采用沉降炉快速热解和管式炉慢速热解的方法制得两种煤焦,通过环境扫描电镜(ESEM)和X射线衍射仪(XRD)分别观察煤焦的形貌结构和测量煤焦的晶体化程度。使用热重在不同的CO_2和H_2O浓度的气氛条件下研究在CO_2浓度和H_2O浓度变化时热解条件对煤焦-CO_2和煤焦-H_2O气化的影响。结果显示对于实验用褐煤,快速热解和慢速热解条件生成的煤焦均以密实型结构焦为主。快速热解和慢速热解条件生成的煤焦的煤焦-CO_2和煤焦-H_2O气化过程均可以通过收缩核模型很好地拟合。煤焦-H_2O反应和煤焦-CO_2反应的反应位并不相同。
Two kinds of char were produced by fast pyrolysis using a drop tube furnace,and by slow pyrolysis using a fixed-bed furnace.Scanning electron microscopy and X-ray diffractometry were employed to analyze char structure characterization.Char gasification rates were measured by isothermal thermogravimetric reactor in CO_2 or H_2O atmosphere.The results show that both fast-char and slow-char are mainly composed of dense char.The non-reacted core model was applicable to predict carbon conversion of chars produced not only by fast pyrolysis method but also by slow pyrolysis method.The char-CO_2 and char-H_2O reactions did not occur at common active sites.
参考文献
| [1] | D. G. Roberts;D. J. Harris;T. F. Wall .On the Effects of High Pressure and Heating Rate during Coal Pyrolysis on Char Gasification Reactivity[J].Energy & Fuels,2003(4):887-895. |
| [2] | Bo Feng;Suresh K. Bhatia;John C. Barry .Variation of the Crystalline Structure of Coal Char during Gasification[J].Energy & Fuels,2003(3):744-754. |
| [3] | 吴诗勇,顾菁,李莉,吴幼青,高晋生.高温下快速和慢速热解神府煤焦的理化性质[J].煤炭学报,2006(04):492-496. |
| [4] | Molina A.;Mondragon F. .Reactivity of coal gasification with steam and CO2[J].Fuel,1998(15):1831-1839. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%