煤分子结构与模型化合物反应研究是煤洁净、高效和高附加值利用的基础。
Study of coal molecular structure and model compound is the foundation of clean, effective and high value-added utilization of coal.
从煤分子结构出发,煤的反应性可以用芳香环,氢化芳香环,烷烃链、烷烃键和含氧官能团的变化来描述。
From molecule structure of coal, coal reaction character was described by aromatic ring, hydrogenation aromatic ring, alkane, alkane bond, oxy-group.
从理论和实验两个方面研究了煤的各向电异性与煤大分子结构间的关系。
Relationships between the electrical anisotropy of coal and coal macromolecular structure were studied theoretically along with several experiments.
评述了关于煤大分子结构和煤大分子堆垛结构研究的最新进展。
The latest advance in the study of the macromolecular structure and macromolecules stacking structure of coals were reviewed.
可见煤层甲烷的吸附与煤的分子结构、晶体结构和孔隙度密切相关。
Therefore, coalbed methane adsorption has close relationships with coal molecular structure, crystal structure and porosity.
研究了不同条件下合成的水煤浆添加剂萘磺酸钠甲醛缩合物(nsf)与不同煤化程度煤的分子结构之间的匹配性能。
The matching performance between additive of Naphthalenesulfonic AcidFormaldehyde Condensate (NSF) for coal water slurry (CWS) and the molecular structure of different coals was studied.
同时,还探讨了用煤大分子结构异常特征预测煤和瓦斯突出潜在危险性的问题。
At the same time, the author also discusses the question that the hazard of outburst in colliery is predicted by using the abnormal features of the maro-molecular structure of coal.
同时,还探讨了用煤大分子结构异常特征预测煤和瓦斯突出潜在危险性的问题。
At the same time, the author also discusses the question that the hazard of outburst in colliery is predicted by using the abnormal features of the maro-molecular structure of coal.
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