化工学报
化工學報
화공학보
JOURNAL OF CHEMICAL INDUSY AND ENGINEERING (CHINA)
2014年
6期
2316-2322
,共7页
污泥%固定床热解%热解气体%裂解炭%温度区间
汙泥%固定床熱解%熱解氣體%裂解炭%溫度區間
오니%고정상열해%열해기체%렬해탄%온도구간
sewage sludge%fixed-bed pyrolysis%pyrolytic gas%pyrolytic char%temperature ranges
对城市污水污泥(简称污泥)进行工业分析和热重分析,考察污泥的基本组成和热重特性;采用气相色谱(GC)检测了不同热解温度区间内污泥热解生成的气体产物成分,并利用SEM和BET分别分析了不同热解终温下裂解炭的形貌特征和比表面积。结果表明:污泥热解可以分为水分析出阶段、挥发分析出阶段和焦炭化阶段;不同热解温度区间内污泥热解气体产物的组成有很大差别,热解温度350℃后H2在热解气中的含量快速增加,CH4含量在350~450℃时达到最大值,而CO主要在热解温度为350~750℃时生成,CO2含量随着热解温度的增加迅速下降;随着热解终温的不断升高,裂解炭结构变得越来越疏松,比表面积也随之增大,750℃达到最大值55 m2·g-1。
對城市汙水汙泥(簡稱汙泥)進行工業分析和熱重分析,攷察汙泥的基本組成和熱重特性;採用氣相色譜(GC)檢測瞭不同熱解溫度區間內汙泥熱解生成的氣體產物成分,併利用SEM和BET分彆分析瞭不同熱解終溫下裂解炭的形貌特徵和比錶麵積。結果錶明:汙泥熱解可以分為水分析齣階段、揮髮分析齣階段和焦炭化階段;不同熱解溫度區間內汙泥熱解氣體產物的組成有很大差彆,熱解溫度350℃後H2在熱解氣中的含量快速增加,CH4含量在350~450℃時達到最大值,而CO主要在熱解溫度為350~750℃時生成,CO2含量隨著熱解溫度的增加迅速下降;隨著熱解終溫的不斷升高,裂解炭結構變得越來越疏鬆,比錶麵積也隨之增大,750℃達到最大值55 m2·g-1。
대성시오수오니(간칭오니)진행공업분석화열중분석,고찰오니적기본조성화열중특성;채용기상색보(GC)검측료불동열해온도구간내오니열해생성적기체산물성분,병이용SEM화BET분별분석료불동열해종온하렬해탄적형모특정화비표면적。결과표명:오니열해가이분위수분석출계단、휘발분석출계단화초탄화계단;불동열해온도구간내오니열해기체산물적조성유흔대차별,열해온도350℃후H2재열해기중적함량쾌속증가,CH4함량재350~450℃시체도최대치,이CO주요재열해온도위350~750℃시생성,CO2함량수착열해온도적증가신속하강;수착열해종온적불단승고,렬해탄결구변득월래월소송,비표면적야수지증대,750℃체도최대치55 m2·g-1。
Municipal sewage sludge (i.e. sludge) at various temperature ranges was analyzed by proximate analysis and thermogravimetric analysis methods. The gaseous components produced by the sludge pyrolysis were detected by gas chromatography (GC), while the morphology and specific surface area of pyrolytic char measured by SEM and BET techniques, respectively. The results show that the pyrolysis process of sludge can involve water evaporation, organics volatilization and char formation steps. There are obvious differences between the gas components obtained at different ranges of pyrolysis temperature. The H2 content will rapidly increase when pyrolysis temperature is larger than 350℃, the maximum CH4 content obtained when temperature is in 350-450℃, the temperature range generated CO is mainly in 350-750℃, and the CO2 content declines for the whole range of pyrolysis temperature. With rising final temperature of pyrolysis, the char structure becomes more and more loose and it specific surface area increases. The maximum specific surface area of char produces is 55 m2·g-1 at 750℃.
