孤岛减压渣油在CO-SCW体系中催化加氢被引量：1

Catalytic Hydroconversion of Gudao Residue Using CO-Water as Hydrogen Source

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摘要对孤岛减压渣油在CO -SCW体系中加氢改质研究表明 ,利用CO与SCW发生的水 -气变换反应获得加氢所需氢源是可行的。在适宜的条件下 ,渣油在CO -SCW体系中改质可达到在H2 Heavy oil upgrading is a very important way to make reasonable use of petroleum resources.One of the heavy oil upgrading technologies is catalytic hydrocracking which can process various heavy oils and get high yield of liquid products.However,the use of expensive molecular hydrogen renders the process cost high.The catalytic hydroconversion of Gudao residue using hydrogen from watergas shift reaction was investigated.The experimental results show that catalytic hydroconversion of Gudao residue using CO-water as hydrogen source is an effective heavy oil upgrading technology.Under proper reaction conditions,the hydroconversion of residue using CO-water is as effective as that using H 2-water.

作者程健刘国祥潘鹏罗运华阕国和

机构地区石油大学重油加工国家实验室

出处《石油化工》 EI CAS CSCD 北大核心 2000年第6期420-424,共5页 Petrochemical Technology

关键词减压渣油 CO-SCW体系催化加氢改质 residue hydroconversion reaction supercritical water

分类号 TE624.43 [石油与天然气工程—油气加工工程]

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1Batchelder R F，Ind Eng Chem Process Des Develop，1979年，18卷，3期，594页
2Fu Y C，Ind Eng Chem Process Des Develop，1976年，15卷，2期，392页

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1樊丽华,马沛生,梁英华.聚苯乙烯废塑料的化学回收[J].石油化工,2004,33(12):1198-1203. 被引量：16
2丁勇,赵立群,程振民,袁佩青,袁渭康.减压渣油在超临界水中的轻质化[J].化学反应工程与工艺,2005,21(5):463-467. 被引量：9
3Moriya T, Enomoto H. Characteristics of Polyethylene Cracking in Supercritical Water Compared to Thermal Cracking. Polym Degra Stab,1999,65(3):373-386
4Savage P E, Gopalan S, Mizan T I, et al. Reaction at Supercritical Conditions: Applications and Fundamentals. AlChE J, 1995,41(7):1 723-1 778
5Yoshida T, Oshima Y, Matsumura y. Gasification of Biomass Model Compounds and Real Biomass in Supercritical Water.Biomass Bioenergy,2004,26(1):71-78
6Shibasaki Y, Kamimori T, Kadokawa J, et al. Decomposition Reactions of Plastic Model Compounds in Sub-and Supercritical Water.Polym Degra Stab,2004,83(3):481-485
7Paspek S C, Klein M T. Shale Oil Upgrading in Supercritical Water Solutions. Fuel Sci Technol Int, 1990,8(6):673-687
8Jackson K J, Burnham A, Braun R, et al. Temperature and Pressure Dependence of n-Hexadecane Cracking. Org Geochem, 1995,23(10):941-953
9Watanabe M, Hirakoso H, Sawamoto S, et al. Polyethylene Conversion in Supercritical Water. J Supercritical Fluids, 1998,13(3):247-252
10Park K C, lhm S K. Comparison of Pt/Zeolite Catalysts for n-Hexadecane Hydroisomerization. Appl Catal ,A ,2000,203 (2):201-209

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1耿昌婉.低压甲醇合成废气的处理[J].天然气化工—C1化学与化工,1989,14(2):49-49.
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3日本开发沥青生产轻质油系统[J].宁夏石油化工,2005,24(2):74-74.
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孤岛减压渣油在CO-SCW体系中催化加氢被引量：1