1)  methane reforming with carbon dioxide
甲烷二氧化碳重整反应
2)  Methane reforming with carbon dioxide
甲烷-二氧化碳重整反应
3)  methane
甲烷
1.
Monte Carlo simulation of single-and binary-component adsorption of methane and ethane in silicalite-1;
甲烷、乙烷及其共混物在silicalite-1中吸附的蒙特卡罗模拟
2.
Progress of catalytic conversion of methane to syngas in the presence of oxygen;
甲烷临氧催化转化制合成气研究进展
3.
Temperature profiles of the methane-coal dust hybrid flame;
甲烷—煤尘复合火焰的传播与温度特征
4)  CH_4
甲烷
1.
Effect of moisture and temperature to CH_4 adsorption of coal;
水分及温度对煤吸附甲烷的影响
2.
The synthesis of carbon nanotubes by the catalytic decomposition of CH_4 on a Ni-La-Mg catalyst;
Ni-La-Mg上催化裂解甲烷生成碳纳米管的研究
3.
Selective Conversion of CH_4 and CO_2 to C_2 Hydrocarbons over Mn-CaO CatalystsI. Study on the Catalytic Performance;
Mn-CaO催化剂上甲烷二氧化碳共活化制C_2烃研究Ⅰ.反应性能的研究
5)  CH4
甲烷
1.
Effects of Different Long-Term Fertilization on Emission of CH4 and N2O from Paddy Soil;
长期不同施肥类型对稻田甲烷和氧化亚氮排放速率的影响
2.
High-order Stimulated Raman Scattering in CH4-Pumped by a Ruby Laser;
红宝石激光泵浦甲烷的高阶受激喇曼散射
6)  CH 4
甲烷
1.
Using Co-SZM-5 catalyst prepared by ion exchanging method, under oxygen existing conditions, the influence of high voltage pulse discharging plasma that join in the reaction of selective reduction of NO x by CH 4 on the activation of Co-SZM-5 is investigated.
采用离子交换法制备Co SZM 5催化剂 ,研究了有氧条件下 ,在甲烷选择还原NOx 的反应中 ,高压脉冲放电等离子体的加入对Co SZM 5活性的影响。
2.
It shows that the catalytical activity of containing Ca catalyst increases,ignition temperature decreases,coversion rate of CH 4 and selectivity of CO increase.
采用微型固定床流动反应装置研究了在La2 O3 NiO/γ Al2 O3 催化剂上添加CaO对甲烷部分氧化制合成气的影响 。
3.
A pot culture experiment of rice in greenhouse was carried out to investigate the diurnal variations of CH 4 fluxes,soil temperatures and soil Eh during rice growing period with different treatments applied in the former winter cropping season.
通过温室盆栽试验,研究了不同冬作处理时后茬水稻生长期甲烷排放通量及土壤温度、土壤Eh的日变化规律。
参考词条
补充资料:氨基氰与二氧化碳、环氧乙烷和1-十八胺的反应产物
CAS:70693-20-8

分子式:C18H39N·C2H4O·CH2N2·CO2

中文名称:氨基氰与二氧化碳、环氧乙烷和1-十八胺的反应产物

英文名称:Cyanamide, reaction products with carbon dioxide, ethylene oxide and 1-octadecanamine

Octadecanamine, carbon dioxide, cyanamide, ethylene oxide reaction product
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