This simulation model and method are tested by a typical surface catalysis reaction i. e. CO surface-catalytic oxidation. The simulative results are in agreement with those of the experiments.
通过表面催化样板反应“CO表面催化氧化”检验了该模拟模型和方法,与实验结果吻合。
Its application in various fields such as modern separation technology, biomedicine, catalysis, papermaking, surface modification and treatment of wastewater is reviewed.
综述了聚乙烯胺在现代分离技术、生物医学、催化以及造纸、表面改性、污水处理等领域的应用。
The pore structure and surface functional group of activated carbon are significantly changed by microwave radiation. The activation energy is reduced as a result of induced catalysis.
微波照射活性炭后,其孔隙结构和表面官能团发生明显变化,同时存在诱导催化,可降低反应活化能。
There are prominent differences between traditional surface science underUHV conditions and catalysis in the real world, focusing on the so-called"materials gap"and "pressure gap".
在真空表面科学研究与实际催化反应体系之间存在着显著的差异,具体表现在所谓的“物质鸿沟”和“压力鸿沟”上面。
Porous materials have potential applications in catalysis, adsorption, separation, ion exchange and chemical sensing fields because of their unique porous structures and surface performances.
多孔材料以其独特的孔结构和表面性能,在大分子催化、吸附与分离、纳米材料组装及生物化学等众多领域具有广泛的应用前景。
Worm_like mesoporous metal oxides with thermal stability, large surface areas and semicrystalline frameworks have a prospect for using in catalysis, sensors, adsorption and separation, etc.
热稳定性好、比表面积高、孔壁晶化较好的蜂窝状金属氧化物介孔材料在催化、吸附与分离、传感器等领域有着潜在的应用价值。
The adsorption and catalysis of the surface of modified filter media are the primary mechanisms of phenol removal.
改性滤料表面的吸附和催化作用是除酚的主要机理。
Based upon the achievements of modern kinetics, spectroscopy as well as surface science studies, understanding and exploring the catalysis have been going at the molecular level.
在现代动力学、谱学和表面科学成就的基础上,对催化的理解和探索已进入分子水平。
Novel catalytic performance and selectivity from nano-size zeolites with high exterior surface area and shorter pore pathway have aroused great interest in catalysis field.
纳米分子筛因具有高的外表面积和短的孔道结构而显示了独特的催化活性和选择性,近年来已成为催化界的研究热点。
Its main thrust is to explore on molecular (atomic) scale such macroscopic gas-surface processes as catalysis, corrosion, adsorption, desorption and energy accomodation.
它的主要突破在于从分子(原子)量度来揭示诸如催化、腐蚀、吸附,脱附和能量适应等宏观的气体—表面作用过程。
At present, the field of application in catalysis Key issues from the zirconium hydroxide gel to the surface during heat treatment reduced the loss and stability.
而目前,在催化领域中应用的关健问题是从氢氧化锆凝胶到的热处理过程中表面积的损失和稳定性的降低。
Because of its high surface area, basal spacing and pore volume, it has good capability of adsorption and catalysis.
由于大的比表面积、层间距以及孔容积,而具有良好的吸附与催化性能。
The invention has the advantages of preparing simplicity, low cost, high stability, good controllability of surface coverage and so on, so can be used in domains such as adsorption and catalysis.
本发明的基于聚合型囊泡模板制备的空心纳米金球具有制备简单、成本低、稳定性高、表面包覆率可控性好等优点,可广泛应用于吸附、催化等领域。
MCM-41 molecular sieves with the features of very high BET specific surface area and uniform mesoporous structure may be applied in the fields of catalysis, sorption, separation and sensor techniques.
MCM 4 1中孔分子筛具有极高的BET比表面积、均一的中孔结构等特点,可广泛用于催化、吸附脱附、分离和传感技术等领域。
The study shows that there exist remarkable Ti catalysis effects, which can increase the depth of a nitrided layer, enhance its surface hardening and nitrocarburize rapidly.
研究结果表明;钛催渗具有明显的催渗效果,可使氮、碳原子的渗入速度显著加快,提高渗层深度和渗层硬度。
Because of the large surface area and uniform pore size, the inorganic mesoporous material becomes the hot topic of research in catalysis.
无机介孔材料因其具有大的比表面积、有序的孔道结构以及可调变的孔径,目前已成为催化领域研究热点之一。
Because of the large surface area and uniform pore size, the inorganic mesoporous material becomes the hot topic of research in catalysis.
无机介孔材料因其具有大的比表面积、有序的孔道结构以及可调变的孔径,目前已成为催化领域研究热点之一。
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