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五、查阅文献要求及主要的参考文献:
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[3]Liang Changhai, Li Zhonglai, Qiu Jishan, Li Can.Graphitic nanofiaments as novel support of Ru-Ba catalysts for ammonia synthesis. J. Cata1. , 2002, 211:278-282.
[4]Aika K , Kawahara T , Murata S , Onishi T . Promote effect
of alkali meta1 oxide and alkali earth meta1 oxides on active
carbon —supported ruthenium catalyst for ammonia synthesis.
Bul1. Chem . Soc. Jp n ., 199O,63(4) :122 1-1225.
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Ru catalyst for ammonia synthesis. App1. Cata1. A :
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[6]Kowalczyk Z, Jodzis, Sentek J. Studies on kinetics of ammonia synthesis over ruthenium catalyst supported on active carbon . App1. Cata1.A : General,1996,138(1):83-91.
[7]郑晓玲,魏可镁.第二代氨合成催化体系—— 钌系氨合成催化剂及其工业应 用.化学进展,2001,13(6):472-4 8 1 .
柴海芳,韩文锋,朱虹,等.氯对钌基氨合成催化剂的影响. 化学进展,2006,18(10):1262-1270.
[8]朱虹,韩文峰 ,柴海芳,等. Ru基氨合成催化剂石墨化炭载体的制备.催化学报.2007,28(3):196-200.
[9]杨振威,郭伟明,林敬东,等.具有Ru-M (M=Fe,Co,Ni,Mo)双金属活性中心的负载型合成催化剂.催化学报,2006 ,27(5):378-381.
[10]郭伟明,杨振威,林敬东,等. Mg-Al-碱土金属复合氧化物为载体的钌基氨合成催化剂制备及性质研究.化学研究与应用,2006,18(9):1106-1109.
[11]王榕,林建新,俞秀金,等. 氨合成铁、钌催化剂联用工艺.化工学报 ,2007.58(1):95-102.
[12]王丽华, 林贻基,江剑,等.载体和钌含量对合成氨催化活性的影响.厦门大学学报 (自然科学版 ) ,1999,38:148-151.
[13]王晓南,朱虹,夏伟琴,等. 活性炭负载钌基氨合成催化剂的制备和催化活性. 催化学报,2003,21(3):266-278.
[14]张新波,李小年,霍超,等.氧化铝负载钌基氨合成催化剂的制备条件及载体改性.2002,23(3):207-213.
[15]郑晓玲,傅武俊,俞裕斌,等. 活性炭载体的微波处理对氨合成催化剂 Ru/C催化性能的影响. 催化学报,2002,23 (6):562-566.
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