1) Steam reforming of methane
甲烷水汽重整
2) Methane steam reforming
甲烷蒸汽重整
1.
In conservative process, the conversion of methane is limited by the thermodynamic equilibrium, so scientists started studying methane steam reforming in membrane reactors, caI led membrane reforming proce.
本论文通过对膜反应器中温度,压力,H_2O/CH_4比,膜种类以及Purge气体流量等因素的改变对甲烷蒸汽重整反应中CH_4转化率的影响的研究及其与非膜反应器中的对比,发现膜反应器中CH_4的转化率大大超过非膜反应器中。
2.
In the ways of methane reforming, methane steam reforming (MSR) has the advantages of low reaction temperature、high hydrogen production and low carbon monoxide concentration in the reforming products, which is a effective way to provide hydrogen source for FC.
在甲烷重整制氢方式中,甲烷蒸汽重整具有反应温度相对较低、产氢率较高和产物中一氧化碳含量低等优点,是解决燃料电池氢源的一有效途径。
3.
0,a numerical simulation was conducted on the methane steam reforming in a plate micro-reactor.
0和CFD软件,对平板微反应器中Ni催化剂涂层上的甲烷蒸汽重整制合成气进行了数值计算,并结合表面活性组分的分布分析了微通道长度、高度对蒸汽重整性能的影响。
3) methanol steam reforming
甲醇水蒸汽重整
1.
Performance Study of Hydrogen Production through Methanol Steam Reforming in the Microreactor;
微型反应器内甲醇水蒸汽重整制氢性能研究
2.
Performance study of hydrogen production by methanol steam reforming in the micro-channel reactor
甲醇水蒸汽重整微反应器性能研究
3.
In order to intensify the process of methanol steam reforming, the effect of catalytic surface distribution on this reaction was investigated.
为了强化微通道中甲醇水蒸汽重整制氢,考察了催化表面布置对该反应过程的影响。
4) steam reforming of methanol
甲醇水蒸汽重整
1.
The catalytic performances for steam reforming of methanol reaction(SRM) were investigated and the structure and surface performances of the CuO-ZnO-ZrO_2-Y_2O_3 catalyst were characterized by XRD> TPR、 BET、 TPD、 TG-DTA、 UV、 TEM and IR techniques .
以甲醇为原料制氢有三种途径:甲醇水蒸汽重整、甲醇裂解及甲醇部分氧化。
5) methane steam reforming
甲烷水蒸气重整
1.
Modeling of hydrogen production by sorption enhanced methane steam reforming reactions;
吸收增强式甲烷水蒸气重整制氢循环反应模拟
2.
Intrinsic kinetics of methane steam reforming over a Ni/α Al_2O_3 catalyst;
Ni/αAl_2O_3催化剂上甲烷水蒸气重整本征动力学
3.
The equilibrium constants of the methane steam reforming reaction system were calculated.
目前大型合成氨厂、合成甲醇厂以及制H2工艺中有相当一部分均采用甲烷水蒸气重整工艺制合成气,然后进一步合成目的产物。
补充资料:甲烷蒸汽转化法
分子式:
分子量:
CAS号:
性质:见轻质烃蒸汽转化法。
分子量:
CAS号:
性质:见轻质烃蒸汽转化法。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条