1) cold-quenching water-gas shift reactor
[能]冷激式水煤气变换炉
2) water gas shift
水煤气变换
1.
Monte Carlo simulation of the equilibrium of the water gas shift reaction in slit pores;
狭缝孔内水煤气变换反应平衡的蒙特卡罗模拟
2.
Two polygeneration systems with or without water gas shift process are designed.
系统采用液相甲醇合成工艺,并针对该工艺可以直接使用富CO合成气的特点,根据是否包括合成气水煤气变换工艺,设计了变换系统和不变换系统。
3.
CeO 2-ZrO 2 composite oxide with different Ce/Zr ratios was prepared by co-precipitation and a series of Pt/CeO 2-ZrO 2 catalyst samples for water gas shift reaction (WGS) was prepared by impregnation of CeO 2-ZrO 2 with chloroplatinic acid solution.
用共沉淀法制备了不同Ce/Zr比的CeO2 ZrO2 复合氧化物 ,用浸渍法制备了Pt/CeO2 ZrO2 水煤气变换催化剂 ,并对该催化剂进行了活性评价 。
3) water-gas shift
水煤气变换
1.
The effect of Zr/Ce molar ratios on the activity for low-temperature CO oxidation and water-gas shift reaction was studied.
考察了催化剂在低温CO氧化和水煤气变换反应中的催化性能。
2.
The CO2 addition enhanced the reverse reaction rate of the water-gas shift and inhibited the CO2 formation rate.
由于CO2的添加,促使水煤气变换反应向逆反应方向进行,降低了催化剂表面氢物种浓度,抑制了加氢反应,低碳烃的烯/烷比有所增大,同时提高了重质烃的选择性,且随着CO2分压的增加,有机含氧化合物的生成速率呈上升的趋势。
3.
Cu/CeO_2-ZrO_2 catalysts for water-gas shift(WGS) reaction were prepared by co-precipitation method,and the influence of ZrO_2 content on the catalytic structure and properties was investigated by using N_2 physical adsorption,XRD and H_2-TPR.
采用共沉淀法制备了系列Cu/CeO2-ZrO2水煤气变换(WGS)催化剂。
4) water-gas shift reaction
水煤气变换
1.
Influence of copper loadings on the performance of Cu/CeO_2 catalysts for water-gas shift reaction;
铜含量对Cu/CeO_2水煤气变换催化剂性能的影响
2.
Preparation of a new CuO/ZnO catalyst and its application in water-gas shift reaction;
新型CuO/ZnO催化剂的制备及其在水煤气变换反应中的应用
3.
High concentration hydrogen of the producer gas could be realized through water-gas shift reaction.
生物质焦油的催化脱除 ,由一个保护床和转化反应器组成的高温催化气体净化装置完成 ;生物质气化气要实现高氢浓度的转化 ,需要通过水煤气变换反应将CO转化为H2 。
6) water gas shift reaction
水煤气变换反应
1.
The catalyst activity for the water gas shift reaction (WGSR) was tested in a differential fixed-bed reactor at atmospheric pressure.
用X射线衍射、差热热重测定、程序升温还原、N2 吸附、N2 O滴定和常压微反活性评价技术考察了沉淀温度对CuO/ZnO/Al2 O3 系催化剂及其前驱体的物相和催化水煤气变换反应活性的影响 。
2.
The activation energies of elementary steps in surface redox mechanism of water gas shift reaction over Cu(111)、Ni(111) and Pd(111) were estimated by Bond Order Conservation Morse Potential (BOC MP) empirical method.
分别采用单晶 Ni(1 1 1 )、Cu(1 1 1 )和 Pd(1 1 1 )作为水煤气变换反应的模板催化剂 ,运用键级守恒 -Morse势(BOC-MP)方法对 Ni(1 1 1 )、Cu(1 1 1 )和 Pd(1 1 1 )表面上催化的 WGS反应的 surface redox机理中的基元反应动力学参数进行了计算 。
补充资料:变换器式电压表(见变换器式电表)
变换器式电压表(见变换器式电表)
transducer type voltmeter
匕一。亡lht了。一1口一s}〕一d{(」rlyo匕}。o变换器式电压表(transdueer type voltmeter) 见变换器式电表。
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