高硫强粘结性煤与生物质共热解的研究 高硫强粘结性煤与生物质共热解的研究

高硫强粘结性煤与生物质共热解的研究

  • 期刊名字:燃料化学学报
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  • 论文作者:周仕学,聂西文,王荣春,刘泽常
  • 作者单位:山东科技大学化工系
  • 更新时间:2020-03-24
  • 下载次数:
论文简介

μ028%r μ04EUEV4AT>-NsNs+°Vol.28 No.42000Ae 8 oJOURNAL OF FUEL CHEMISTRY AND TECHNOLOGYAug.2000。βAoCi03VaD0A90eEu TYOE 12EE/aμAN%i°OUEENSE- A61+ TAE-16EU*9L A60632f"EIS9wgEWN4*6NSs=51=[μu-tAAY 250031200a 00OA5 00 BAδCiO3WaD0A90e 2 00EuTrOE0O 1kg/h >0xA AUI2E!aE:02UE .2uAE i@9O∈EOTrOE0ODAoefμAuEE%aIN3yiφ1jμA1aNS xe0~)aDDAENDWi i/a10+1A-230 T/10fμAEG≥EAE∞[ TANWAEEENaTAMEuAta》~ i白 -00y1-02/9 Ey9↑2/q0 -021/9- EyAEAaLEUTrOE iExe01CiO3/aD0A=EE/a1y3i0DjAAEO@WaμAO3/atμAμ%AEx1)21 igEEuTYOEEwaEu≥EwHqaμA H29DAQ00A90DAoe IμβμAIN3yEE∞xATATEμAEy βjB°A°qEμA∞6Dj°[A°aOEa1∈μμiEE%a INAδ?i INμ AEOo 6EAREEWhE2UEUpADvaTaOBEuTEO@WGuATTA>) TNSx+0Axe0-1 aiNs。+1601D0x60 μADT≈∈°1-c01 f10/40 "E9 BAOAS:03/haD0A Er1TOE>E)%L>0xA-0D1W-0AaA89IQ530.2TA1xt∈EqAef9ATA0Ata9A£90253 - 240”" 2004 - 0294-04。BAδG;O3WaD0AR" S&u> 3% iGp.1. > 65E00Ao -0μATAMEODAQ0UA9ODAδ≌1μPμAEEyha NJ302E389EuμAμ1,BE6A0OUATh1 >qμ%:OA11 ijμAAo -O0Ex_ BEAx∈E%AT>aAAoμIμAEx ~%h1 izja9E9%101 3 002uE - εEOAx≈EIWATjφ-A36 6Ai SO2 910 TUE%> -V632003%aD0CiS6E%aE+x%GAO》 1a0-AT26010 ,BAOCi δ3WaDOA≤≌IEuTrOExEO° i-EtAo01 ia3∈6;EAN00OA1ir" 2q0EaWoDDEE%ax》- i& μA0OYha%>9[x0TA0OA;EEuTroe"°uA~ AOx+1T20_ N: Q%zCia4D%i氏iCOμoa0ujc1 EμNe2i-00i0%θμOaEeμESQE0° -C3C -a。0IEHO1oμAEuTTOEAe2u.1 EμNeNiF- EμINe0AUBOYFEoA° jAaeEo .EAR i@aAi T 1GtjEEu1Y0EμAAσjρ≌≌jρ61πτδE≌→Aiμi6NE0°6x- -EA j4UOE 1/3 /61 Ag9i0DAE}%%1 A 5 60 βAoGi0320EuμA CO2 +>0211N-》- A00A96 CO2 μA4%> AA -AAi日IhaDOAR0O%°O∩Ax0QixaAO 2 60EuTTOE iEEuACμA1a0μAatfE3E0@TR°Ai Eta0U-0160e0日EO -6 16EyWYV4Q+i 1iEA°NuμA%qμ0Exe-'Ea~C ae910EEaS9oC0Ot/%OE%EOEEDS AEμi ifCiδ3WaD0A9AEigδ%O。EAO%61 012uAEj@3 )aD0y4° NuE- μAEEEg0OOeEuTT0EOU>Ox2A- AU12EE)aE+EuTr0EεExe01A9Ef" WRT- 2 EEiEMEy TAEUAE 10C/minf@y94Y%0+f 2iEVsa1ysi0BjAAEO@WaμAO3lkaci T/OETrOE2q2EOANT。β1 NuE μA10μ-0160e0@E0-016Table 1 Proximate and ultimate analyses of samplesProximate analysis/w%Sulfur/w% dUltimate analysis/w% daf 1SampleS,CA&"Yanzhou coalEO2.0411.71 42. 303.12 0.03 1.1983.115.912.10AE"Xinwen coalE@1.5510.87 41 .253.31 0.10 1.1586.241.80 .AG"Zaozhuang coalLO0.5912.32 32. 153.74 0.04 1.7287.325.131.83AG"Linyi coal200.89.14.7528.123.20 0.13 1.5288.744.891.48AG"Zhongliangshan coalE⑥0.7716.2121.693.07 0.06 2.5289.834.721.06晖"Com stalksE@7.501.4790.310.04 n.d.* n.d.51.365.970.36"Sawdusi£@6.921.1488.260.02 n.d.n.d.54. 86.310.28目not determined1.2 EμNe-%-" >0xXA EEWax°OAECT% 1 EUE%iLA9 A9Eox∈3E0A SP - 2305 FEo IaEE1a101c%μ2a9 f7+ 10o0i0B°0>》" tEAy>i 9°960AAYDy. ,ATE=EIEe>OxAT£zoDO xe0- -01 AETac1 iφOALiaC9IiQ:qx°qiE-x*4ATEUE 1kg/htft:/%4OEEZA- AU个AT iεAδ+ya 50minjfEE/hauμAEo ia2uTT%-AaAyAaE”-0Ae1@A9Eo j@1019iE@jE4E0OUEENSμE°9 BAoGio3WaDOA9OeEuTrOE 1EEμANDNi295tf 2 NUEμAqμOE xe- EaAEiEAE∈S00-0Tδ"510C j480CE国jEW" Ac/1 01zuAE" YfOeEEwaTAETable2 Analyes of vtinite rlxviyE6.Ke" Gray - King asy29 f" τεOva10πμuAEyNSAEDT° *500 ~ 1000CE的E9ditllation and T(E" thermogavimetry@of samplesT'- 5102图SarmpleRellexivityG. K. disillation Caking indexTGYp=15.3x0.363 V2πex$0.2x 632R./%Y/w%dGuLTrem" /9+11.5x0.7x1 {15.3x0.3+ 11.5x0.7fQEU1 -A0.80417.77:4851.01514.49590ef$"+-480;692@%! .20315.3951(3001.41111.58(1.5910.875201)Bn.d.28010.9370州in : temperature where differential weight loss is maximum0 [(3)cobiomassgas4)water500 600 700 800 900 1000Temperature/C142 EEWaTATEqO2GTY2UAEμAO°TiFig.2 Effect of temperature on product yields哥A;: Bj = 30: 70E*particle < 3mm" 1£6- char 2E0- gas 32⑥- warenS"4- tar-220VEy NS AE Di IAE Ea 0μ0e Eμ≥aφμAxi 6%40 OEw2个∩a1%41 >0xAFEE)ax°OA0. 5%ExT 6TaqOE<2η1≥8% iEOEEyNSAEDi iEO∈CA9Fig.1 Equipment of pyrolysis in rotary furmnace6101x个6EuEEUAEqT00|μATATEOeEEEgO0O -aAEC: solid hopper£>2- screw feederE3rotary fumace£》0O0AμAE6uTT0E0U 5000ETE)a2>0U2uEu/10i2%14一condenserE5- char container£*6 一temperature01;aE%Ip“TAN/aμATAEia 480CiEmonitor£*7- insulating refractory£.- revolution2.2 EEWha INAδI INμp EEvaTAE i d2AEE i eata0Egovemor£>9 一motor:>10reduction gear3iqE91EuTTOEIi1V4OAqOAOeEuTrOE 12EE/%aNAδ2[ NARlieEhae6oOouAoigp wuAoefμAIN3yAE° sR,ic μuAO°T1Eq1% 3- 6 Ex;£OEi% 3 iEXEexEEaTASR.umRQROYOATODAROIETOTOEAOAE mion2i@C EμAEy ,BEAoRiμ≌μAN3yAE0a °62pμx 800C00ETO8 -uAδ9fμ9μA9-Aj001°%1 i;2uAE" Y15qg2O 1AENE8V.6Dj j20D>uAo IN3y AEtEμ IN3yAE0%4. ,B 5% &E1P>GAOEuTTOEμAAδ -0些19AoIN3yAE, B 11~ 16% jf1000cE土1P>uAo INsyAEEOμISR。= 100- YwnjiSwyenen2~ mjSsef国-%60 50% £θ∈°EεE1E们100000TA FeS2 -O/aEu3∈EμAECSR.. = 100- YyngjPSermes2~ miScnme2国-%1uAo_。9T个1 FeSi &"RaOD x> 0£@RNR = 100- YwngjWYVxrc2" mibVjesd + mj GVrre20H%o0厂A: B,=30 : 702 Vea100e 10A0.0上parides3mm2.1 2uTr2uAE TAE 00ex AP0e0nAx%6O12EElMa2叫UTr2uAEμA0°160T%4 2j20E1%4 2 εEyQ0U 500 ~ 700C-T50TgAUExATAmEpuAEy. BEA9Eo2UAETOOo0 621 i;2UAEP(2))100%μμIzH1012uAE%T 6~"7 ~ 9% 2周700~ 1000153δμA>O-c个T/%TEU2H10i -cEuTO0oμAMp TANwaE6a2uAE00800900y[μT"3 ~ 5% £④土36个V101μAEu3EAE9iηp° TANhaAEExe13 EEWaTAETOINAoi iNμ≌μA0°IiE/aTATEμAta》~ iE -0t80A0y1--02/9-Ey9112/0-0Fig.3Effect of temperature on s and N removal296E AT>-NSNS+"28 %i65AEAOμAεxIq2> -C T26E/aZUEuμACaAεEU2AOUAP0DA: B,=30 : 70T=900CAδ9iμAIN3yif600ETV4 6 iE/OL6xexAEuTrOE1%OAμA0δ° 62NAo9155NμPAE0δ OiEuTYOExeO1ARjAAE0@Wa03/)a261 "22aEe8 50Ei毛。FEoDORAfoCOEEYAaEU3E 6Ai H2EODAOOUAPODAOjCμ->0TT-0%aEd3E HSjNH, 1o IN3yjiEuTTOEi i146Ai0.30.94.V.60A 40% E土EAE/4a3010A+ IOμAOJWaTOT6EEuTTOEiCoal particle/ mmV40Ai > 70% EENAo9f INμ@ AE06:%02>A+ I0fEcCOAYDy1%44 AAETEOINAδ11NμAO°TiVxoA12,>3C2TEEpAEuTTOEITNOA4TE 50 ~ 70% ifif14o%aFig.4 Effect of particle size on S and N removalACμAINAoNμAEAO_ ,BoUi 1400x0uAiC ]- - sulfur£>■一nitrogen2.3 A991EuTrOE H2 2uAEμAtE)yT G;03/aD0A92,iV4:0Eu T0E%ODDEEWEHEYOU>x2A AU2>A00y320EDDZ1EA,: B,3070Ae1Eu1YOE H2 2uAEμA+E%1EC0∪1 i7"2.*01压>0x370 SoA-2>x2qTEaQU/2oDDμA;EEuzuA9 EoOAEYE: AUAAEOOA>>2503)-"E0%- 20UOAEo IaEQx@A-1%46 EuTrOEI1%4OAzT0 INAO9I INμAO°TiAUj900CTA2Oxex A9EE/a00%°0e0nAx%012E)@" ^A;:Fig.6 Efect of biomass content on S and N removalB = 30: 70f@u20/21 ljμA1 aNs。+ lo0i DOxe0- -016Ey34YE" 1£0- N from A3+ B29 226- N from A3+ BE》V0+1 3j21%40Eu1r0E001° ATμA --97261/21 i0DμA£" 320- Sfrom Ag+ B,$"42-- s from A3+ B,A=q7x* xe0-100ol46EUj¥. AETaCIxe0-100a0oqaE%1i-01%4 i °366exAAAETEμA0δ° 6Aδ 1μPuAIN3y土i 3 y1 1juμA1aNs +1001D0xe0-AE/uμμijf' 6;AAEAUEo Ia0DApe1Eu TOEEViaZUEUμATable 3 Analysis of anisotropie textures of chaf" %£@H2 iclo1ilatiAe SiQ >TD0μaAOEc00%°Eu3EμA H2SiCNH TojAAElaAOEcμAxeA! 62>> AOUAPODAo2Iμ≌μAFine- Coarse -FlowDomainsSampleReactorgrainedE/ha IN3yifmosaicstype0ET% 5 εE0≈E6xA$4qu0Exe-' EaAEμA0 62% taAFixed bed7.568.8 20.23.5δE31qEμAla ,BEAO°IμPμA INayAE/yμμ1 jftaOEsiqE_ BA3+ B15.871.710.7 1.84EU00ENSμE BAδCjO3%aDOA90eEu1rOE 12EElaμuANB4iTOEE'raEuSEμAIε@a -cEuYA1> Nξx+OAExe°_ AE9fμAIN3yExe°_ AQODVaTlaDjCo1aμADi≥∈9i -cδ1910DVAaTaD;Co laμAEu3Ej@ 6i EU2cZθAE1 Eu2U%21 ligμAE1%11;1aNg. +160D046Eoi& BA9>~ EARODpμAAδ9Iμ≌1aNs +1o0iD0μ¥0≌uA3β° ctaDiifVITANIN3yE%T BuATAE9 [%iTDjμAA ALTEODA0OUA9OD3%aA0Aδ°fμμAIN3y ic2E0A>OxBA E/%a 1002zβAoGiσ3aCi03/aDOA90eETTOEOU>OxeA- AU12E/AEtE%ODOA9OeEuTTOE 12EEV%a£6U2uu1Aoμ1μAEx "V611zj69E0EeEuTrOEEAUxe01 AEE/a 1y310DjAAE0@WaμA03yaqo2%1012uE -2年. BAOiO3/%aDOA9OeEuTrOEμAwa% jeUuμAuμxAEx" /%1 lz26E%aEu3EhTaμA H2 IoODAO0OUAODAOQTA00A;+UAEO> i6DAN4&qiE2↑i% TATx2012Y AT TASATtECi26τεE1μE . EYTEEEWEitOCaEEthEYIO氏a0eA口12EE hauAEOONDW&UJ2Y EMAT- NsNS士° f996-28~ 409341 ~EU2EY Zhou S XE-Li D XE-Yu H G. Sulfur removal from high sulfur and strongly caking coal by prolysis and slight gaifiatioGUCEY Proceed-ings of the 10th intemational conference on coal science2-1999E-Taiyuan2 China291569~ 1572.£03EY Gryglewicz G. Efeciveness of high temperature pyrolysis in sulfur removal from coaUJEY Fuel Process Technol-1995E-46 25国9217 ~226.2042Y Gai P L. Microstructure of carborfUJEY Carbom£-1989E 2”1E0年1 ~ 53.EUSEY ZhouS XE-Nie X WE-Yu H G. Research on the high temperature pyrolysis of high sulfur and strongly caking coaUC院Proeedings ofsymposium on clean coal tecnolog1£1999-BeijngE-China£921 ~ 925.£06EY OUEENS . >OxA AEE%a1 00μANBWgUDEY土土NO29A9 lizENSNEW4ix00°2 1996.STUDY ON CO- PYROLYSIS OF HIGH SULFUR ANDSTRONGLY CAKING COAL WTTH BIOMASSZHOU Shi - xue£ NIE Xi - wen2-W ANG Rong - chun2 LIU Ze - changE" Department of Chemical EngineeringE sShandong University of Science and Technologyf-/inan 250031E-China2@ABSTRACTEFive coal samples of high sulfur content and strongly caking property and two biomass sam-ples were subject to co - pyrolysis in a rotary furnace with a capacity of 1kg/h. Product yields£ removal ofsulfur and nitrogen from the coal and the biomassf aund optical textures of the char were studied. The re-sults show that the probability of tar formation can be simulated by normal distribution functionE while thatof tar decomposition by W eibull distribution function. Biomass prevents coal particles from caking togetherduring pyrolysisf 7and therefore particulate char can be obtained. The biomass produces more hydrogenthan the coal during pyrolysis£- and consequently promotes the removal of sulfur and nitrogen from thecoal. The effectiveness of pyrolysis in the removal of sulfur and nitrogen increases with the increase oftemperature£- the decrease of the degree of coal metamorphosis and the size of coal particle. The reactionbetween biomass char and the mesophase from the pyrolysis of caking coal obstructs the formation and de-velopment of anisotropic textures .KEY WORDS29high sulfur coalf- caking coalf-biomassS co - pyrolysisE- rotary fumaceμUO》x+0OBEOUEENSAD2+966 A∈Eu$6%W

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