Graphitization: Microstructural and microtextural transformations of residual char from international coal combustion ash

IF 5.6 2区 工程技术 Q2 ENERGY & FUELS International Journal of Coal Geology Pub Date : 2024-02-18 DOI:10.1016/j.coal.2024.104470
Ana Cláudia Santos , Charlotte Badenhorst , Barbara Białecka , Ignacio Cameán , Alexandra Guedes , Karen Moreira , Georgeta Predeanu , Isabel Suárez-Ruiz , Nicola Wagner , Bruno Valentim
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Abstract

Natural graphite is a critical raw material and its substitution in some applications will contribute to reduce its supply risk. Coal ash, which is still produced in high amounts, contains a carbonaceous solid residue (char) that may be a substitute of natural graphite. For this purpose, char may be graphitized and used in electrocatalysis reactions, however char properties depend on coal rank, composition and combustion conditions that affect the graphitization process. Research on industrial coal char graphitization is limited, resulting in restricted comprehension of the contributing factors. In order to provide novel insights, industrial residual chars (derived from Poland, Portugal, Romania and South Africa) subjected to high-temperature treatments (carbonization at 1000 °C followed by treatment at 2600 °C under environmental pressure) were examined regarding their microstructural and microtextural transformations. The samples were studied by focussing on its heterogeneity, namely its specific properties and interactions, including elemental composition, optical character, and structure. Furthermore, the evolution of structural order of selected char morphotypes in samples derived from coal of similar rank was assessed using Raman microspectroscopy.

The results highlighted a set of aspects that could have influenced the transformations experienced by the different chars during high temperature treatments (graphitization). It was found that Hydrogen might play a role in the graphitization ability of isotropic chars derived from low rank coal. The prior preferential orientation of the Basic Structural Units (BSU) contributes to achieve a higher graphitization degree, but it can be enhanced or hindered by other factors, e.g., hydrogen content. Raman microspectroscopy showed that char morphotypes from the same group underwent different transformations during graphitization, indicating that morphotypes or sections with unfused optical character may be more prone to graphitization. However, the existence of disordered domains and specific microtextures, such as polyhedral pores identified under TEM, likely hindered further graphitization. Further research on this topic is needed.

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石墨化:国际燃煤灰渣的微结构和微纹理变化
天然石墨是一种重要的原材料,其在某些应用中的替代品将有助于降低其供应风险。目前仍在大量生产的煤灰含有一种碳质固体残留物(炭),可以作为天然石墨的替代品。为此,可将煤炭石墨化并用于电催化反应,但煤炭的特性取决于煤的等级、成分和影响石墨化过程的燃烧条件。有关工业煤炭石墨化的研究十分有限,因此对其影响因素的理解也受到限制。为了提供新的见解,研究人员对经过高温处理(1000 °C碳化,然后在环境压力下进行2600 °C处理)的工业残炭(来自波兰、葡萄牙、罗马尼亚和南非)进行了微观结构和微纹理转变方面的研究。研究的重点是样品的异质性,即其特定属性和相互作用,包括元素组成、光学特征和结构。此外,还使用拉曼显微光谱法评估了从等级相似的煤炭中提取的样品中选定炭形态结构顺序的演变情况。研究结果强调了一系列可能影响不同炭在高温处理(石墨化)过程中发生转变的方面。研究发现,氢可能会对低等级煤中各向同性炭的石墨化能力产生影响。基本结构单元(BSU)的优先取向有助于实现更高的石墨化程度,但氢含量等其他因素也会增强或阻碍石墨化程度。拉曼显微光谱显示,同一组的木炭形态在石墨化过程中发生了不同的转变,这表明具有未融合光学特征的形态或切片可能更容易石墨化。不过,无序结构域和特定微观结构(如在 TEM 下发现的多面体孔)的存在可能会阻碍进一步的石墨化。关于这个问题还需要进一步研究。
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来源期刊
International Journal of Coal Geology
International Journal of Coal Geology 工程技术-地球科学综合
CiteScore
11.00
自引率
14.30%
发文量
145
审稿时长
38 days
期刊介绍: The International Journal of Coal Geology deals with fundamental and applied aspects of the geology and petrology of coal, oil/gas source rocks and shale gas resources. The journal aims to advance the exploration, exploitation and utilization of these resources, and to stimulate environmental awareness as well as advancement of engineering for effective resource management.
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