Solar methane pyrolysis in a liquid metal bubble column reactor: Effect of medium type and gas injection configuration

IF 5.8 2区 化学 Q1 CHEMISTRY, ANALYTICAL Journal of Analytical and Applied Pyrolysis Pub Date : 2024-09-11 DOI:10.1016/j.jaap.2024.106756
Malek Msheik, Sylvain Rodat, Stéphane Abanades
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Abstract

Solar methane pyrolysis in different molten media and reactor configurations was experimented to improve hydrogen production. Pure Sn, Ni0.18Sn0.82, Cu0.45Bi0.55, and KCl melts were compared at three different temperatures (1030–1130–1230 °C), and no significant difference was observed except for KCl and only at 1230 °C (XCH4 = 72 % vs. 57 % for pure Sn). This enhanced performance was attributed to possible carbon dispersion in the salt, which probably modified the physical properties and enhanced hydrodynamics. A porous quartz sparger (downward injection) did not significantly enhance the bubbles hydrodynamics, mainly because bubbles were trapped and coalesced below the sintered disc. A custom-made sparger (lateral bubbling) did not either improve conversion due to non-uniform pores. A sparger with an upward injection should be preferred to generate small bubbles with longer residence time. When a solid bed of tungsten carbide particles was placed around the injector, overlaid by molten tin, the conversion was improved even at a relatively low temperature (XCH4 = 17 % at 1030 °C). The immersed bed likely behaved as a porous device and increased the gas-solid surface contact. Combining particle bed and liquid bubbling system is very promising for further optimization of methane pyrolysis in molten media. The carbon collected above molten metals showed mostly a sheet-like structure with significant metal contamination. In case of KCl, most carbon was entrained with the gas, while the remaining was mixed with KCl in the reactor. The density of KCl is close to that of carbon, which prevented a good separation.

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液态金属气泡柱反应器中的太阳能甲烷热解:介质类型和气体注入配置的影响
为了提高氢气产量,我们尝试了在不同熔融介质和反应器配置下进行太阳能甲烷热解。在三个不同温度(1030-1130-1230 °C)下对纯锡、Ni0.18Sn0.82、Cu0.45Bi0.55 和 KCl 熔体进行了比较,除了 KCl 熔体,且仅在 1230 °C(XCH4 = 72 % 对纯锡的 57 %)下,未观察到显著差异。性能的提高归因于盐中可能存在的碳分散,这可能改变了盐的物理性质并提高了流体力学性能。多孔石英喷射器(向下喷射)并没有显著提高气泡的流体力学性能,主要是因为气泡被困在烧结盘下方并凝聚在一起。定制的喷射器(横向鼓泡)由于孔隙不均匀,也没有提高转化率。应首选向上喷射的喷射器,以产生停留时间更长的小气泡。当在喷射器周围放置由碳化钨颗粒组成的固态床,上面覆盖熔融锡时,即使在相对较低的温度下(1030 °C 时 XCH4 = 17%),转化率也有所提高。浸没床可能是一种多孔装置,增加了气固表面接触。将颗粒床和液体鼓泡系统相结合,对于进一步优化甲烷在熔融介质中的热解非常有前景。在熔融金属上方收集的碳大多呈片状结构,金属污染严重。就氯化钾而言,大部分碳与气体夹带在一起,而剩余的碳则与反应器中的氯化钾混合在一起。氯化钾的密度与碳的密度接近,因此无法很好地分离。
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来源期刊
CiteScore
9.10
自引率
11.70%
发文量
340
审稿时长
44 days
期刊介绍: The Journal of Analytical and Applied Pyrolysis (JAAP) is devoted to the publication of papers dealing with innovative applications of pyrolysis processes, the characterization of products related to pyrolysis reactions, and investigations of reaction mechanism. To be considered by JAAP, a manuscript should present significant progress in these topics. The novelty must be satisfactorily argued in the cover letter. A manuscript with a cover letter to the editor not addressing the novelty is likely to be rejected without review.
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