring up to temperature in smelting furnace 700 DEG C, then add 9 parts of magnesia and be used as fluxing agent so that above-mentioned material is respectively melted, and obtains boron steel metal liquid, standby；

2) 10 parts of chromium powder, 4 parts of molybdenum powder, 4 parts of titanium valve, 18 parts of input smelting furnaces of 12 parts of carbon fiber and nano-ceramic powder are taken, are led to Above-mentioned material is melted fusion by the high temperature for crossing 600-700 DEG C, and alloying metal liquid is made, standby；

4) by step 3) metal derby of free from admixture that has forged is placed again into smelting furnace, and temperature is brought up to from 700 DEG C 1500 DEG C so that metal derby is fused into metal liquid again, and adds 10 parts of zinc oxide so that zinc oxide melts with metal liquid Close, it is standby；

5) take 8 parts of interstitial solid solution to be added to step 4) in obtained alloying metal liquid, and merged by high temperature, It is standby；

Experimental example：

In order to which the inwall for further detecting the present invention is heat-resisting wear-resistant and water-cooled effect, it is real that the present invention has also carried out contrast Test；From with common alloy inwall as a control group one, select in the inwall of porcelain as a control group two, alloy of the invention Wall is used as experimental group；Contrasted by the alloy inwall of the present invention with the inwall of common alloy inwall and porcelain, the time is three Individual month, concrete outcome was as follows：

Testing result after first month

Testing result after second month

Testing result after three month

By trimestral test, the present invention is compared with control group, with anti-wear performance is good, high temperature resistant and good water-cooling effect Advantage, the alloy inwall in control group one is easily weak at high temperature, and not wear-resisting, the porcelain inwall in control group two is in high temperature The lower water capacity of meeting suddenly is easily burst.

The foregoing is only a specific embodiment of the invention, but protection scope of the present invention is not limited thereto, any The change or replacement expected without creative work, should all cover within the scope of the present invention.

Claims

1. a kind of power station burning boiler, it is characterised in that：Including body of heater and cyclone separator, the body of heater include air-distribution device, Combustion furnace and drum, the air-distribution device are located at the lower section of combustion furnace, and the air-distribution device includes igniter and air hose, described Igniter is connected with air hose, and water-cooling wall and filter are provided with the combustion furnace, and the water-cooling wall is located at combustion furnace Top, the filter is located at the left upper end of water-cooling wall, and the drum is located at the upper left side of combustion furnace, the drum and water-cooling wall It is connected, the cyclone separator is located at the right side of body of heater, the cyclone separator includes swelling pipeline, smoke filter and returned Expects pipe, the swelling pipeline is located at the upper right side of cyclone separator, and is connected with body of heater, and the smoke filter is located at whirlwind The top of separator, the feed back pipe be located at cyclone separator lower section, the water-cooling wall by following parts by weight material system Into：Including 30-38 parts of iron ore, 7-12 parts of chromium powder, 8-14 parts of silica, 3-5 parts of molybdenum powder, 8-11 parts of zinc oxide, titanium valve 2-6 Part, 6-12 parts of pyrochlore, 7-13 parts of crude boron stone, 10-14 parts of carbon fiber, 14-23 parts of nano-ceramic powder, interstitial solid solution 7- 9 parts and 7-11 parts of magnesia；The preparation method of the water-cooling wall comprises the following steps：1) 30-38 parts of iron ore, silica are taken Temperature is brought up to 700 DEG C by 6-12 parts of 8-14 parts, 7-13 parts of crude boron stone and pyrochlore in smelting furnace, then adds magnesia 7-11 Part is used as fluxing agent so that above-mentioned material is respectively melted, and obtains boron steel metal liquid, standby；2) 7-12 parts of chromium powder, molybdenum powder 3- are taken 5 parts, 2-6 parts of titanium valve, 14-23 parts of input smelting furnaces of 10-14 parts of carbon fiber and nano-ceramic powder, pass through 600-700 DEG C of high temperature Above-mentioned material is melted and merged, alloying metal liquid is made, it is standby；3) by step 1) and step 2) made from metal liquid melt Close, metal derby is then moulded to obtain by casting, and cause the temperature of metal derby to be maintained at 200 DEG C so that metal derby is in weakness State, and ceaselessly forged by forging device, the impurity inside metal derby is forged into removal, it is standby；4) by step 3) forge The metal derby of free from admixture be placed again into smelting furnace, and temperature is brought up to 1500 DEG C from 700 DEG C so that metal derby is fused into again Metal liquid, and add 8-11 parts of zinc oxide so that zinc oxide is merged with metal liquid, standby；5) interstitial solid solution 7-9 is taken Part be added to step 4) in obtained alloying metal liquid, and merged by high temperature, it is standby；6) by step 5) made from alloy Metal liquid moulds to obtain alloy block by casting, alloy block quenching then is cooled into 200 DEG C, and kept for 200 DEG C by smelting furnace Temperature, it is standby；7) by step 6) in alloy block keep 200 DEG C at a temperature of, by not stopping to forge, forged by secondary Impurity in alloy block is removed, it is standby；8) by step 7) carry out obtained alloy block after secondary forge and put into smelting furnace again, lead to 1500 DEG C of high temperature melting is crossed, is then shaped by casting, after after temperature cooling, you can.

2. power station burning boiler as claimed in claim 1, it is characterised in that：Oxygen hose is provided with the combustion furnace.

3. power station burning boiler as claimed in claim 2, it is characterised in that：The oxygen hose is provided with more than one.

4. power station burning boiler as claimed in claim 3, it is characterised in that：The filter bottom is provided with blast pipe.

5. power station burning boiler as claimed in claim 4, it is characterised in that：The drum lower end is provided with drainpipe.

6. power station burning boiler as claimed in claim 5, it is characterised in that：The feed back pipe is connected with combustion furnace.