|
OALib Journal期刊
ISSN: 2333-9721
费用:99美元
|
|
|
|
脱灰预处理对水稻秸秆物化性/水蒸气气化反应特性的影响
, PP. 598-606
Keywords: 水稻秸秆,脱灰预处理,物化性,水蒸气气化,反应特性
Abstract:
?在固定床反应器中研究了水洗、不同浓度酸洗预处理对水稻秸秆物化性/水蒸气气化反应特性的影响。结果表明,水洗处理后稻秆中的钾、钠脱除率分别为90.5%和82.1%,酸洗处理后稻秆中的钾脱除率达到99.2%,而钠脱除率随酸种类略有差异,在84.6%~92.3%;酸洗并未改变稻秆中主要组分含量,但破坏了稻秆微观物理结构。比较不同浓度酸洗后稻秆的孔容、孔径分布、bet比表面积发现,各指标的排列顺序均为水洗稻秆>3%硫酸洗后稻秆>原稻秆>7%硫酸洗后稻秆>10%硫酸洗后稻秆;各种预处理酸的浓度均为3%时,硫酸洗后稻秆的孔容、孔径分布、bet比表面积最大,而磷酸洗后稻秆各指标则最小。水蒸气气化结果表明,钾、钠及丰富的孔径结构均能促进h2的生成,且钾、钠对气化过程的作用明显强于孔径结构对气化过程的影响。水洗稻秆气化产气中h2、co2的瞬时释放浓度高于酸洗稻秆;co、ch4则相反。4种酸的浓度为3%时,稻秆气化中h2、co2瞬时释放浓度与稻秆孔径分布呈正相关性;co、ch4瞬时释放浓度则与稻秆孔径分布呈负相关性。4种酸浓度为3%时,孔径越丰富,气化速率越快。脱灰预处理虽降低了稻秆气化氢气产率,但提高了气化气体热值。
| [1] | worldenergycounil.worldenergyresources:2013survey[eb].http://www.worldenergy.org/-publications/2013/world-energy-resources-2013-survey,2013-10.
|
| [2] | hansws.wecenergypolicyscenariosto2050[j].energypolicy,2008,36(7):2464-2470.
|
| [3] | 蒋剑春.生物质能源应用研究现状与发展前景[j].林产化学与工业,2002,22(2):75-80.(jiangjian-chun.prospectonresearchanddevelopmentofbiomassenergyutilization[j].chemindforestprod,2002,22(2):75-80.)
|
| [4] | rezaiyanj,cheremisinoffnp.gasificationtechnologies:aprimerforengineersandscientists[m].bocaraton:taylor&francis,2005.
|
| [5] | 王艳,陈文义,孙姣,石海波,陈晓东.国内外生物质气化设备研究进展[j].化工进展,2012,31(8):1656-1664.(wangyan,chenwen-yi,sunjiao,shihai-bo,chenxiao-dong.researchprogressinbiomassgasificationequipment[j].chemindengprog,2012,31(8):1656-1664.)
|
| [6] | 常轩,齐永锋,张冬冬,徐亮.生物质气化技术研究现状及其发展[j].现代化工,2013,33(6):36-39.(changxuan,qiyong-feng,zhangdong-dong,xuliang.currentstatusanddevelopmentofbiomassgasificationtechnology[j].modernchemind,2013,33(6):36-39.)
|
| [7] | 田原宇,乔英云.生物质气化技术面临的挑战及技术选择[j].中外能源,2013,8(22):27-32.(tianyuan-yu,qiaoying-yun.biomassgasificationtechnologychallengesandtechnicaloptions[j].sinoglobalenergy,2013,8(22):27-32.)
|
| [8] | higmanc,vanderbm.gasification[m].2nded.burlington:gulfprofessionalpublishing,2008.
|
| [9] | henriche,weirichf.pressurizedentrainedflowgasifiersforbiomass[j].environengsci,2004,21(1):53-64.
|
| [10] | fiorenzoa,andreaa,paolab,francescosm,fabiom.entrained-flowgasificationofcoalunderslaggingconditions:relevanceoffuel-wallinteractionandcharsegregationtothepropertiesofsolidwastes[j].fuel,2013,114:44-55.
|
| [11] | konglx,baij,baizq,guozx,liw.improvementofashflowpropertiesoflow-rankcoalforentrainedflowgasifier[j].fuel,2014,120:122-129.
|
| [12] | barrosoj,ballesterj,ferrerlm,jiménezs.studyofcoalashdepositioninanentrainedflowreactor:influenceofcoaltype,blendcompositionandoperatingconditions[j].fuelprocesstechnol,2006,87(8):737-752.
|
| [13] | guoqh,gongy,xujl,yugs,wangfc.particulatematterpropertiesinabench-scaleentrained-flowcoalwaterslurrygasifier[j].powdertechnol,2014,254:125-130.
|
| [14] | fletcherdf,haynesbs,christofc,josephsd.acfdbasedcombustionmodelofanentrainedflowbiomassgasifier[j].applmathmodel,2000,24(3):165-182.
|
| [15] | 张巍巍,陈雪莉,王辅臣,代正华,于遵宏.基于aspenplus模拟生物质气流床气化工艺过程[j].太阳能学报,2007,28(12):1360-1364.(zhangwei-wei,chenxue-li,wangfu-chen,daizheng-hua,yuzun-hong.processsimulationofbiomassentrainedflowgasificationbasedonaspenplus[j].actenergysolarsinica,2007,28(12):1360-1364.)
|
| [16] | karels,michaelp,miloslavh,jirím.pretreatmentandfeedingofbiomassforpressurizedentrainedflowgasification[j].fuelprocesstechnol,2009,90(5):629-635.
|
| [17] | xiaorr,chenxl,wangfc,yugs.pyrolysispretreatmentofbiomassforentrained-flowgasification[j].applenergy,2010,87(1):149-155.
|
| [18] | 陈青.生物质高温气流床气化合成气制备及优化研究[d].浙江:浙江大学,2012.(chenqing.studyandoptimizationofbiomassgasificationinahightemperatureentrainedflowgasiferforsyngas[d].zhejianguniversity,2007.)
|
| [19] | 赵辉.生物质高温气流床气化制取合成气的机理试验研究[d].浙江:浙江大学,2007.(zhaohui.experimentalandmechanismresearchonentrainedflowgasificationofbiomassforsyngas[d].zhejiang:zhejianguniversity,2007.)
|
| [20] | qink,linwg,jensenpa,jensenad.high-temperatureentrainedflowgasificationofbiomass[j].fuel,2012,93:589-600.
|
| [21] | 苏德仁,周肇秋,谢建军,朗林,阴秀丽,吴创之.生物质流化床富氧-水蒸气气化制备合成气研究[j].农业机械学报,2011,42(3):100-104.(sude-ren,zhouzhao-qiu,xiejian-jun,langlin,yinxiu-li,wuchuang-zhi.biomamachineryssoxygenentrainedenrich-steamgasificationinanatmosphericfluidizedbedforsyngasproduction[j].transchinsocagricmach,2011,42(3):100-104.)
|
| [22] | salahha,katsuyak.bench-scalegasificationofcedarwood-partii:effectofoperationalconditionsoncontaminantrelease[j].chemosphere,2013,90:1501-1507.
|
| [23] | hernandezajj,arandag,barbaj,mendozajm.effectofsteamcontentintheair-steamflowonbiomassentrainedflowgasification[j].fuelprocesstechnol,2012,99:43-55.
|
Full-Text
|
|
Contact Us
service@oalib.com QQ:3279437679 
WhatsApp +8615387084133
|
|
