Electrolysis of water, catalytic decomposition of hydrocarbons?
电解水,催化分解碳氢化合物?
Carbon nanotubes have been produced by catalytic decomposition of acetylene on iron nanoparticles.
通过乙炔气体在纳米铁颗粒上的催化热解制备了纳米碳管。
This invention provides a petroleum hydrocarbon catalytic decomposition accelerant and its application.
本发明提供了一种石油烃催化裂解催化剂及其应用。
An improved calculation pattern and experiment equipment of catalytic decomposition of hydrogen peroxide.
改进了过氧化氢催化分解实验的实验装置。
Burn coal to make it, catalytic decomposition of methane, you get the hydrogen, where does the carbon go?
通过烧煤得到,催化分解甲烷,可以得到氢,碳去哪儿了?
Thermal control of monopropellant catalytic decomposition hydrazine engines in important portion of space propulsive system.
单组元肼分解发动机的热控制与热分析是空间推进系统重要组成部分。
The feasibility of simultaneous hydrogen and carbon nanofibers production from the catalytic decomposition of methane was discussed.
对甲烷催化裂解制氢和生产碳纳米纤维两个过程耦合的可能性进行了研究。
Carbon nanotubes (CNTs) manufactured in a nano agglomerated fluidized bed by catalytic decomposition method usually group into agglomerates.
纳米聚团床催化裂解法制得的碳纳米管均以团聚体形式存在。
The satisfying results were also obtained in the reactions for catalytic decomposition of ammonia, water-gas shift and nitrate removal from wate…
在氨催化分解、水煤气转化、除去水中硝酸盐的反应中使用钯膜也得到了令人满意的效果。
The binder could be quickly removed by catalytic decomposition using HNO_3 gas as catalyst, and debound part has good shape retention and no obvious defects.
在以HNO_3为催化剂进行催化脱脂时脱脂速度快,脱脂效果好,脱脂坯维形能力强。
This has certified that the method of sealing-off Catalytic decomposition in COD Value test has its adaptability in different lines and areas in Qiqihar district.
实验证明COD密封催化消解法在不同行业与区域的废水测定中具有很好的适用性。
In the present research, the activated carbon fiber-supported catalysts are mainly used in catalytic decomposition method and selective catalytic reduction (SCR) method.
在目前研究中,活性炭纤维基催化剂主要应用于催化分解法和选择性催化还原法(SCR)。
The electric arc method is one of the most important methods in synthesizing carbon nanotubes, in addition to laser ablation method and catalytic decomposition of hydrocarbons.
纳米碳管的制备方法主要有三种:电弧放电法、激光烧蚀法和有机物催化热解法。
However, rectilinear carbon fibers were synthesized by the catalytic decomposition of acetylene with Cu nanoparticles and Ni nanoparticles as the catalyst prepared by hydrogen-arc plasma method.
然而,利用氢电弧等离子体法制备的纳米铜和纳米镍作为催化剂,催化热解乙炔,得到的产物均是直线型碳纤维。
Decomposition of a chemical compound by reaction with water, such as the dissociation of a dissolved salt or the catalytic conversion of starch to glucose.
水解作用通过与水反应分解一种化学合成物,比如盐水的解析,或淀粉向葡萄糖的催化转变。
The preparation and catalytic performances for thermochemical decomposition reaction of H_2S to H_2 of several catalysts of iron sulfide were investigated.
用不同方法制备了几种硫化铁催化剂,研究了其对h_2s分解制取氢气反应的催化性能。
The catalytic effects of micron meter metal powders on the higher temperature decomposition of AP are less than that of nanometer metal powders.
微米级金属粉对AP高温分解反应的催化作用明显小于纳米金属粉。
Nanometer metal powders also have catalytic effects on the thermal decomposition of AP/HTPB solid propellant.
纳米金属粉对AP/HTPB推进剂的热分解同样具有一定的催化效果。
OCV varies complicatedly with the operation conditions because of the self-decomposition of H_2S, as well as because of the limit of catalytic reaction of H_2S in anode.
由于H_2S自分解影响以及受H_2S电催化反应速率的限制,温度和燃料气流速对开路电压影响较复杂。
Using DSC-Coulometric Nitrogen Oxide Detector, Time of Flight Mass Spectrometer, the authors studied the thermal decomposition characteristics of HMX and its catalytic systems.
用DSC -库仑池联用仪和飞行时间质谱仪对HMX及其催化体系的热分解进行了研究。
The research of the volatilization of the catalysts and the catalytic action of the catalysts on the thermal decomposition of AP or solid propellants are also involved.
同时,也涉及这类催化剂的挥发性和对AP及推进剂热分解的催化作用。
The present electrode had the characters of low platinum loading and high catalytic performance which was higher than counter electrodes prepared by thermal decomposition and platinum foil.
所制备的电极具有载铂量低、催化活性高的特性,比纯铂片对电极以及热解法制备的载铂对电极具有更高的活性。
The catalyst was first produced by sol-gel method and the carbon nanotubes were high yield synthesized by the catalytic chemical vapor decomposition method.
首先采用溶胶-凝胶法制备镍催化剂,在此基础上用化学气相沉积法高产率地制备了碳纳米管。
The catalyst was first produced by sol-gel method and the carbon nanotubes were high yield synthesized by the catalytic chemical vapor decomposition method.
首先采用溶胶-凝胶法制备镍催化剂,在此基础上用化学气相沉积法高产率地制备了碳纳米管。
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