Chemical Looping Combustion with Different Types of Liquid Fuels

A. Hoteit, Ann Forret, William Pelletant, J. Roesler, T. Gauthier
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引用次数: 45

Abstract

CLC is a new promising combustion process for CO2 capture with less or even no energy penalty compared to other processes. Up to now, most of the work performed on CLC was conducted with gaseous or solid fuels, using methane and coal and/or pet coke. Liquid fuels such as heavy fuels resulting from oil distillation or conversion may also be interesting feedstocks to consider. However, liquid fuels are challenging feedstock to deal with in fluidized beds. The objective of the present work is therefore to investigate the feasibility of liquid feed injection and contact with oxygen carrier in CLC conditions in order to conduct partial or complete combustion of hydrocarbons. A batch experimental fluidized bed set-up was developed to contact alternatively oxygen carrier with liquid fuels or air. The 20 mm i.d. fluidized bed reactor was filled up with 45 g of NiAl0.44 O1.67 and pulses of 1-2 g of liquid were injected in the bed at high temperatures up to 950˚C. Different feedstocks have been injected, from dodecane to heavy fuel oils No.2. Results show that, during the reduction period, it is possible to convert all the fuel injected and there is no coke remaining on particles at the end of the reduction step. Depending upon oxygen available in the bed, either full combustion or partial combustion can be achieved. Similar results were found with different liquid feeds, despite their different composition and properties.
不同类型液体燃料的化学环燃烧
与其他方法相比,CLC是一种新的有前途的二氧化碳捕获燃烧方法,其能量损失更少,甚至没有。到目前为止,在CLC上进行的大部分工作都是使用气体或固体燃料进行的,使用甲烷和煤和/或pet焦。液体燃料,如由石油蒸馏或转化产生的重质燃料,也可能是值得考虑的有趣原料。然而,液体燃料是流化床处理的一个挑战。因此,本工作的目的是研究在CLC条件下液体进料喷射和与氧载体接触以实现碳氢化合物部分或完全燃烧的可行性。研制了一种间歇式实验流化床装置,使氧载体与液体燃料或空气交替接触。在20 mm的流化床反应器中填充45 g NiAl0.44 O1.67,并在高达950℃的高温下脉冲注入1-2 g液体。注入了不同的原料,从十二烷到重质燃料油2号。结果表明,在还原过程中,注入的燃料可以全部转化,并且在还原步骤结束时颗粒上没有残留的焦炭。根据床层中可用的氧气,可以实现完全燃烧或部分燃烧。不同的液体饲料,尽管其成分和性质不同,但结果相似。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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