柑橘废弃物(陈皮)的非催化和催化热解

IF 0.9 Q4 ENGINEERING, CHEMICAL
S. Poddar, J. N. Ullas Krishnan, J. S. Chandra Babu
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引用次数: 2

摘要

摘要工业的发展需要能源。因此,对替代更新能源的需求增加。它们是太阳能、风能、波浪能、地热能和生物质。为了从这些来源产生能量,我们采用了热化学和生物化学方法。在所有的热化学起源中,热解由于其产生固体、液体和气体产物的能力而备受关注。本文介绍了在半间歇反应器中进行的非催化和催化热解(573-1173K)实验,以及对从当地果汁销售商网点收集的柑橘废料(橙皮)进行的TGA设置。观察到催化剂的作用并得出结论,催化剂的存在增加了焦油的产率(30.79wt.%→ 49.45wt.%)与ZnO纳米催化剂混合,从而成为性能最好的催化剂。还使用等温和非等温方法测定了反应动力学。通过对焦油pH值的研究,发现柑桔废焦油呈酸性,但催化剂的存在使其呈碱性。热解气体的GC分析推断,该气体含有CO和H2,可作为费托工艺的能源和原料。因此,这种类型的热解器在大城市的市政区域中使用。图形摘要
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Non-catalytic and catalytic pyrolysis of citrus waste (orange peel)
ABSTRACT The development of industries requires energy sources. Therefore, the requirement for alternative renewal energy sources increases. They are solar, wind, wave, geothermal, and biomass. For the generation of energy from these sources, we apply thermochemical and biochemical methods. Amidst all the thermochemical origins, pyrolysis is advancing attention due to its ability to produce solid, liquid, and gaseous products. This article represents the non-catalytic and catalytic pyrolysis (573 -1173K) experiments conducted in a semi-batch reactor and TGA set up for citrus wastes (orange peel) collected from the local fruit juice seller outlet. The effect of catalysts observed and concluded that the presence of catalysts increases the yield of pyro-oil (30.79 wt.%→ 49.45 wt.%) with ZnO nanocatalyst to be the best performing catalyst. Reaction kinetics were also determined using isothermal and non-isothermal methods. The pH values of the pyro-oil investigated and observed that citrus waste pyro-oil is acidic, but the presence of catalyst makes it basic. The GC analysis of the pyro-gas infers that the gas contains CO and H2, which can be used as an energy source and feedstock for the Fischer–Tropsch process. Therefore, the utility of this type of pyrolyser is done in municipal areas of large cities. GRAPHICAL ABSTRACT
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来源期刊
Indian Chemical Engineer
Indian Chemical Engineer ENGINEERING, CHEMICAL-
CiteScore
3.00
自引率
6.70%
发文量
33
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