测量了天然丝光沸石的电导参数。
The conductivity parameters of natural mordenite were measured.
研究了天然斜发沸石的品位与饲用价值的关系。
The relationship between the grade and the feeding value of natural clinoptilolite was studied.
从而探索了沸石的酸性和其催化性质之间的联系。
Thereby, the correlation between acidic properties and catalytic properties of zeolites has been explored.
为了考察改性沸石的除磷性能,进行了静态试验。
Static experiments was carried out in order to examine phosphorus ability of modified zeolite.
阐述了浊沸石的成岩作用特征,及其对储层的影响。
The features of diagenesis and its effect on reservoirs are introduced.
试验同时探讨了沸石最佳投加量和沸石的作用机理。
The optimum addition and action mechanism of zeolite was also discussed.
对L型沸石的合成、表征和应用研究进展进行了综述。
Summarizes the synthesis characterization and application of L-type zeolite.
沸石的独特结构使大掺量沸石粉的混凝土强度增幅较大。
The special structure of zeolite increase the strength of concrete with a large amount of zeolite after one year.
天然沸石的焙烧活化产物可作为冰箱内的除臭剂加以使用。
The roasted product of natural zeolite can be used as a deodorizer of refrigerator.
这些处理过程有效地调节了丝光沸石的表面酸性和孔结构。
These treatments adjust effectively the surface acidity and pore structure of mordenite.
用正交试验探讨硫酸铝废渣生产4A沸石的最适宜工艺条件。
The optimal conditions in production of 4A zeolite were determined by orthogonal experiments from aluminium sulfate dross.
结果表明,稀土阳离子交换改性能改善丝光沸石的催化性能。
The experimental results show that various modified mordenites have better catalytic properties compared to the unmodified mordenites.
用程序升温脱附技术,在接近反应条件下研究沸石的表面酸性。
Studies of the surface acidity of zeolites have been made under conditions close to the reaction conditions by TPD technique.
展望了一些新型沸石的应用前景和可能,探讨了沸石形成机理。
The potential applications, future trends of novel zeolite, and crystallization mechanisms of zeolite were evaluted.
分析了靖安油田上三叠系延长统浊沸石的形成条件及形成机理。
Formation factors and mechanism of the laumontite in upper Triassic Yanchang group of Jingan oilfield are analyzed.
研究了粉煤灰、低钙石与沸石的优化组合对水泥物理性能的影响。
The effect of optimum grouping of fly ash, low calcium stone and zeolite on cement physical property in studied.
在水溶液中用焙烧过的煤系高岭土进行了4A沸石的合成试验。
An experimental synthesis of 4a zeolite is carried out by use of the coal series kaolin roasted in the aqueous solution.
水处理、气体分离与净化、土壤改良是粉煤灰沸石的潜在应用领域。
Water treatment, gas separation and purification, and soil improvement are the potential application fields.
确定以酸处理红辉沸石为原料合成P型沸石的工艺流程和技术参数。
The best technical process and parameters in taking acid treated stellerite as raw material to synthesize zeolite P are confirmed.
型沸石的晶粒数量、晶体形态和晶粒大小主要受反应时间长短的影响。
The amount, size and shape of X-zeolite crystals are influenced by the reaction time in hydrothermal system.
还用负离子配位多面体生长基元理论模型分析解释了钠沸石的合成机理。
The forming mechanism of natrolite has been illustrated by electronegative ion polyhedron of coordination growths unit theoretical model.
利用特种水泥(asc)和沸石的混合物研究固化放射性废树脂的行为。
The solidification of simulated spent radioactive resins is investigated using ASC cement and zeolite blends.
通过实验室型和工业型试验,研究了湿式搅拌磨细磨天然沸石的工艺技术。
Through laboratory test and commercial test, the processing technology of ultrafine grinding of natural zeolite is investigated.
但是,磷改性并未破坏斜发沸石的基本骨架结构,仍属于斜发沸石单斜晶系。
But the basic framework structure of clinoptilolites was not destroyed by the phosphorus modification, still maintaining the monoclinic system.
利用多元线性回归方程对七种结构的高硅沸石的全硅骨架晶格能进行了预测。
The lattice energies of seven types of high silica zeolite structures have been predicted.
XRD分析表明:碱活化条件将直接影响沸石的晶型、晶粒尺寸和相对含量。
XRD analysis shows that the type, granularity and relative content of synthetic zeolite were affected by these factors.
此外,因为合成条件的局限和异质晶体的原因,关于磁性X型沸石的报道尚属首例。
In addition, Reports about magnetic X zeolites have not been previously reported because of the hard synthesis condition and foreign crystals.
作为微孔沸石的造孔剂,活性炭粉略优于木炭粉,但二者的效果均比木屑好得多。
As additive forming pores, activate carbon powder is a little better than charcoal powder, but the effect of both is much better than sawdust.
砂岩中孔隙以次生粒间溶孔为主,发育程度与岩性和次生浊沸石的选择性溶蚀有关。
The secondary porosity develop in sandstone. It is controlled by the lithology and the selective dissolution of laumonite.
砂岩中孔隙以次生粒间溶孔为主,发育程度与岩性和次生浊沸石的选择性溶蚀有关。
The secondary porosity develop in sandstone. It is controlled by the lithology and the selective dissolution of laumonite.
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