化工学报
化工學報
화공학보
JOURNAL OF CHEMICAL INDUSY AND ENGINEERING (CHINA)
2015年
8期
3106-3112
,共7页
蔡新兴%汪祝胜%李瑛%计伟荣
蔡新興%汪祝勝%李瑛%計偉榮
채신흥%왕축성%리영%계위영
生物质%碳磺酸%纤维素%水解%催化剂
生物質%碳磺痠%纖維素%水解%催化劑
생물질%탄광산%섬유소%수해%최화제
biomass%carbon-based solid acid%cellulose%hydrolysis%catalyst
对炭化温度、磺化条件以及不同碳源等因素对生物质碳磺酸的酸量、表面结构及催化纤维素水解活性的影响进行了系统研究,并采用XRD、BET、 FT-IR和SEM等对碳磺酸的微观特征进行了分析,发现合适的炭化温度和炭化程度是制备高酸量碳磺酸的关键,在相同的炭化和磺化条件下,用不同生物质碳源制备得到碳磺酸的酸量接近,微观结构不同对纤维素水解催化活性有一定影响。在本文研究的几种碳磺酸中,具有蜂窝大孔结构的竹炭碳磺酸呈现比较突出的催化活性。将竹粉在400℃炭化3 h,然后在180℃下磺化8 h,得到竹炭碳磺酸的总酸量和磺酸量分别可达5.34和1.25 mmol·g?1。
對炭化溫度、磺化條件以及不同碳源等因素對生物質碳磺痠的痠量、錶麵結構及催化纖維素水解活性的影響進行瞭繫統研究,併採用XRD、BET、 FT-IR和SEM等對碳磺痠的微觀特徵進行瞭分析,髮現閤適的炭化溫度和炭化程度是製備高痠量碳磺痠的關鍵,在相同的炭化和磺化條件下,用不同生物質碳源製備得到碳磺痠的痠量接近,微觀結構不同對纖維素水解催化活性有一定影響。在本文研究的幾種碳磺痠中,具有蜂窩大孔結構的竹炭碳磺痠呈現比較突齣的催化活性。將竹粉在400℃炭化3 h,然後在180℃下磺化8 h,得到竹炭碳磺痠的總痠量和磺痠量分彆可達5.34和1.25 mmol·g?1。
대탄화온도、광화조건이급불동탄원등인소대생물질탄광산적산량、표면결구급최화섬유소수해활성적영향진행료계통연구,병채용XRD、BET、 FT-IR화SEM등대탄광산적미관특정진행료분석,발현합괄적탄화온도화탄화정도시제비고산량탄광산적관건,재상동적탄화화광화조건하,용불동생물질탄원제비득도탄광산적산량접근,미관결구불동대섬유소수해최화활성유일정영향。재본문연구적궤충탄광산중,구유봉와대공결구적죽탄탄광산정현비교돌출적최화활성。장죽분재400℃탄화3 h,연후재180℃하광화8 h,득도죽탄탄광산적총산량화광산량분별가체5.34화1.25 mmol·g?1。
Carbon-based solid acids were prepared by using different biomass carbon sources. The effect of the carbonization temperature, sulfonation condition and type of biomass on the acid amount, surface structure and catalytic activity of the hydrolysis of cellulose were studied. The results indicated that the acid amount of the carbon-based solid acid obtained depended mainly on the carbonization temperature or essentially the carbonization degree of the biomass. The structural information of these solid acids were investigated by using XRD, BET, FT-IR and SEM. Under the same carbonization and sulfonation condition, the carbon-based solid acids prepared by using different biomasses gave a very similar acid amount but a quite different microstructure, leading to an obvious difference in the catalytic activity. The carbon-based solid acid produced from bamboo powder (BBC-SO3H) showed a better catalytic activity in the hydrolysis of cellulose than the acids from other studied biomasses. After carbonizing bamboos at 400℃ for 3 h and then sulfonating the carbonized bamboos at 180℃ for 8 h, the resulting solid acid gave a total acid amount of 5.34 mmol·g?1 and a sulfonic acid amount of 1.25 mmol·g?1, respectively.