WO1997025571A1 - Boiler firing method - Google Patents

Boiler firing method Download PDF

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Publication number
WO1997025571A1
WO1997025571A1 PCT/RU1996/000001 RU9600001W WO9725571A1 WO 1997025571 A1 WO1997025571 A1 WO 1997025571A1 RU 9600001 W RU9600001 W RU 9600001W WO 9725571 A1 WO9725571 A1 WO 9725571A1
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WIPO (PCT)
Prior art keywords
coal
dust
plasma
fuel oil
boiler
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PCT/RU1996/000001
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French (fr)
Russian (ru)
Inventor
Evgeny Ivanovich Karpenko
Sergei Lubsanovich Buyantuev
Vladimir Efremovich Messerle
Original Assignee
Evgeny Ivanovich Karpenko
Sergei Lubsanovich Buyantuev
Vladimir Efremovich Messerle
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Application filed by Evgeny Ivanovich Karpenko, Sergei Lubsanovich Buyantuev, Vladimir Efremovich Messerle filed Critical Evgeny Ivanovich Karpenko
Priority to CN96199519.XA priority Critical patent/CN1207167A/en
Priority to CA002241986A priority patent/CA2241986A1/en
Priority to DE19681723T priority patent/DE19681723T1/en
Priority to PCT/RU1996/000001 priority patent/WO1997025571A1/en
Publication of WO1997025571A1 publication Critical patent/WO1997025571A1/en

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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23CMETHODS OR APPARATUS FOR COMBUSTION USING FLUID FUEL OR SOLID FUEL SUSPENDED IN  A CARRIER GAS OR AIR 
    • F23C5/00Disposition of burners with respect to the combustion chamber or to one another; Mounting of burners in combustion apparatus
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23DBURNERS
    • F23D2207/00Ignition devices associated with burner

Definitions

  • Izves ⁇ en ⁇ yad s ⁇ s ⁇ b ⁇ v llazmenn ⁇ g ⁇ v ⁇ s ⁇ lameneniya coals ⁇ edusma ⁇ ivayuschi ⁇ gene ⁇ i ⁇ vanie ele ⁇ iches ⁇ y arc nag ⁇ ev bald leg ⁇ ln ⁇ y mixture in dug ⁇ v ⁇ y ⁇ lazme, and ⁇ zzhig s ⁇ abmlizatsiyu g ⁇ e- Nia ⁇ yleug ⁇ ln ⁇ g ⁇ ⁇ a ⁇ ela (Pa ⁇ en ⁇ ⁇ eli ⁇ b ⁇ i ⁇ anii ⁇ 1,585,943, 1981.).
  • the proposed invention is aimed at the exclusion of the use of fuel oil for ignition of the charcoal torch and the increase in the efficiency of the process of the p-process.
  • the proposed oil-free process technology is based on a plasma-fueled ignition system.
  • ⁇ ealizatsii ⁇ e ⁇ n ⁇ l ⁇ gii ⁇ az ⁇ ab ⁇ ana ⁇ ns ⁇ u ⁇ tsiya ⁇ mbini ⁇ vann ⁇ g ⁇ ⁇ lazm ⁇ na m ⁇ schn ⁇ s ⁇ yu 30-100 ⁇
  • ⁇ a ⁇ zhe ⁇ edv ⁇ lyuchenny mu ⁇ el, vs ⁇ enny in g ⁇ el ⁇ u and ⁇ bes ⁇ echivayuschy ⁇ sle eg ⁇ ⁇ az ⁇ g ⁇ eva ⁇ lazm ⁇ n ⁇ m sam ⁇ v ⁇ s ⁇ lamenenie ⁇ yleug ⁇ l- n ⁇ i smesm.
  • the proposed plant is equipped with the following equipment.
  • the method of plasma oil-free production was sold at the KPP-215 unit with a production rate of 670 tons per hour.
  • the unit is equipped with 16 fireplaces, located in two tiers of 8 houses in each.
  • the 4 lower-city towns (see FIG. 1) were equipped with muffles 3 and lasers 5 and 60 ground.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Electric Connection Of Electric Components To Printed Circuits (AREA)
  • Combustion Of Fluid Fuel (AREA)

Abstract

The invention is in the field of power engineering and can be used in thermal power plants to fire up boiler units without using fuel oil from a cool state to a working regime. The aim is to eliminate the need for fuel oil for firing coal-dust torches, thereby enhancing the efficiency of the boiler firing process. The proposed technology for firing industrial boilers without fuel oil is based on plasma fuel ignition techniques. A successful result is achieved when the coal-dust torch is fired by generating a stream of low-temperature plasma using plasma generators installed in the muffles of the lower-tier coal-dust burners, feeding the coal-dust mixture through the low-temperature plasma stream and igniting it and by subsequent switching off of plasma generators. In addition, depending on the type of boiler unit, pulverisation techniques and fuel characteristics, the quantity (n) of coal-dust burners equipped with plasma generators and muffles can be in the range of n = 1 m, where m is the quantity of burners on the lower tier.

Description

СПΟСΟБ ΡΑСΤΟПΚИ ΚΟΤЛΟΑГΡΕГΑΤΑ СПΟСΟБ ΡΑСΤΟПΚИ ΚΟΤЛΟΑГΡΕГΑΤΑ
Οбласτъ τеχниκиAchievements
Иэοбρеτение οτнοсиτся κ энеρгеτиκе и мοжеτ быτъ исηοлъэοва- нο на τеηлοвыχ элеκτροсτанцияχ для беэмаэуτнοй ρасτοπκи κοτлο- агρегаτа иэ χοлοднοгο сοсτοяния дο ρабοчегο ρежима.Power is not available and can be used on power plants for begue-bygate
_Ιρед_аесχву«щий уροвенъ τеχниκиΙ щ ед ву «« «« щ у у τ τ τ е е
Иэвесτен сποсοб ροэжига и сτабилиэаиии гοτ>ения ниэκοсορτнο- гο дοнецκοгο угля ΑШ ( Иб-ρаев Ш. Ш. , Гοлячеκ Μ. Μ. . Ηοвиκοв Η. Α. , Сейτимοв Τ _. , "Плаэменная гορелκа с исτοчниκοм πиτания для ροэ- жига и сτабилиэации Дοнецκοгο ΑШ ГПлазменнοе вοсηламенение и сжигание τοηлив ) " .Τеэисы дοκладοв межвуэοвсκοй научнο-τеχни- чесκοй κοнφеρенции . ΗΚИ им . Μаκаροва, г . Ηиκοлае , 1989 , с .33-3 ) , вκлючающий ποдгοτοвκу аэροοмеси , ρаэделение ποτοκа аэροοмеси на οснοвнοй и сτабилиэиρуκштй ποτοκи , ποдведение οбοиχ ποτοκοв πο τρ>убам κ πылеугοлънοй гορелκе, нагρев сτабилиэиρуκяηегο ηοτοκа и ροэжиг οснοвнοгο ηοτοκа. Для нагρевз οτабилиэиρуκяцегο ποτοκ© аэροсмеси исηοлъэуеτся элеκτροдугοвοй ηлаэмοτροн , в κοτοροм часτъ дугοвοгο сτοлба выдуваеτся вοэдуχοм в πылеугοлъный ποτοκ . Пρи нагρеве сτабилиэиρующегο ποτοκг» οбρаэуеτся двуχκοмηοненτнοе τοπливο, сοсτοятее иэ гορючегο гаэа и нагρеτοгο κοκсοвοгο οсτаτκа, κοτοτюе ηοсτуηая в τοηοчнοе ητюсτρансτвο , οбесηечиваеτ ροэжиг и сτабилиэацию гοτ>ения οснοвнοгο ποτοκа аэροсмеси .There is a means of securing and stabilizing the existence of a coal mine of the United States (Ib-Raev Sh. Sh., Golyachek. and stabilization of the Donetsk State University on Plasma Flaming and Burning)). The reports of the inter-scientific scientific conference. ΗΚ And them. Bakova, g. Ηiκοlae, 1989, .33-3) vκlyuchayuschy ποdgοτοvκu aeροοmesi, ρaedelenie ποτοκa aeροοmesi on οsnοvnοy and sτabilieiρuκshty ποτοκi, ποdvedenie οbοiχ ποτοκοv πο τρ> ubam κ πyleugοlnοy gορelκe, nagρev sτabilieiρuκyaηegο ηοτοκa and ροezhig οsnοvnοgο ηοτοκa. For the heating of the stabilized waste stream © the air mixture is used, the electric arc is in the process, while the arc is blown out. Pρi nagρeve sτabilieiρuyuschegο ποτοκg "οbρaeueτsya dvuχκοmηοnenτnοe τοπlivο, sοsτοyatee IE gορyuchegο gaea and nagρeτοgο κοκsοvοgο οsτaτκa, κοτοτyue ηοsτuηaya in τοηοchnοe ητyusτρansτvο, οbesηechivaeτ ροezhig and sτabilieatsiyu gοτ> eniya οsnοvnοgο ποτοκa aeροsmesi.
Οднаκο , иэвесτный сηοοοб ροэжига не οбесπечиьаеτ высοиοй эφφеκτивнοсτи ηροцесса вследсτвие τοгο, чτο τοлъκο часτъ сτοлба дуги выдуваеτся в ηылеугοлъный ποτοκ, а οсτалъная часτъ дуги наχοдиτся в κамеρе шιаэмοτροна.. Βследсτвие эτοгο , данныи сποсοб малοэφφеκτνвен для οсущесτвления ρасτοηκи энеρгеτичесκиχ κοτ- лοв . \УΟ 97/25571 ΡСΤΥΙШ96.00001Οdnaκο, ievesτny sηοοοb ροezhiga not οbesπechiaeτ vysοiοy eφφeκτivnοsτi ηροtsessa vsledsτvie τοgο, chτο τοlκο chasτ sτοlba arc vyduvaeτsya in ηyleugοlny ποτοκ, and οsτalnaya chasτ arc naχοdiτsya in κameρe shιaemοτροna .. Βsledsτvie eτοgο, DATA sποsοb malοeφφeκτνven for οsuschesτvleniya ρasτοηκi eneρgeτichesκiχ κοτ- lοv. \ УΟ 97/25571 ΡСΤΥΙШ96.00001
2 -2 -
Извесτен ρяд сποсοбοв ллазменнοгο вοсπламенения углей, πρедусмаτρивающиχ генеρиροвание элеκτρичесκοй дуги, нагρев лы- легοльнοй смеси в дугοвοй πлазме, ροзжиг и сτабмлизацию гορе- ния πылеугοльнοгο φаκела (Паτенτ Βелиκοбρиτании Νο 1585943, 1981г.).Izvesτen ρyad sποsοbοv llazmennοgο vοsπlameneniya coals πρedusmaτρivayuschiχ geneρiροvanie eleκτρichesκοy arc nagρev bald legοlnοy mixture in dugοvοy πlazme, and ροzzhig sτabmlizatsiyu gορe- Nia πyleugοlnοgο φaκela (Paτenτ Βeliκοbρiτanii Νο 1,585,943, 1981.).
Οднаκο извесτные сποсοбы вοсπламенения эφφеκτивны πρи сжигании лишь высοκοκачесτвенныχ углβй с высοκим выχοдοм леτу- чиχ. Пρи сжмгании низκοсορτныχ углей в κοτлοагρегаτаχ мοщнοсτи заπальниκа|недοсτаτοчнο.However, the well-known ignition methods are effective when burning only high-quality coal with a high yield. When burning low-grade coals in a large unit of the ignition unit, it is not sufficient.
Ηаибοлее близκнм κ πρедлагаемοну изοбρеτениχ. являβτся сπο- сοб ροзжига н сτабилизации гορβния πылеугοльнοгο φаκела в κοτлο- агρегаτе ( ρасτοπκи ) πуτβм сжигания мазуτа или πρиροднοгο газа . Пусκοвые или газοвые φορсунκи мοнτиρуюτся сοвмесτнο с οснοвными угοльными гσρелκими, либο усτанавливаюτся дοποлниτельнο κ ним. Ηаπρимеρ, κοτлοагρегаτ ПΚ-39 имееτ 12 οснοвныχ πылеугοльнын гο- ρелοκ προизвοдиτельнοсτью 8 τ/час и 8 мазуτныχ φορсунοκ προиэ- вοдиτельнοсτью 1,3 τ/час. Пρи ποсτуπленим в τοπκу мазуτа и угля προизвοдяτ вοсπламенение высοκορеаκциοннοгο жндκοгο τοπлива. Пρи гορении мазуτа выделяеτся значиτельнοе κοличесτвο τеπла, κοτοροе нагρеваеτ угοльную πыль. Β ρезульτаτе нагρева угοльныχ часτии выделяюτся леτучие и ποвышаеτся τемлеρаτуρа τвеρдοгο τοπлива. Пρи эτοм προисχοдиτ загορ<ание угοльныχ часτиц и οсу- щесτвляеτся инτенсивный ροзжиг и сτабилизация πылеугοльнοгο φа- κβла ("Κοτельные и τуρбинные усτанοвκи энеρгοблοκοв мοщнοсτью 500 и 800 ΜΒτ" Пοд ρед.Β.Ε.Дοροщуκа и Β.Б.Ρубана, Μ.. Энеρ- гия. 1979г.).Most of the related inventions are presented. There is a method of burning and stabilizing a pulverized coal burner in a large unit (waste) by burning fuel oil or gas. Empty or gas vents are mounted in conjunction with the main coal ditches, or are installed in addition to them. For example, the П-39 unit has 12 basic dust removal units with a capacity of 8 t / hour and 8 fuel oil hours / 1.3 hours. When sold in fuel oil and coal, high-reactive liquid fuels are ignited. When fuel oil is burned, a significant amount of heat is emitted, a quick heat of coal dust. Β As a result of the heating of coal parts, volatiles are released and the temperature of the solid fuel is increased. Pρi eτοm προisχοdiτ zagορ <Maintenance ugοlnyχ chasτits and οsu- schesτvlyaeτsya inτensivny ροzzhig and sτabilizatsiya πyleugοlnοgο φa- κβla ( "Κοτelnye and τuρbinnye usτanοvκi eneρgοblοκοv mοschnοsτyu 500 and 800 ΜΒτ" Pοd ρed.Β.Ε.Dοροschuκa and Β.B.Ρubana, Μ. ENERGY. 1979).
Οднаκο извесτный сποсοб ρ»асτοπκи κοτлοагρегаτа связан с исποльзοванием дβφнциτнοгο мазуτа, τаκже слοжнοсτью в &κсπлуа- τации мазуτнοгο χοзяйсτва, οсοбеннο в зимнее вρβмя, κοгда ма- зуτ неοбχοдимο ποсτοяннο ποдοгρеваτь. Κροме τοгο, πρи сοвмесτ- нοм сжигании угля и мазуτа в τοπκе ποвышаеτся меχнедοжег, уве- личиваюτся выбροсы οκислοв азοτа и сеρы, усиливаеτся κορροзия ποвеρχнοсτей нагρева и снижаеτся надежнοсτь з»неρгеτичесκοгο οбορудοвани . - 3 -Οdnaκο izvesτny sποsοb ρ »asτοπκi κοτlοagρegaτa associated with isποlzοvaniem dβφntsiτnοgο mazuτa, τaκzhe slοzhnοsτyu in & κsπlua- τatsii mazuτnοgο χοzyaysτva, οsοbennο winter vρβmya, κοgda Ma- zuτ neοbχοdimο ποsτοyannο ποdοgρevaτ. In addition, coal and fuel oil are burned at a higher rate, while the consumption of nitrogen and sulfur are increased, and the consumption of sulfur is increased. - 3 -
Τаκим οбρазοм ни οдин и'з извесτныχ сποсοбοв πлазменнοгο вοсπламенения τοπлива не мοжен быτь исποльзοван для эφφеκτив- нοй ρасτοπκи κοτлοагρегаτа πρи сжмганни низκοсορτныχ энеρгеτи- чесκиχ углей .In general, neither one nor one of the known methods of flame ignition of fuel cannot be used for an efficient burn-off.
Ρасκρыτиβ нзοбρеτβнияAcceptance
Пρедлагаемοе изοбρеτение наπρавленο на исκлючение исποль- зοвания мазуτа для ροзжига πылеугοльнοгο φаκела и ποвышение эφφеκτивнοсτи προцесса ρ-эсτοπκи κοτлοагρегаτа .The proposed invention is aimed at the exclusion of the use of fuel oil for ignition of the charcoal torch and the increase in the efficiency of the process of the p-process.
Эτο дοсτигаеτся τем , чτο в сποсοбе ρасτοπκи κοτлοагρегаτа , πρедусмаτρивающем ροзжиг πылеугοльнοгο φаκела , ποследующуκι ποследοваτельную ποдачу лылеугοльнοй смеси чеρез сοπла ηылеу- гοльныχ гορелοκ , усτанοвленныχ на κοτлοагρегаτе яρусами и ее вοсπламенение , сοгласнο нзοбρеτения - ροзжиг πылеугοльнοгο φа- κела οсущесτвляюτ πуτем генеρиροвания сτρуи низκοτемπеρаτуρнοй πлазмы ποсρедсτвοм πлазмοτροнο ,. усτанοвленныχ в муφеляχ πыле- угοльныχ гορелοκ нижнегο яρуса , ποдачи|πылеугοльнοй смеси чеρез сτρую низκοτемπеρаτуρнοй πлазмы и ее вοсπламенения , πρичем ποсле сτабилизации гορения πылеугοльнοгο φаκела и дοсτижения ρежимныχ πаρамеτροв προизвοдяτ οτκлючение πлазмοτροнοв .Eτο dοsτigaeτsya τem, chτο in sποsοbe ρasτοπκi κοτlοagρegaτa, πρedusmaτρivayuschem ροzzhig πyleugοlnοgο φaκela, ποsleduyuschuκι ποsledοvaτelnuyu ποdachu lyleugοlnοy mixture cheρez sοπla ηyleu- gοlnyχ gορelοκ, usτanοvlennyχ on κοτlοagρegaτe yaρusami and its vοsπlamenenie, sοglasnο nzοbρeτeniya - ροzzhig πyleugοlnοgο φaκela οsuschesτvlyayuτ πuτem geneρiροvaniya sτρui nizκοτemπeρaτuρnοy πlazmy ποsρedsτvοm plasma,. usτanοvlennyχ in muφelyaχ πyle- ugοlnyχ gορelοκ nizhnegο yaρusa, ποdachi | πyleugοlnοy mixture cheρez sτρuyu nizκοτemπeρaτuρnοy πlazmy and its vοsπlameneniya, πρichem ποsle sτabilizatsii gορeniya πyleugοlnοgο φaκela and dοsτizheniya ρezhimnyχ πaρameτροv προizvοdyaτ οτκlyuchenie πlazmοτροnοv.
Κροме τοгο, в зависимοсτи οτ τиπа κοτлοагρегаτа, τеχнοлο- гии πылеπρигοτοвления н χаρаκτеρисτиκ τοπлива , κοличесτвο η πылеугοльныχ гορелοκ , οснаш.енныχ πлазмοτροнами и муφелями , мο- жеτ быτь в πρеделаχ Ϊ_ = 1 ÷ ю, где ю - κοличесτвο гορелοκ ниж- негο яρуса .Κροme τοgο in zavisimοsτi οτ τiπa κοτlοagρegaτa, τeχnοlο- ology πyleπρigοτοvleniya χaρaκτeρisτiκ τοπliva n, η κοlichesτvο πyleugοlnyχ gορelοκ, οsnash.ennyχ πlazmοτροnami and muφelyami, mο- zheτ byτ in πρedelaχ Ϊ_ = 1 ÷ w where w - κοlichesτvο gορelοκ the lower negο yaρusa .
ΪΙρедлагаемая τеχнοлοгия όезмазуτнοй ρ__сτοπκи προмышленнοгο κοτлοагρегаτа οснοвана на πлазменнοм сποсοбе вοсπламенения τοπлива . Для ρеализации τеχнοлοгии ρазρабοτана κοнсτρуκция κοмбиниροваннοгο πлазмοτροна мοщнοсτью 30-100 κΒτ , а τаκже πρедвκлюченный муφель , всτροенный в гορелκу и οбесπечивающий ηοсле егο ρазοгρева πлазмοτροнοм самοвοсπламенение πылеугοль- нοи смесм . Κοмποнοвκа πлазмοτροна , муφеля , исτοчниκа πиτания . \νθ 97/25571 " ~ ΡСΤ7ΙШ96/00001The proposed oil-free process technology is based on a plasma-fueled ignition system. For ρealizatsii τeχnοlοgii ρazρabοτana κοnsτρuκtsiya κοmbiniροvannοgο πlazmοτροna mοschnοsτyu 30-100 κΒτ, and τaκzhe πρedvκlyuchenny muφel, vsτροenny in gορelκu and οbesπechivayuschy ηοsle egο ρazοgρeva πlazmοτροnοm samοvοsπlamenenie πyleugοl- nοi smesm. Plasma industry, muffle, food source. \ νθ 97/25571 "~ ΡСΤ7ΙШ96 / 00001
сисτемн элеκτρο- , гаэο- ,- и вοдοснабжения, аπηаρаτуρы эашиτы и уπρавлени , ρаэмещенныχ на κοτлοагρегаτе , κοмηаκτна, не эагρο- мοждаеτ ηροχοды , не сοэдаеτ ниκаκиχ ηοмеχ для οбслужива.κ.щегο и ρ.емοнτнοгο ηеρсοнала и ηοэвοляеτ улρавляτъ οисτемοй ροэжига οдним οηеρаτοροм с блοчнοгο щиτа уηρал_-ления .sisτemn eleκτρο-, gaeο- - and vοdοsnabzheniya, aπηaρaτuρy eashiτy and uπρavleni, ρaemeschennyχ on κοτlοagρegaτe, κοmηaκτna not eagρο- mοzhdaeτ ηροχοdy not sοedaeτ niκaκiχ ηοmeχ for οbsluzhiva.κ.schegο and ρ.emοnτnοgο ηeρsοnala and ηοevοlyaeτ ulρavlyaτ οisτemοy ροezhiga οdnim οηeρaτοροm from the block board.
Κρаτκοβ οπисание чеρτежейDescription of the drawings
Сущнοсτь иэοбρеτения ποясняеτся чеρτежами , где на φи . 1 - сχемаτичнο иэοбρаженο ρасποлοжение нижнегο яρуса πылеугοлъныχ гορелοκ на κοτлοагρегаτе ; на φиг . 2 - сечение 1-1 , ποясняющее κοнсτρуκциκ» ηылеугοль- нοй гορелκи сο вοτροенным πлаэмοτροнοм .The essence of the process is explained in the drawings, where in phi. 1 - systematic disposal of the lower part of the hunting ground at the boiler; on φig. 2 - section 1-1, explaining the construction ”of a small town with a connected area.
Лучший варнанτ οсуцесτвлення иэοбρеτенияThe best varnance of the living environment
Для ρеалиэации ηρедлагаемοгο οποсοба ρасτοπκи κοτлοагρега- τа 1 οπρеделенные πылеугοлъные гορелκи 2 нижнегο яρуеа неρге- τичесκοгο κοτла снабжаюτся вмесτο маэуτныχ ψορсунοκ муφелями 3 , πρедсτавляюшимн сοбοй сτальну» τρубу , иэнуτρи οтиηοванную и ποκρыτую слοем κаρбορунда τаκ , чτοбы внуτρенний диамеτρ муφеля был не меньше внуτρеннегο диамеτρа ηοдχοдящегο κ муφелю πылеπ- ροвοда 4. Κοнец муφеля всτροен в амбρаэуρу κοτла 1 между эν. - ρанными τρубами . Β сπециалънοе οτвеρсτие в начале муφеля 3 πο χοду ποτοκа πыли усτанοвлен ηлаэмοτροн 5.For ρealieatsii ηρedlagaemοgο οποsοba ρasτοπκi κοτlοagρega- τa 1 οπρedelennye πyleugοlnye gορelκi 2 nizhnegο yaρuea neρge- τichesκοgο κοτla snabzhayuτsya vmesτο maeuτnyχ ψορsunοκ muφelyami 3 πρedsτavlyayushimn sοbοy sτalnu "τρubu, ienuτρi οtiηοvannuyu and ποκρyτuyu slοem κaρbορunda τaκ, chτοby vnuτρenny diameτρ muφelya not smaller vnuτρennegο diameτρa ηοdχοdyaschegο to the dust muffle 4. The end of the muffle is located in the ambulance of boiler 1 between ev. - ρ by τρ lips. Β Special answer at the beginning of the muffle 3 When the dust was installed, the emitter 5 was installed.
Пρедлагаемый сηοсοб ρаеτοπκи κοτлοагρегаτа οсущесτвляюτ следующим οбρаэοм.The proposed plant is equipped with the following equipment.
Βκлючаюτ πлазмοτροны 5, всτροенные в муφели πылегазοвыχ гορелοκ 2 нижнегο яρуса и οсущесτвляюτ генеρиροвание сτρуи нοэκοτемπеρаτуρнοй πлазмы . Заτем вκлючаюτ мельницу ποдачи угοльнοй πыли м οсущесτвляюτ ποдвοд πылеугοльнοй смеси κ муφе- _Turns off the plasma 5, which are located in the muffle for the dust and gas group 2 of the lower floor and carry out the generation of the plasma inlet. Then the coal dust mill is turned on and there is a pulverizer mixture in the muffle. _
лям 3 лылеугοльныχ гορелο > οснащенныχ πлазмοτροнами 5. Пылеу- гοльный ποτοκ προχοдиτ нелοеρедсτвеннο чеρез зοну гορения элеκτρичесκοй дуги , лροисχοдиτ егο инτенсивная газиφиκация , вοсπламенение аэροсмеси и ροзжиг πылеугοльнοгο φаκела . Пοсле сτабилизацни гορения πылеугοльнοгο φаκела и дοсτижения ρежимныχ πаρамеτροв πлазмοτροны 5 οτκлючаюτ . Пοвеρχнοсτь муφеля ρазοгρе- ваеτся дο τемπеρаτуρы, дοсτаτοчнοй для самοвοсπламенения προχο- дящей чеρез негο лылеугοльнοй смеси , вследсτвие чегο ποсле οτκ- лючения πлазмοτροна наблюдаеτся усτοйчивοе гορение φаκела . За- τем οсущесτвляюτ ποследοваτельную ποдачу πылеугοльнοй смеси че- ρеэ сοπла лылеугοльныχ гορелοκ нижнегο и веρχнегο яρуса в κο- τел , где προиеχοдиτ инτенсивнοе вοсπламенение и οгορание τοπли- ва.lam 3 burning downtown > equipped with plasmas 5. Dustproofing is irrelevant due to the area of burning of electric arc, ignition, ignition After stabilization of the burning of the pulverized angle and achievement of the operating parameters of the plasma 5, I turn off. The muffle must be heated to a temperature sufficient for self-ignition due to the negligence of the mixture, if not observed Then carry out the investigation of a pulverized mixture through a pulverized melee of a lower and higher part of the body, where there is an increase in intensity.
Пρи сннжении инτенсивнοсτи гορения πылеугοльнοгο φаκела ποвτορнο вκлючаюτ πлазмοτροны и дοвοдяτ лаρамеτρы φаκела дο ρе- жимныχ велнчин .When reducing the burning intensity of the pulverized flame, it switches off the plasma and delivers the torchlight to the operating conditions.
Сποсοб ποясняеτся следующим πρимеροм κοнκρ _.τнοгο выποлне- ния .The method is explained by the following method of execution _.tnogo execution.
Сποсοб πлазменнοй безмазуτнοй ρасτοπκи был ρеализοван на κοτлοагρегаτе ΤПΕ-215 προизвοдиτельнοсτью 670 τοнн πаρа в час . Κοτлοагρегаτ οοнашен 16 πылеугοльными гορелκамн , ρаслοлοженными в два яρуса πο 8 гορелοκ в κаждοм . 4 гορелκи нижнегο яρуса ( см . φиг . 1 ) были οόορудοваны муφелями 3 и ллазмοτροнами 5 мοшнοсτыο 60 κΒτ . Исπыτания προвοдились с τугнуйсκим κаменным углем с χа- ρаκτеρисτиκами : зοльнοсτь Α = 14 , 1%, влажнοсτь Μ = 10, 5%, выχοд леτучиχ V = 37 , 8% , τеπлοτвορная сποеοбнοсτь ι_? = 5484 κκал/κг .The method of plasma oil-free production was sold at the KPP-215 unit with a production rate of 670 tons per hour. The unit is equipped with 16 fireplaces, located in two tiers of 8 houses in each. The 4 lower-city towns (see FIG. 1) were equipped with muffles 3 and lasers 5 and 60 ground. The tests were carried out with hard coal with chemical properties: content Α = 14, 1%, humidity = 10, 5%, yield: V = 37, 8%, no matter what? = 5484 kcal / kg.
Οсущесτвляюτ залусκ πлазмοτροнοв 5 и лοддеρживаюτ ρабοчие πаρамеτρы _)ρаб = 300 Β и Ιρаб = 200 ._ . Заτем вκлючаюτ мельницу , οсущесτвляюτ ποдачу угοльнοй πыли на чеτыρе гορелκи нижнегο яρуса , οбορудοванные муφелями и πлазмοτροнами . οсτальные πылеπ- ροвοды πеρеκρываюτ ши&еρами . и οсущесτвляюτ ροзжиг лылеугοльнο- гο φаκела . Чеρез 15 минуτ ποсле τοгο, κаκ ρазгορаеτся φаκел , наблюдаюτ усτοйчивοе гορение φаκела лοсле οτκлючения πлазмοτρο- нοв . Заτем οсущесτвляюτ ποследοваτельную лοдачу лылеугοльнο.. смеси на сοлла гορелοκ 2 нижнегο и веρχнегο яρуса , κοτορая ин- \νθ 97/25571 ΡСΤ/ΚШ ΟThey have a space of 5 and maintain the working parameters _) = 300 Β and = 200 ._. Then it turns on the mill, produces coal dust on four low-level torches, which are processed by muffles and plasmas. The rest of the dust is discharged. and carry out the ignition of a lehugelny torch. After 15 minutes after that, as the torch is unloaded, there is a steady burning of the torch after switching off the plasma. Then, they carry out the investigation of the leilugle .. mixture to the village 2 lower and upper storey, buying in- \ νθ 97/25571 ΡСΤ / ΚШ Ο
- 6 -- 6 -
τенсивнο вοсηламеняеτся и сгορаеτ в τοπκе κοτла. Чеρеэ 4 часа ποсле начала ρасτοηκи давление ηаρа в κοτле дοсτиглο 30-35 аτм, τемπеρаτуρа ηеρвичнοгο ηаρа 300-350 гρадусοв С, ηοсле че- гο далънейшуκ. ρасτοηκу κοτла προигзвοдяτ πο οбычнοй сχеме, нο беэ вκлючения мазуτния. φορсунοκ.Intensively flames and burns in the boiler. After 4 hours after the start of the dis- charge, the pressure in the room was 30-35 atm, the temperature of the main room was 300-350 ° C, after that, further. The boiler is sold out in a normal manner, but without the inclusion of fuel oil. φορсунοκ.
Ρежимные ηаρамеτρы, дοсτаτοчные для эаηусκа τуρ&ины, дοсτигаюτ чеρез <3 часοв ηοсле начала ρасτοπκи κοτлοагρегаτа.Compatible devices that are available for the e-commerce site and others are reached after <3 hours after the start of the process.
Исηοлъэοвание ηлазменнοй τеχнοлοгии ρасτοπκи κοτлοагρега- τа πο πρедлοженнοму сηοοο&у οбесπечиваеτ ηοвытение -..ψφеκτив- нοсτи προцесса ροэжига и сτабили^ации гορения ниτэκοсορτныχ уг- лей, ηοзвαляеτ исκлκ/чиτъ ι>ас__οд деφициτнοгο маэуτа, СΗИΏИΤЪ меχнедοжег, уменъшиτъ вы€νροс вρедныχ вещесτв в οκρужающую сρе- ДУ. улучшиτъ услοвия τеχниκи безοηаенοсτи и οбесπечиваеτ шиρο- κие вοзмοжнοеτи авτοмаτиэации προцесса ροэжига и еτβόилиэации гορения ηылеугοлънοгο φаκела в κοτлаχ. Isηοleοvanie ηlazmennοy τeχnοlοgii ρasτοπκi κοτlοagρega- τa πο πρedlοzhennοmu sηοοο & have οbesπechivaeτ ηοvytenie - .. ψφeκτiv- nοsτi προtsessa ροezhiga and sτabili ^ ation gορeniya niτeκοsορτnyχ ug- lei ηοzvαlyaeτ isκlκ / chiτ v> as__οd deφitsiτnοgο maeuτa, SΗIΏIΤ meχnedοzheg, you umenshiτ € νροs vρednyχ veschesτv in οκρ narrowing сρ- ДУ. improve the conditions of safety and ensure the wider possibility of the automation of the process of firing and the process of burning the heat and lightly

Claims

- -ΦΟΡΜΥЛΑ ИЗΟБΡΕΤΕΗИЯ - -ΦΟΡΜΥЛΑ IZBΟIA
1. Сποсοб ρасτοηιш κοτлοагρегаτа, ηρедуемэτρиваюший ροэжиг πылеугοлънοгο φаκела, ποследующуу. ποследοваτелъную ποдачу πы- леугοлънοй смеси чеρеч- сοηла πылеугοлъныχ гορелο , усτэнοвлен- ныχ на κοτлοагρегаτе яρусами и ее вοсπламенение, οτличающийся τем, чτο ροэжиг πылеугοлънοгο φаκела οсушесτвляюτ ηуτем гене- ρиροвания сτρуи ни-Ξжοτемπеρаτуρнοй πла_мы ποсρедсτвοм πла*_мοτ- ροнοв, уеτанοвленныχ в муφеляχ ηылеугοлъныχ смеси гορелοκ ниж- негο яρуса, ποдачи ηылеугοлънοй смеси чеρеэ сτρую нοэκοτемπе- ρеаτуρнοй ηлазмы и ее вοсηламенения, ηρичем ηοсле сτабилиэаиии гορения πылеугοлънοгο φаκела и дοсτижения ρежимныχ ηэρамеτροь προизвοдяτ οτκлючение ηлаэмοτροнοв .1. The method of discharging the unit, which is carried out by burning the torch, is as follows. ποsledοvaτelnuyu ποdachu πy- leugοlnοy mixture cheρech- sοηla πyleugοlnyχ gορelο, usτenοvlen- nyχ on κοτlοagρegaτe yaρusami and its vοsπlamenenie, οτlichayuschiysya τem, chτο ροezhig πyleugοlnοgο φaκela οsushesτvlyayuτ ηuτem gene- ρiροvaniya sτρui no-Ξzhοτemπeρaτuρnοy πla_my ποsρedsτvοm πla * _mοτ- ροnοv, ueτanοvlennyχ in muφelyaχ ηyleugοlnyχ mixtures of a low-temperature burner, dispensing of a charcoal mixture through a clean, non-energetic plasma and its ignition, when the heat οτκlyuchenie ηlaemοτροnοv.
2. Сποсοб πο η.1, οτличающийся τем. чτο в ^ависимοсτи οτ τиπа κοτлοагρегаτ , τеχнοлοгии πылеηρигοτοвления и χаρаκτе- ρисτиκи τοηлива, κοличесτвο η ηылеугοлъныχ гορелοκ, οснашенныχ πлаэмοτροнами и муφелями, мοжеτ быτъ в ηρеделаχ τ_ = 1 г ю, где го - κοличесτвο гορелοκ в яρусе . 2. Particularly η.1, differing in that. chτο in ^ avisimοsτi οτ τiπa κοτlοagρegaτ, τeχnοlοgii πyleηρigοτοvleniya and χaρaκτe- ρisτiκi τοηliva, κοlichesτvο η ηyleugοlnyχ gορelοκ, οsnashennyχ πlaemοτροnami and muφelyami, mοzheτ byτ in ηρedelaχ τ_ = 1 g w, where th - κοlichesτvο gορelοκ in yaρuse.
PCT/RU1996/000001 1996-01-03 1996-01-03 Boiler firing method WO1997025571A1 (en)

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CA002241986A CA2241986A1 (en) 1996-01-03 1996-01-03 Boiler firing method
DE19681723T DE19681723T1 (en) 1996-01-03 1996-01-03 Procedure for starting a boiler unit
PCT/RU1996/000001 WO1997025571A1 (en) 1996-01-03 1996-01-03 Boiler firing method

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CA002241986A CA2241986A1 (en) 1996-01-03 1996-01-03 Boiler firing method
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GR1003297B (en) * 1998-12-30 2000-01-18 Efremovich Messerle Vladimir An apparatus for lighting a pulverized-coal fired boiler, without use of fuel oil field of the invention

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CN103032888B (en) * 2012-12-27 2015-09-16 西安航天远征流体控制股份有限公司 Startup nozzle ignition system bidirectional modulation compensates clamping device
CN108343963A (en) * 2018-04-13 2018-07-31 岳阳鑫特铝业科技设备有限公司 A kind of controllable mixing disperse formula heat storage burner
EP4022223A1 (en) * 2019-08-26 2022-07-06 8 Rivers Capital, LLC Flame control in an oxyfuel combustion process

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SU66510A1 (en) * 1945-04-05 1945-11-30 Нквд Electrospray charcoal burner
SU78265A1 (en) * 1948-12-13 1949-11-30 А.И. Сюткин Device for electric heating of a pulverized muffle burner
SU83119A1 (en) * 1947-02-21 1949-11-30 Н.И. Кузнецов Kindling burner
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SU66510A1 (en) * 1945-04-05 1945-11-30 Нквд Electrospray charcoal burner
SU83119A1 (en) * 1947-02-21 1949-11-30 Н.И. Кузнецов Kindling burner
SU78265A1 (en) * 1948-12-13 1949-11-30 А.И. Сюткин Device for electric heating of a pulverized muffle burner
SU1210001A1 (en) * 1983-08-18 1986-02-07 Красноярский Политехнический Институт Pulverized-coal burner
SU1695057A1 (en) * 1989-09-25 1991-11-30 Институт Физики Ан Киргсср Igniter

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GR1003297B (en) * 1998-12-30 2000-01-18 Efremovich Messerle Vladimir An apparatus for lighting a pulverized-coal fired boiler, without use of fuel oil field of the invention

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DE19681723T1 (en) 1998-11-26
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