1)coal rank煤级
1.Characters of coal classification and coal rank distribution in third member of Shahejie Formation in eastern depression of Liaohe basin;辽河盆地东部凹陷沙三段煤种和煤级分布特征
2.The comprehensive research showed that coalbed methane accumulation is mainly controlled by coal seam thickness,coal petrological composition,coal rank,adsorbability and good preservation conditions.综合研究表明:该区煤层气富集的控制因素主要为煤层厚度、煤岩组分、煤级、吸附性能和良好的保存条件。
英文短句/例句
1.CBM development potential of high rank coal with reference to Qinshui coal field,Shanxi高煤级煤的煤层气开发潜力——以沁水煤田为例
2.Raman Spectroscopic Characteristics of Different Rank Coals and the Relation with XRD Structural Parameters不同煤级煤的Raman谱特征及与XRD结构参数的关系
3.Preliminary Study on Low-rank Coal Reservoirs and Coalbed Methane Pool Forming in Zhungaer Basin, NW China;准噶尔盆地低煤级煤储层及煤层气成藏初步研究
4.Evolution Kinetics of Hydrogen Generation from Low Rank Coal Pyrolysis and Its Relation to the First Coalification Jump低煤级煤热解H_2生成动力学及其与第一次煤化作用跃变的关系
5.Mechanism of uranyl ion adsorbing and complexing onto low-rank coal and ore-forming process of uranium associated coal measures低煤级煤与UO_2~(2+)的吸附络合及亲煤型铀矿成矿过程
6.A Potential High Rank Coal Area for CBM Development Base in South China-Preliminary Analysis on CBM Geological Conditions of Wulunshan Coal Area in Guizhou我国南方潜在的高煤级煤煤层气开发基地-贵州五轮山矿区煤层气地质条件浅析
7.Classification for quality of coal--Classification for calorific value of coalGB/T15224.3-1994煤炭质量分级煤炭发热量分级
8.Classification standard for size fractions of coalGB/T189-1997煤炭粒度分级
9.The Foundational Research on Water Infusion for Longwall Top Coal Caving Face in Para-Anthracite Seam;低级无烟煤综放工作面煤层注水基础研究
10.~(13)C-NMR Research of Coalification Mechanism for Low-medium Rank Coal;中低煤化作用阶级煤化作用机理的~(13)C-NMR研究
11.Constructing large-sized coal mines to push forward the industrial restructuring in the coal sector of Shanxi建设大型煤矿,推动山西煤炭产业结构优化升级
12.TheASTM rankings for bituminous coal, sub-bituminous coal, or lignite fit the spreader combustion process well.美中试验材料协会根据煤在燃烧时的性能把煤分为烟煤,次烟煤,褐煤几个等级。
13.The results showed that, compared with grade Ⅱ fly ash, grade Ⅰ fly ash was not certainly good in pozzolanic reactivity.结果表明 :相比于Ⅱ级粉煤灰 ,Ⅰ级粉煤灰火山灰活性未必更高 ;
14.Treatment of forecastle deformation of 3 000 dwt selfpropelled and self-dischorging collier3000吨级自航自卸煤船艏楼变形的处理
15.The Study on Superfine Pulverized Coal Reburning for NO_x Reduction;超细煤粉分级燃烧NO_x还原过程的研究
16.Design of 600MW Pulverized Coal-fired Boiler;600MW级机组煤粉锅炉设计计算
17.Numerical Simulation of Air-staged Combustion for a Pulverized Coal-fired Boiler Furnace in One-dimensionality;一维煤粉锅炉空气分级燃烧数值模拟
18.Coal Chemical Industry:the Only Way to Promote Industrial Upgrading in Huaibei City;煤化工:淮北市产业升级的必由之路
相关短句/例句
rank[英][r??k][美][r??k]煤级
1.The comprehensive research is made on equilibrium moisture, isothermal adsorption feature, proximate analysis and coal petrology for approximate 140 coal samples with different rank and from different places.通过对近几年来采自不同地区, 各种煤级140 个煤样的平衡水分、等温吸附特性、煤岩组成和煤质的综合研究, 揭示了煤在平衡水分条件下等温吸附特性的变化规律, 探讨了其影响因素。
3)high rank coal高煤级煤
1.This has provided an important clue for setting up a new development base of high rank coal seams in China.本文介绍了贵州织纳煤田五轮山矿区的地质背景、煤储层特征以及煤层气资源与分布情况,通过初步调查发现,贵州织纳煤田五轮山矿区煤层气基本地质条件与晋城地区具有一定可比性,这为形成我国新的高煤级煤煤层气开发基地提供了重要线索。
2.Through X ray diffraction(XRD) analysis of high rank Carboniferous period coal located in the northern foreland basin of Dabie Orogenic Belt in the eastern China,the evolution character of XRD parameters of high rank coals and the effecting factors are studied.通过对大别造山带前陆盆地石炭纪含煤岩系高煤级煤的X射线衍射分析 ,探讨了高煤级煤基本结构单元的演化特征及其影响因素。
4)low rank coal低煤级煤
1.Adsorption experiments of low rank coal under equilibrium moistures;低煤级煤平衡水条件下的吸附实验
2.Liquefaction property of low rank coal in west China我国西部低煤级煤的液化性能
3.The low rank coal reservoirs in limnic basins of Jungaar and Tuha were researched.研究了准噶尔、吐哈盆地低煤级煤储层的特征 ,结果表明 :该储层几何形态复杂 ,且受成煤环境的控制 ,表现出显著的规律性变化 。
5)high-rank coal高煤级煤
1.Based on the analysis of the maturing degree,abundance and type of organic matter,the characteristics of organic matter of high-rank coal in Jincheng has been expounded.通过对晋城高煤级煤的有机质成熟度、有机质丰度和有机类型的分析, 阐明了本区高煤级煤的有机质特征。
2.Based on the data from the proxina and ultimate analyses of vitrains in the high-rank coals from the West-northern Henan, their macromolocular structures and true density were calculated, the further exploration was made on the coalified pattern and geological causes.依据工业分析和元素分析数据,利用统计结构方法,求得了豫西主要高煤级煤矿区太原组与山西组镜煤的大分子结构参数及真密度,并据此进一步分析了有机元素及结构参数的煤化作用规律及其地质原因。
3.Through electron paramagnetic resonance(EPR) analysis of high-rank coal samples from the Carboniferous coal located in the northern foreland basin of Dabie orogenic belt in the eastern China,the evolution characteristics of aromatic structures of coals of different metamorphism types and the effecting factors are studied.通过对大别造山带前陆盆地石炭纪含煤岩系高煤级煤的电子顺磁共振分析,探讨了不同变质类型煤的芳香结构演化特征及其影响因素。
6)middle-rank coal中煤级煤
1.Based on the results of isothermal adsorption experiments on 184 middle-rank coal samples under equilibrium moistures(with vitrinite reflectances of between 0.50%)煤在平衡水条件下的等温吸附实验成果,模拟了中煤级煤的朗格缪尔体积和压力与煤级的关系,建立了不同埋深(温度、压力)条件下不同煤级煤饱和吸附气量量板,探讨了压力和温度对中煤级煤吸附甲烷能力的综合效应,对比分析了中煤级煤吸附特征与低、高煤级煤的差异,提出了中煤级煤吸附气量预测的方法。
延伸阅读
煤级 煤化阶段或煤的变质阶段。"煤级"一词为D.E.怀特于1926年首先提出。煤级与以碳百分比表示的煤在从褐煤至无烟煤系列中所处位置是一致的。煤级这一术语在国际煤岩学委员会1957年出版的《国际煤岩学手册》中正式采用。煤级的确定借助于煤化作用参数(或称煤级参数),即那些在煤化过程中变化明显的物理、化学和工艺性质,如碳含量、氢含量、发热量、挥发分、水分、X射线衍射和镜质体反射率等。不同显微组分的煤化轨迹不同(如图)。因为与其他显微组分组相比,镜质组在煤中含量最丰富,杂质少,最纯净,易于剥离,并常在其他沉积岩中呈包体出现。重要的是镜质体反射率在较长的煤化阶段中其增长与煤级升高呈线性的正相关关系,受还原程度的影响也小。为了排除由于显微组分不同带来的影响,国际上一般以镜质组进行煤级研究。目前使用的显微光度计等精度高,测试数据准确,因此,镜质体反射率公认是最适宜的煤级指标。 根据镜质体最大反射率,将中国煤划分为 9个煤级(即1个成岩阶段和8个变质阶段)。9个煤级与煤的9个工业牌号大致相当(如表)。 工业牌号是根据煤层平均煤样的化学、工艺性质,如挥发分产率和粘结性等确定的。而煤层平均煤样的化学、工艺性质是因煤岩组分的变化而异,因此,煤的工业牌号不等于煤级。但在煤岩组分变化不大时,常以煤的工业牌号近似地代表煤级。 镜质体反射率作为煤级指标也有不足之处。它在低煤化阶段变化幅度小;而在高煤化阶段出现各向异性,即双反射现象。但这些不足之处目前已得到一定的补偿。由于壳质组(以孢子体为例)不仅在蓝光照射下显示较强的荧光,并随着煤化程度的增高而作有规律的变化,而且随煤级的增高,光谱峰(λmax)由短波段域(绿色)向长波段域(红色)移动,其红/绿商随之增大。从泥炭到气煤煤化阶段,孢子体荧光性的变化都比较显著而有规律,然而,如果煤级继续增高,则因荧光强度过低而难于测定,但这正好弥补了镜质体反射率在低煤化阶段作为煤级指标的不足。 在镜质体量大反射率达到6%之前,镜质体最大反射率与最小反射率(R0,min)之间基本上为线性关系。当达到6%时,R0,min开始转而减小,与R0,min显示负相关关系,双反射率值逐渐增大。因此,达6%以后的阶段,除使用镜质体最大反射率外,还以-R0,min和:R0,min为辅助煤级指标,亦可用R0,min作为辅助指标。 其他煤级指标大多只适用于煤化过程中的某一个或某几个阶段,如碳含量适用于Ⅰ~Ⅲ和Ⅶ阶段;发热量和水分适于0~Ⅲ阶段,水分还可用作Ⅶ阶段的指标;氢含量和X射线衍射强度适于Ⅶ阶段;挥发分适用于Ⅳ~Ⅵ阶段。 煤级的研究不仅用于煤的分类、煤的鉴定、找矿勘探中预测煤质,而且已广泛用于优化炼焦配煤、测定煤的碳化产物如焦炭、瓦斯和液体的产出率等,以及(石油、天然气的预测和评价等。 参考书目 武汉地质学院煤田教研室编:《煤田地质学》(上册),地质出版社,北京,1979。
