Wu Jinhu, Fang Yitian, Wang Yang, Zhang Dongke. Combined coal gasification and methane reforming for production of syngas in a fluidized-bed reactor [J]. Energy and Fuels, 2005, 19 (2): 512-516.
[2]
Ramirez-Cabrera E, Atkinson A, Chadwick D. Catalytic steam reforming of methane over Ce0.9Gd0.1O2-x [J]. Applied Catalysis B: Environmental, 2004, 47 (2): 127-131.
[3]
Richardson J T, Paripatyadar S A. Carbon dioxide reforming of methane to produce synthesis gas [J]. Applied Catalysis, 1990, 61 (1): 293-309.
[4]
He Jinbo (何金波), Fang Jianwei (房建威), Wen Guangdong (闻光东), Ma Jie (马杰), Su Baogen (苏宝根), Xing Huabin (邢华斌), Ren Qilong (任其龙). Progress on reforming of carbon dioxide and methane to syntheis gas by thermal plasma [J]. CIESC Journal (化工学报), 2013, 64 (3): 779-787.
[5]
Sun Changgeng (孙长庚), Liu Zongzhang (刘宗章), Zhang Minhua (张敏华). Progress on catalytic partial oxidation of methane to syngas [J]. Chemical Industry and Engineering (化学工业与工程), 2004, 21 (4): 276-280.
[6]
Shang Rujing (尚如静), Mu Shifang (穆仕芳), Wei Lingchao (魏灵朝), Jiang Yuanli (蒋元力), Guo Xiangyun (郭向云). Catalytic performance of Ni/Si3N4 catalyst for partial oxidation of methane [J]. CIESC Journal (化工学报), 2012, 63 (5): 1422-1428.
[7]
Steinberg M. Fossil fuel decarbonization technology for mitigating global warming [J]. International Journal of Hydrogen Energy, 1999, 24 (8): 771-777.
[8]
Monnerat B, Kiwi-Minsker L, Renken A. Hydrogen production by catalytic cracking of methane over nickel gauze under periodic reactor operation [J]. Chemical Engineering Science, 2001, 56 (2): 633-639.
[9]
Muradov N. CO2-free production of hydrogen by catalytic pyrolysis of hydrocarbon fuel [J]. Energy & Fuels, 1998, 12 (1): 41-48.
[10]
Muradov N. Hydrocarbon-based systems for CO2-free production of hydrogen//Proceeding of 13th World Hydrogen Energy Conference [C]. Beijing, China, 2000: Vol. 1.428-433.
[11]
Muradov N. Catalysis of methane decomposition over elemental carbon [J]. Catalysis Communication, 2001, 2 (3): 89-94.
[12]
Muradov N. Hydrogen via methane decomposition: an application for decarbonization of fossil fuels [J]. International Journal of Hydrogen Energy, 2001, 26 (11): 1165-1175.
[13]
Muradov N. From hydrogen to hydrogen-carbon to hydrogen economy [J]. International Journal of Hydrogen Energy, 2005, 30 (3): 225-237.
[14]
Bai Zongqing (白宗庆), Chen Haokan (陈皓侃), Li Wen (李文), Li Baoqing (李保庆). Hydrogen production from methane pyrolytic decomposition over activated carbons [J]. Journal of Fuel Chemistry and Technology (燃料化学学报), 2006, 34 (1): 66-70.
[15]
Bai Zongqing (白宗庆), Chen Haokan (陈皓侃), Li Wen (李文), Li Baoqing (李保庆). Hydrogen production by methane decomposition over activated carbon in a fluidized-bed reactor [J]. Natural Gas Chemical Industry (天然气化工), 2006, 31 (1): 1-4.
[16]
Bai Zongqing, Chen Haokan, Li Wen, Li Baoqing. Hydrogen production by methane decomposition over coal char [J]. International Journal of Hydrogen Energy, 2006, 31 (7): 899-905.
[17]
Xu Zexi (徐泽夕), Wu Jinhu (吴晋沪), Wang Yang (王洋), Zhang Dongke (张东柯). Methane cracking over lignite char [J]. Journal of Fuel Chemistry and Technology (燃料化学学报), 2009, 37 (3): 277-281.
[18]
Sun Zhiqiang, Wu Jinhu, Haghighi M, Bromly J, Ng E, Wee Huiling, Wang Yang, Zhang Dongke. Methane cracking over a bituminous coal char [J]. Energy and Fuels. 2007, 21 (3): 1601-1605.
[19]
Sun Zhiqiang, Wu Jinhu, Zhang Dongke. CO2 and H2O gasification kinetics of a coal char in the presence of methane [J]. Energy & Fules, 2008, 22 (4): 2160-2165.
[20]
Wei Ling, Tan Yisheng, Han Yizhuo, Zhao Jiantao, Wu Jinhu, Zhang Dongke. Hydrogen production by methane cracking over different coal chars [J]. Fuel, 2011, 90 (11): 3473-3479.
[21]
Zhang Yuan, Wu Jinhu, Zhang Dongke. Cracking of simulated oil refinery off-gas over a coal char, petroleum coke, and quartz [J]. Energy & Fules, 2008, 22 (2): 1142-1147.
[22]
Zhang Yuan (张元), Wu Jinhu (吴晋沪), Zhang Dongke (张东柯). Ethane cracking in coal char bed and quartz sand bed [J]. Petrochemical Technology (石油化工), 2008, 37 (8): 770-775.
[23]
Zhang Yuan (张元), Wu Jinhu (吴晋沪), Zhang Dongke (张东柯). An experimental study of the cracking of ethene over a bed of coal char or quartz [J]. Journal of Fuel Chemistry and Technology (燃料化学学报), 2009, 37 (5): 546-551.
[24]
Zhang Yuan (张元), Wu Jinhu (吴晋沪), Zhang Dongke (张东柯). A thermodynamic analysis of combined coal gasification and coal-bed methane reforming for synthesis gas production [J]. Journal of Fuel Chemistry and Technology (燃料化学学报), 2010, 38 (1): 12-16.
[25]
Teng Yun (滕云), Chen Yaoqiang (陈耀强), Deng Yurong (邓羽蓉), Gong Maochu (龚茂初). Effect of added promoters on activity and stability of Ni/α-Al2O3 in partial oxidation of methane [J]. Chemical Research and Application (化学研究与应用), 2003, 15 (1): 58-61.
