沈阳大学学报
瀋暘大學學報
침양대학학보
JOURNAL OF SHENYANG UNIVERSITY
2012年
2期
15-17
,共3页
许庆利%赵军%李洪宇%王复%颜涌捷
許慶利%趙軍%李洪宇%王複%顏湧捷
허경리%조군%리홍우%왕복%안용첩
生物油%乙酸%精制%机理
生物油%乙痠%精製%機理
생물유%을산%정제%궤리
bio-oil acetic acid%upgrading%mechanism
采用乙酸为模型化合物,在裂解温度500℃,质量空速为5.0h-1,不同水含量条件下进行了催化裂解精制实验,并采用GC-MS分析了催化裂解液体产物.乙酸经过HZSM-5分子筛催化剂催化裂解后,产物中含有苯、萘、茚及其衍生物.根据乙酸催化裂解产物,推测了乙酸催化裂解精制反应途径,说明生物油催化裂解精制反应过程主要发生脱氧和芳烃化反应.
採用乙痠為模型化閤物,在裂解溫度500℃,質量空速為5.0h-1,不同水含量條件下進行瞭催化裂解精製實驗,併採用GC-MS分析瞭催化裂解液體產物.乙痠經過HZSM-5分子篩催化劑催化裂解後,產物中含有苯、萘、茚及其衍生物.根據乙痠催化裂解產物,推測瞭乙痠催化裂解精製反應途徑,說明生物油催化裂解精製反應過程主要髮生脫氧和芳烴化反應.
채용을산위모형화합물,재렬해온도500℃,질량공속위5.0h-1,불동수함량조건하진행료최화렬해정제실험,병채용GC-MS분석료최화렬해액체산물.을산경과HZSM-5분자사최화제최화렬해후,산물중함유분、내、인급기연생물.근거을산최화렬해산물,추측료을산최화렬해정제반응도경,설명생물유최화렬해정제반응과정주요발생탈양화방경화반응.
As the model compound, acetic acid was catalytic pyrolyzed at 500 ℃, WHSV of 5.0 h-1 , under the condition of different water content. The products of model compounds contained benzene, naphthalene, indene and their derivatives after catalytic pyrolysis on HZSM-5 zeolite. According to the catalytic cracking products of acetic acid, catalytic reaction pathways were speculated to illustrate that deoxidization and aromatization took place over bio-oil catalytic cracking reaction.
