1) dimethyl ether reforming
二甲醚重整
1.
The research progress in dimethyl ether reforming technologies for hydrogen production, including catalysts and deactivation mechanismes, was sumarried and reviewed.
二甲醚重整对生产燃料电池用途的富氢原料气有重要意义。
3) dimethyl ether(DME)
二甲醚
1.
Investigation of Direct Injection Diesel Engine Fuelled with both Low Proportion Dimethyl Ether(DME) and High Proportion Diesel;
直喷柴油机掺烧低比例二甲醚(DME)和高比例柴油的试验研究
2.
In dimethyl ether(DME)/air premixed flat-flame,the influences of fuel/air flow rate and fuel equivalence ratio on forming formaldehyde and its emission characteristics were investigated experimentally.
针对二甲醚平面预混火焰,实验研究了燃料当量比和燃料流量对燃烧过程中甲醛产生和排放特性的影响。
3.
Lubricity evaluation method of dimethyl ether(DME) fuel was investigated by correlation analysis on the basis of experiments.
在试验的基础上,采用相关分析法研究了车用二甲醚(DME)燃料润滑性能的评定方法。
4) dimethyl ether (DME)
二甲醚
1.
Investigation and Discussion on Development of Dimethyl Ether (DME);
关于发展二甲醚(DME)燃料的探讨
2.
To evaluate the fuel production and the hydrogen production, several production systems of dimethyl ether (DME) and hydrogen manufactured by reactions of syngas made from coal and natural gas were analyzed with the energy efficiency and the equivalent energy consumption for cogeneration of the systems compared.
为了考查其中的制燃料和制氢两项技术,选取了由煤和天然气生产合成气进而生产二甲醚和氢能的几种有代表性的路线进行了系统分析。
3.
engine was modified to a dimethyl ether (DME) homogenous charge compression ignition (HCCI) combustion.
在一台2-135柴油机上实现了纯二甲醚(DME)的均质充量压燃(HCCI)的燃烧方式。
5) dimethyl ether
二甲醚
1.
Sintering deactivation and regeneration of hybrid catalysts in one-step synthesis of dimethyl ether from syngas;
一步合成二甲醚催化剂烧结失活和原位再生的研究
2.
Catalytic oxidation of dimethyl ether to downstream products (Ⅰ) Over modified HZSM-5 zeolite catalysts;
二甲醚催化氧化制下游化学品(Ⅰ) HZSM-5催化氧化制碳氢化合物
3.
Catalytic oxidation of dimethyl ether to downstream products (Ⅱ) Over V or Mn modified SnO_2/MgO catalysts;
二甲醚催化氧化制下游化学品(Ⅱ) V/Mn改性的SnO_2/MgO催化氧化制碳氢化合物
6) DME
二甲醚
1.
Study on the Preparation of DME Combustion Catalyst LaMAl_(11)O_(19-δ) with Reverse Microemulsion Method;
反相微乳法制备二甲醚燃烧催化剂LaMAl_(11)O_(19-δ)的研究
2.
Hydrocarbon Preparation from Catalytic Oxidation of DME on SnO_2/CaO Catalyst;
二甲醚在SnO_2/CaO催化剂上催化氧化制备碳氢化合物
3.
EFFECT OF THE THIRD ADDITIVES ON THE PERFORMANCE OF SYNGAS TO DME ON CuO-ZnO/HZSM-5 CATALYSTS;
第三组分修饰的CuO-ZnO/HZSM-5对合成气制二甲醚催化性能的影响
补充资料:重整
分子式:
CAS号:
性质:直馏汽油、粗汽油、煤气以及其他烃类的一种加工过程。直馏汽油、粗汽油等馏分的重整,可使低辛烷值的原料油经轻度裂化或催化作用而变为高辛烷值的汽油或芳香烃。煤气的重整。可使高热值的烃类经裂化而变为低热值的烃类,以适应具体的要求。其他烃类的重整,主要指脱烷基化和重烷基化的联合过程,可以制得所需要的芳香烃等。根据加工过程的条件,重整有热重整和催化重整两类。
CAS号:
性质:直馏汽油、粗汽油、煤气以及其他烃类的一种加工过程。直馏汽油、粗汽油等馏分的重整,可使低辛烷值的原料油经轻度裂化或催化作用而变为高辛烷值的汽油或芳香烃。煤气的重整。可使高热值的烃类经裂化而变为低热值的烃类,以适应具体的要求。其他烃类的重整,主要指脱烷基化和重烷基化的联合过程,可以制得所需要的芳香烃等。根据加工过程的条件,重整有热重整和催化重整两类。
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