Result shows that the carbon black in China owns wide market prospects and it is feasible to build up carbon black project using ethylene cracking tar as the raw material.
结果表明,炭黑在我国具有广阔的市场前景,以乙烯裂解焦油为原料建设炭黑项目是可行的。
The mechanism of the activated center of the catalysts on the tar removal efficiency, the gas component after tar cracking and the reaction speed or activation energy were studied.
根据三种材料作用机理的不同,研究探讨催化剂活性中心对热解气中焦油裂解率、催化裂解气体成分及反应速度(活化能)的影响。
Experiments of tar cracking on char with toluene as a model compound were performed in an electrically heated tubular flow reactor.
在小型固定床反应器上,以甲苯为模型化合物对生物质焦油在热解焦上的催化裂解反应进行了研究。
The effects of temperature and residence time on tar cracking in the freeboard of a fluidized bed have been investigated in order to reduce the tar produced in the pyrolysis process of coal.
为降低煤在热解过程中的焦油产率,在一流化床稀相段考察了温度和停留时间对焦油裂解的影响。
The tar cracking model was constructed.
建立了焦油热裂解的动力学模型。
Catalytic cracking is promised as one of the most potential tar removal method.
催化裂解被认为是焦油脱除方法中最有前途的一个。
The results indicate that acid and alkali catalysts can increase the tar cracking reaction speed and reduce the activation energy due to the activated center.
结果表明,酸性和碱性催化剂由于活性中心的存在,加快了反应速度和降低了反应活化能。
The results indicate that acid and alkali catalysts can increase the tar cracking reaction speed and reduce the activation energy due to the activated center.
结果表明,酸性和碱性催化剂由于活性中心的存在,加快了反应速度和降低了反应活化能。
应用推荐