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Upscaling of Thermo-Catalytic Reforming Process from Lab to Pilot Scale
Industrial & Engineering Chemistry Research ( IF 3.8 ) Pub Date : 2019-06-07 , DOI: 10.1021/acs.iecr.9b00765 Mohamed Elmously 1, 2, 3 , Nils Jäger 1 , Johannes Neidel 1 , Andreas Apfelbacher 1 , Robert Daschner 1 , Andreas Hornung 1, 2, 4
Industrial & Engineering Chemistry Research ( IF 3.8 ) Pub Date : 2019-06-07 , DOI: 10.1021/acs.iecr.9b00765 Mohamed Elmously 1, 2, 3 , Nils Jäger 1 , Johannes Neidel 1 , Andreas Apfelbacher 1 , Robert Daschner 1 , Andreas Hornung 1, 2, 4
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Biomass has become an important approach to meet the current requirements of energy and oil alternatives. In recent years, extensive research has been carried out on the transformation of biological wastes into biofuels and biorefineries through pyrolysis, which may gradually be replacing the crude-oil resources. One promising pyrolysis route is intermediate pyrolysis, which opens the field to the valorization of a high variety of biological residues into biofuels including gases, liquid chemicals, and carbonizate. In the present work, the Thermo-Catalytic Reforming (TCR) technology based on intermediate pyrolysis with integrated catalytic reforming is discussed, showing high productivity and higher quality biofuels compared to traditional pyrolysis systems. This paper illustrates the data from the upscaling of the TCR system from laboratory scale to pilot scale using sewage sludge as feedstock. The effects of the design differences are studied from the point of view of the qualities of products, mass, and energy balances of the laboratory unit upon the pilot unit.
中文翻译:
从实验室到中试规模的热催化重整过程的升级
生物质已成为满足当前能源和石油替代品需求的重要方法。近年来,已经进行了广泛的研究,涉及通过热解将生物废物转化为生物燃料和生物精炼厂,这可能逐渐取代原油资源。一种有前途的热解路线是中间热解,这为将多种生物残留物评估为气体,液体化学品和碳化物等生物燃料提供了广阔的空间。在当前的工作中,讨论了基于中间热解与集成催化重整的热催化重整(TCR)技术,与传统的热解系统相比,该技术显示出高生产率和更高质量的生物燃料。本文说明了使用污水污泥作为原料将TCR系统从实验室规模升级到中试规模的数据。从产品质量,实验室单元与中试单元的能量平衡的角度研究了设计差异的影响。
更新日期:2019-06-07
中文翻译:
从实验室到中试规模的热催化重整过程的升级
生物质已成为满足当前能源和石油替代品需求的重要方法。近年来,已经进行了广泛的研究,涉及通过热解将生物废物转化为生物燃料和生物精炼厂,这可能逐渐取代原油资源。一种有前途的热解路线是中间热解,这为将多种生物残留物评估为气体,液体化学品和碳化物等生物燃料提供了广阔的空间。在当前的工作中,讨论了基于中间热解与集成催化重整的热催化重整(TCR)技术,与传统的热解系统相比,该技术显示出高生产率和更高质量的生物燃料。本文说明了使用污水污泥作为原料将TCR系统从实验室规模升级到中试规模的数据。从产品质量,实验室单元与中试单元的能量平衡的角度研究了设计差异的影响。
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