Microcrystalline structure of a commercial coke prepared from a mixture of different coals
-
摘要: 用XRD、HRTEM、XPS以及SEM/EDS等手段对配合煤大生产焦炭进行表征和分析,研究了焦炭基质中碳质微晶结构、碳与氧等元素的结合形态,以及矿物质在焦炭基体中的存在形态,揭示了焦炭的本征结构。结果表明,焦炭中碳质结构是由结构规整的类石墨微晶和形状结构不规则的无定形炭构成,其中类石墨层片大小约为4 nm,堆叠厚度约为1.9 nm,且空间排列较为有序。碳与氧的结合形式主要是碳氧单键,其次是羧基和羰基,碳氧键合对焦炭中的类石墨微晶结构有一定的破坏,从而对焦炭的反应性(CRI)、反应后强度特性(CSR)产生影响。焦炭中的灰分主要有SiO2和"Al-Si-金属元素"两种矿物形式存在,且复合氧化物熔点较低,在焦炭基质中呈现球状形态。Abstract: The microcrystalline structure, the chemical states of oxygen and the ash components of an industrial coke prepared from a mixture of different coals were investigated by XRD, HRTEM, XPS and SEM/EDS to reveal the microstructure of the coke. Results showed that the carbon matrix in the coke was composed of graphite microcrystallites and amorphous carbon. The graphite microcrystallites had an average lamellar size of 4 nm and stack thickness of 1.9 nm, and had a high orientation degree within an optical domain. The oxygen in the coke was mainly in C—O, COOH and CO groups. The presence of oxygen distorted the graphite microcrystallites, which increased the coke reactivity with CO2 and decreased its strength after the reaction. The ash components in the coke were SiO2 and Al-Si-metal alloy, with the latter having a spherical morphology due to its low melting point.
-
Key words:
- Coke /
- Carbon material /
- Microcrystalline /
- Chemical component
-
大谷杉郎,真田雄三.炭化工学基础[M].株式会社ォーム社,昭和55年.(大谷杉郎.真田雄三,炭化工学の基礎[M].株式会社ォーム社,昭和55年. (Ohgo Sugiro, Masada Yuzo. Introduction of Carbonization Engineering[M]. ZHANG Da-ming,YANG Jun-ying Trans. Lanzhou Xinhua Printery,1985) Tang G H, Yang J H, Zhang Z, et al. A new method of quantitatively analyzing pore structure from porous materials[J]. Coal Conversion, 2004, 27(1):71-75. Zhang D L. Study on determination of coke pore structure by image analyzing[J].Fuel & Chemical Processes,2003, 34(4):175-178. Wang P Z, Wang Q F, Zhang D L. Fractal dimension calculation of coke image[J].Journal of Anhui University of Technology, 2007, 13(4):199-201. Wang Q F. Image-based feature extraction of coke microstructure[J].Journal of Luoyang Normal University,2016,35(2):64-67. 高晋生. 煤的热解、炼焦和煤焦油加工[M].化学工业出版社,2010. (Gao J S. Coal Pyrolysis, Coking and Coal Tar Processing[M].Chemical Industry Press.2010.) Wang Y. Application of micro analysis technology in the optimazation of coking coal[J].Shanxi Chemical Industry,2016, 165(5):70-72. Hu D S. Crystallite structure characteristics of coke[J]. Iron and Steel, 2006, 41(11):10-13. Tian Y S, Wang G H, Zeng D L, et al. Effect of coal ranks on the coke properties[J]. Coal Conversion, 2010, 33(1):37-40.) Pusz S, Krzesińska M, Smedowski L, et al. Changes in a coke structure due to reaction with carbon dioxide[J]. International Journal of Coal Geology, 2010, 81(4):287-292. Yang J H, Cheng S H, Wang X, et al. Quantitative analysis of microstructure of carbon materials by HRTEM[J]. Transactions of Nonferrous Metals Society of China,2006,16:796-803. Dobb M G, Guo H, Johnson D J. Image analysis of lattice imperfections in carbon fibers[J]. Carbon,1995,33(8):1115-1120. Zhang Z, Xie F, Zhen Y, et al. Coke microcrystalline texture and its effect on coke reactivity[J].Journal of Fuel Chemistry and Technology,2018, 46(4):406-412 Boehm H P. Surface oxides on carbon and their analysis:A critical assessment[J]. Carbon, 2002,40(2):145-149. Darmstadt H, Roy C, Kaliaguine S, et al. Surface chemistry of ordered mesoporous carbons[J].Carbon,2002,40(14):2673-2683. Takahagi T, Ishitani A. XPS study on the surface structure of carbon fibers using chemical modification and C1s line shape analysis[J]. Carbon, 1988, 26(3):389-395. -
下载:
点击查看大图
图(1)
计量
- 文章访问数: 368
- HTML全文浏览量: 141
- PDF下载量: 120
- 被引次数: 0
