光谱学与光谱分析
光譜學與光譜分析
광보학여광보분석
SPECTROSCOPY AND SPECTRAL ANALYSIS
2014年
6期
1497-1501
,共5页
热解%杨木%脲醛树脂%模型物%热重红外光谱法
熱解%楊木%脲醛樹脂%模型物%熱重紅外光譜法
열해%양목%뇨철수지%모형물%열중홍외광보법
Pyrolysis%Poplar%Urea formaldehyde resin%Model%TG-FTIR
热解是废弃人造板高效回收利用的方式,人造板中所含胶黏剂是其不同于生物质的主要特征。为了有效环保地利用热解技术处理废弃人造板,解明人造板热解过程中其所含脲醛树脂胶黏剂(UF)对木材热解特性的影响,深入探索UF对人造板中木材各组分的作用机制,以杨木及木材的三种主要组分(纤维素、半纤维素、木素)为研究对象,创新性地依据杨木的化学组成,以纤维素、木聚糖和木素配制成模型物,并加入UF模拟人造板的构成。利用热重红外光谱联用(TG-FTIR)分析法,对比分析了加入UF前后模型物以及杨木各主要组分的热失重特性及气相演变规律。热重及红外结果表明,UF促进了纤维素热解过程中水和羧酸类物质的生成。UF与木素结合生成热不稳定的含氮结构,释放大量氨气,并且在200~300℃区间内参与了木素的热解并直接影响木素热解产物的生成。由此推测,在人造板热解过程中,木材三种主要组分中与UF作用的主要成分是木素。
熱解是廢棄人造闆高效迴收利用的方式,人造闆中所含膠黏劑是其不同于生物質的主要特徵。為瞭有效環保地利用熱解技術處理廢棄人造闆,解明人造闆熱解過程中其所含脲醛樹脂膠黏劑(UF)對木材熱解特性的影響,深入探索UF對人造闆中木材各組分的作用機製,以楊木及木材的三種主要組分(纖維素、半纖維素、木素)為研究對象,創新性地依據楊木的化學組成,以纖維素、木聚糖和木素配製成模型物,併加入UF模擬人造闆的構成。利用熱重紅外光譜聯用(TG-FTIR)分析法,對比分析瞭加入UF前後模型物以及楊木各主要組分的熱失重特性及氣相縯變規律。熱重及紅外結果錶明,UF促進瞭纖維素熱解過程中水和羧痠類物質的生成。UF與木素結閤生成熱不穩定的含氮結構,釋放大量氨氣,併且在200~300℃區間內參與瞭木素的熱解併直接影響木素熱解產物的生成。由此推測,在人造闆熱解過程中,木材三種主要組分中與UF作用的主要成分是木素。
열해시폐기인조판고효회수이용적방식,인조판중소함효점제시기불동우생물질적주요특정。위료유효배보지이용열해기술처리폐기인조판,해명인조판열해과정중기소함뇨철수지효점제(UF)대목재열해특성적영향,심입탐색UF대인조판중목재각조분적작용궤제,이양목급목재적삼충주요조분(섬유소、반섬유소、목소)위연구대상,창신성지의거양목적화학조성,이섬유소、목취당화목소배제성모형물,병가입UF모의인조판적구성。이용열중홍외광보련용(TG-FTIR)분석법,대비분석료가입UF전후모형물이급양목각주요조분적열실중특성급기상연변규률。열중급홍외결과표명,UF촉진료섬유소열해과정중수화최산류물질적생성。UF여목소결합생성열불은정적함담결구,석방대량안기,병차재200~300℃구간내삼여료목소적열해병직접영향목소열해산물적생성。유차추측,재인조판열해과정중,목재삼충주요조분중여UF작용적주요성분시목소。
Pyrolysis is an efficient and recycling way to utilize waste wood-based panels,in which urea-formaldehyde resin (UF) is the main difference between wood-based board and other kinds of biomass.The present paper studied the three main compo-nents (cellulose,hemicelluloses,lignin)of poplar wood,in order to effectively and environmentally utilize or dispose of waste wood-based panels with pyrolysis technique,to study the influence of urea formaldehyde resin on pyrolytic characteristic of wood during the process of the pyrolysis of waste wood-based panels,and to in-depth explore the mechanism of the effect of UF on each component of wood.Innovatively,the weight-loss character and gas evolution rule of the model (made from cellulose,xylan and lignin,based on the chemical components stud of poplar wood),the main components as well as the ones mixed with UF were analyzed by TG-FTIR (thermogravimetric analyzer coupled to a Fourier transform infrared spectrometer).Results indicated that UF promoted the generation of water and carboxylic acid substances during the cellulose pyrolysis process.UF combined with lignin,formed some kind of unstable nitrogenous structure which produced a large amount of NH3 ,which took part in the low-temperature (200~300 ℃)pyrolysis of lignin,and directly affected the production of pyrolysis products.It can be conclu-ded that during the process of the pyrolysis of waste wood-based panels,lignin was the one that UF mainly impacted among the three main components of wood.
