1.
Studies on Novel Processes for Efficient Hydrogen Production from Hydrocarbon Fuels over Nickel-based Reforming Catalysts;
镍催化剂上烃类燃料重整制氢新工艺过程的研究
2.
Hydrogen Source for Fuel Cell--Optimization of Ethanol Reforming for Hydrogen Production through Double-sector Fixed Bed
燃料电池氢源——双段固定床优化乙醇重整制氢
3.
Study on Catalyst for Production of Hydrogen by Steam Reforming of Methanol for Fuel Cell;
甲醇水蒸气重整制取燃料电池用氢催化剂研究
4.
Hydrogen/hydrogen-rich Syngas Production from Bio-oil Steam Reforming and Synthesis of F-T Liquid Fuels;
生物油重整制氢/富氢合成气以及费托液体燃料的合成
5.
Preparation, Characterization and Performance of Sulfur Tolerance Pt/Ce_(0.8)Gd_(0.2)O_(1.9) Catalyst for Steam Reforming of High Energy Density Hydrocarbon Fuels;
抗硫中毒液体烃燃料水蒸气重整制氢Pt/CeGdO催化剂的制备、表征和性能研究
6.
Inhibition of Hydroperoxides in an Endothermic Hydrocarbon Fuel
吸热型碳氢燃料中氢过氧化物的抑制
7.
Design of hydrogen generation systems for fuel cells by using hydrolysis of sodium borohydride
基于硼氢化钠制氢燃料电池供氢系统设计
8.
Apparatus Design and Experimental Study of Methanol Steam Catalytic Reforming for H_2 Production Using Engine Exhaust Heat
内燃机余热甲醇催化重整制氢装置设计及实验研究
9.
Modelling and Control of Direct Internal Reforming Molten Carbonate Fuel Cell;
直接内重整熔融碳酸盐燃料电池的建模与控制
10.
The fuel will be made from two heavy forms of hydrogen, called deuterium and tritium.
燃料由氢的两种较重的同位素制造,分别称为氘和氚。
11.
Combustion Characteristics Research on Ethanol Reforming Fuel Engine
乙醇重整燃料发动机的燃烧特性研究
12.
Study on the Characteristics of Hydrogen-rich Gas Production from Microfuel of Biomass Catalytic Pyrolysis and Gasification;
生物质微米燃料催化气化制富氢燃气研究
13.
The result indicated that the hydrotreated delayed coking naphtha was qualified for reforming feedstock, its blending ratio could be up to 35%.
结果表明,焦化汽油加氢精制后可作重整原料,且掺炼比可达35%。
14.
Study on Modeling and Control of a Direct Internal Reforming Solid Oxide Fuel Cell System
直接内部重整固体氧化物燃料电池系统的建模与控制研究
15.
Simulation Research on Reformer of Ethanol Reforming Engine
乙醇重整燃料发动机的重整器性能仿真研究
16.
Effect of Reformed-ethanol Fuel on the Volumetric Efficiency in I.C.Engines
乙醇重整燃料对内燃机充气效率的影响
17.
Performance of proton exchange membrane fuel cell stack with reformate fuel
以重整气为燃料气的PEMFC电堆性能
18.
Study on the In-situ Hydrogenation of Maleic Anhydride to Tetrahydrofuran Using Solvent Hydrogen from Ethanol Reforming
乙醇重整制氢对马来酸酐原位加氢制备四氢呋喃的研究