1.
The Study of Carbon Deposit in the Carbon Dioxide Reforming of Methane over Carbonaceous Catalyst
炭催化CH_4/CO_2重整过程中积炭的研究
2.
The Kinetic Study in the CH_4/CO_2 Reforming Reactions over Ni-based Catalysts;
镍基催化剂上CH_4/CO_2重整反应的动力学研究
3.
Study on Modification of Ni/BaTiO_3 Catalyst in CO_2 Reforming of CH_4;
Ni/BaTiO_3催化剂在CH_4/CO_2重整反应中的改性研究
4.
The Promotional Effect of CeO_2 on Rh-based Catalysts in CH_4/CO_2 Reforming;
CH_4/CO_2重整反应中Rh基催化剂上CeO_2的助剂作用研究
5.
Study on CH_4-CO_2 Reforming to Syngas by Plasma;
CH_4-CO_2等离子体重整制合成气的研究
6.
A Theoretical Study of the CO_2 Reforming of CH_4;
CO_2重整CH_4反应的理论研究
7.
Application of Rare-earth Additives La_2O_3 in CH_4-CO_2 Reforming Reaction
稀土助剂La_2O_3在CH_4-CO_2重整反应中的应用
8.
Research and Development Process of Carbon Dioxide reforming of Methane to Syngas in High-pressure
高压CH_4-CO_2重整制合成气研究进展
9.
Study of CH_4-CO_2 Reforming Syngas with Carbonaceous Catalyst
炭催化CH_4-CO_2重整制合成气的研究
10.
NUMERICAL SIMULATION ON CH_4/H_2O CATALYTIC REFORMING REACTION ON Ni/α-Al_2O_3 WITH CO_2/CH_4 REACTION IN A MICRO-CHAMBER
CH_4/CO_2反应对微细腔内CH_4/H_2O镍基催化重整反应的影响
11.
Mass-Loss Characteristic of Carbonaceous Catalyst in CH_4-CO_2 Reformation
CH_4-CO_2重整反应过程中炭催化剂失重特性
12.
Research Technique of Carbon Deposite in CH_4/CO_2 Reforming Reaction Process
CH_4-CO_2重整反应过程中积炭的研究方法综述
13.
CO_2 Reforming of CH_4 by Atmospheric Pressure Abnormal Glow Plasma;
大气压反常辉光放电下CO_2重整CH_4制合成气的实验研究
14.
Studies on Preparation and Catalytic Performances of Ni-Co Bimetallic Catalysts for CH_4/CO_2 Reforming to Syngas;
Ni-Co双金属催化剂的制备及其在CO_2重整CH_4反应中的催化性能研究
15.
Studies on CO_2 Reforming of Methane to Syngas over Ni-based Catalysts Modified by Rare Earth Oxide;
稀土改性Ni基催化剂上CO_2/CH_4重整制合成气的研究
16.
The Study of CH_4-CO_2 Reforming and Catalytic Characteristic of Ash & Functional Group
炭催化CH_4-CO_2重整及炭催化剂中灰分和官能团特性研究
17.
Study on Influencing Factors in Carbon Dioxide Reforming of Methane Over Nano-Ni/MgO Catalyst
纳米Ni/MgO催化剂在CO_2重整CH_4反应中影响因素的研究
18.
Emission and Consumption of CH_4、CO_2 in Coastal Wetland of Yangtze Estuary;
长江口滨岸湿地CH_4和CO_2的排放和吸收