燃料化学学报
燃料化學學報
연료화학학보
JOURNAL OF FUEL CHEMISTRY AND TECHNOLOGY
2014年
6期
656-661
,共6页
王知彩%陈恩生%潘春秀%任世彪%雷智平%水恒福
王知綵%陳恩生%潘春秀%任世彪%雷智平%水恆福
왕지채%진은생%반춘수%임세표%뢰지평%수항복
煤液化%沥青烯%荧光光谱%结构表征
煤液化%瀝青烯%熒光光譜%結構錶徵
매액화%력청희%형광광보%결구표정
coal liquefaction%asphaltene%fluorescent spectroscopy%structural characterization
以胜利褐煤为原料,通过不同条件下加氢液化制备了相应的沥青烯,利用元素分析、红外光谱、紫外可见光谱和荧光光谱等分析技术对所制备的沥青烯进行了结构表征,探讨了氢气初压和液化温度对沥青烯结构的影响。结果表明,胜利褐煤液化活性高,沥青烯和前沥青烯等重质中间物收率较低。胜利褐煤沥青烯中芳香体系主要以2~3环缩合芳环及联苯类芳香结构为主。提高氢气初始压力,可以促进煤的加氢裂解及AS脱羟基。高温、高氢压有利于AS中芳环取代基的加氢裂解。相对而言,荧光光谱是沥青烯芳香结构的有效表征手段,其荧光光谱特征结果与元素分析、H/C原子比间存在明显的相关性。
以勝利褐煤為原料,通過不同條件下加氫液化製備瞭相應的瀝青烯,利用元素分析、紅外光譜、紫外可見光譜和熒光光譜等分析技術對所製備的瀝青烯進行瞭結構錶徵,探討瞭氫氣初壓和液化溫度對瀝青烯結構的影響。結果錶明,勝利褐煤液化活性高,瀝青烯和前瀝青烯等重質中間物收率較低。勝利褐煤瀝青烯中芳香體繫主要以2~3環縮閤芳環及聯苯類芳香結構為主。提高氫氣初始壓力,可以促進煤的加氫裂解及AS脫羥基。高溫、高氫壓有利于AS中芳環取代基的加氫裂解。相對而言,熒光光譜是瀝青烯芳香結構的有效錶徵手段,其熒光光譜特徵結果與元素分析、H/C原子比間存在明顯的相關性。
이성리갈매위원료,통과불동조건하가경액화제비료상응적력청희,이용원소분석、홍외광보、자외가견광보화형광광보등분석기술대소제비적력청희진행료결구표정,탐토료경기초압화액화온도대력청희결구적영향。결과표명,성리갈매액화활성고,력청희화전력청희등중질중간물수솔교저。성리갈매력청희중방향체계주요이2~3배축합방배급련분류방향결구위주。제고경기초시압력,가이촉진매적가경렬해급AS탈간기。고온、고경압유리우AS중방배취대기적가경렬해。상대이언,형광광보시력청희방향결구적유효표정수단,기형광광보특정결과여원소분석、H/C원자비간존재명현적상관성。
A series of asphaltenes were prepared by the direct liquefaction of Shengli lignite under different conditions in this paper. Their structures and compositions were characterized by elemental analysis, FT-IR spectroscopy, UV-vis spectroscopy and Fluorescent spectroscopy. The influences of initial pressure of H2 and liquefaction temperature on the structure of asphaltene were also discussed. The results indicate that Shengli lignite displays high conversion of liquefaction, and low yield of heavy intermediates such as asphaltene and preasphaltene. The aromatic systems mainly consist of 2~3 rings condensed nucleus and multi-phenyl compounds. To increase the initial pressure of H2 can promote the hydro-cracking of coal matrix and the removal of hydroxyl group by hydrogenation. High temperature and high pressure of H2 is favorable for the hydro-cracking of the substituent in AS. By contrast, the fluorescent spectroscopy is an effective technique to characterize the aromatic nucleus of asphaltne. The results characterized by the fluorescence spectra of asphaltene are relation with its H/C atomic ratio.
