摘要
生物质能源作为一种资源丰富、环境友好的可再生资源,在解决环境污染和能源危机上具有重要的应用价值。然而,我国大部分农林废弃物都是直接焚烧或丢弃,不仅污染了环境,而且造成了巨大的生物质资源浪费。因此,学术界提出了多种生物质能源转化利用技术。其中,生物质无氧热解技术对于实现生物质能源的有效转化而不产生二次污染和二氧化碳零排放具有重要价值。结合生物质催化热解技术的普遍应用和新型费托催化合成技术的优势,实现生物质深度催化热解的热解气转化为重要的工业原料,采用新型费托催化合成技术生产低碳烯烃。
As a kind of resource-rich and environment-friendly renewable resource,biomass energy has important application value in solving environmental pollution and energy crisis.However,most agricultural and forestry wastes in China are directly incinerated or discarded,which not only pollutes the environment,but also causes huge waste of biomass resources.Therefore,the academia has put forward a variety of biomass energy conversion and utilization technologies.Among them,biomass anaerobic pyrolysis technology is of great value for effective conversion of biomass energy without secondary pollution and zero carbon dioxide emissions.Combined with the general application of catalytic pyrolysis technology of biomass and the advantages of new fetor catalytic synthesis technology,the pyrolysis gas of deep catalytic pyrolysis of biomass is converted into important industrial raw materials,and the new fetor catalytic synthesis technology is adopted to produce low carbon olefins.
作者
谭雨诺
吴迪
陈奇
杨钰洁
Tan Yunuo;Wu Di;Chen Qi;Yang Yujie(College of Chemical Engineering,Northwest University for Nationalities,Gansu,730124)
出处
《当代化工研究》
2020年第4期137-138,共2页
Modern Chemical Research
基金
2019年度国家级大学生创新创业训练计划项目(20191074 2079)
关键词
生物质热解气
新型核壳结构催化剂
纳米限域效应
biomass pyrolysis gas
new core-shell structure catalyst
nanometer limiting effect
