[1] 百川资讯.2016年(第九届)中国石油焦市场形势研讨会会刊[C].宁波:百川资讯,2016:32-42. BAⅡNFO. Proc. 9th Chinese Petroleum Coke Market Situation Seminar[C]. Ningbo:BAⅡNFO,2016:32-42.
[2] 刘建锟,杨涛,蒋立敬,等. 沸腾床渣油加氢过程硫含量变化分析[J].炼油技术与工程,2015,45(3):5-8. LIU J K,YANG T,JIANG L J,et al. Analysis on variation of sulfur content in ebullated bed residue hydrotreating process[J]. Petroleum Refinery Engineering,2015,45(3):5-8.
[3] 刘建锟,杨涛,方向晨,等. 沸腾床渣油加氢与焦化组合工艺探讨[J]. 石油学报(石油加工),2015,31(3):663-667. LIU J K,YANG T,FANG X C,et al. Study on the combined process of ebullated bed residue hydroprocessing and coking[J]. Acta Petrolei Sinica(Petroleum Processing Section),2015,31(3):663-667.
[4] 张德义. 含硫原油加工技术[M].北京:中国石化出版社,2003:403. ZHANG D Y. Sour crude processing technology[M]. Beijing:Sinopec-Press,2003:221.
[5] 李春年. 渣油加工工艺[M].北京:中国石化出版社,2002. LI C N. Residue processing technology[M].Beijing:Tsinghua University Press,2002:151-158.
[6] 夏鸣,张卫东,王猛,等. 离子液体中过氧钼酸盐催化燃油深度氧化脱硫[J].化工进展,2016,35(10):3207-3211. XIA M,ZHANG W D,WANG M,et al. Deep oxidative desulfurization of fuels using peroxomolybdate as a catalyst in ionic liquids[J]. Chemical Industry and Engineering Progress,2016,35(10),3207-3211.
[7] 杨丽,张明杰. 燃料油氧化脱硫研究进展[J].化学与生物工程,2013,30(2):11-15. YANG L,ZHANG M J. Research progress on oxidative desulfurization of fuel oils[J]. Chemistry & Bioengineering,2013,30(2):11-15.
[8] 刘淑芝,郭艳芳,侯辉,等. 空气氧化燃料油脱硫技术研究进展[J].化工科技,2011,19(5):61-64. LIU S Z,GUO Y F,HOU H,et al. Recent advance in oxidative desulfurization of fuel oil with air[J]. Science & Technology in Chemical Industry,2011,19(5):61-64.
[9] 产圣,周晓龙. 原油脱硫技术的探索性研究[J].石油化工技术与经济,2014,30(2):16-20. CHAN S,ZHOU X L. Exploratory research on crude oil desulfurization technique[J]. Technology&Economics in Petrochemicals,2014,30(2):16-20
[10] SKOV E R,ENGLAND D C. The ULSD oxidative desulfurization option[J].Hydrocarbon Engineering,2007,12(5):33-38.
[11] ERIC B. Upgrading oil sands bitumen using flexds:pilot plant performance and economics[C]//American Fuel & Petrochemical Manufacturers Annual Meeting. San Antonio,TX:American Fuel & Petrochemical Manufacturers,2013:2-9.
[12] 隆建,沈本贤,刘慧,等. 减压渣油掺炼煤焦油的共焦化性能研究[J].石化技术与应用,2012,30(2):119-123. LONG J,SHEN B X,LIU H,et al. Study on the co-processing of vacuum residue and coal tar in delayed coking[J]. Petrochemical Technology & Application,2012,30(2):119-123.
[13] 闫灿灿. 渣油掺炼乙烯焦油热处理生焦反应的研究[D].青岛:中国石油大学,2009. YAN C C. Study on thermal coke formation of residue blended with ethylene tar[D]. Qingdao:University of Petroleum,China,2009.
[14] 马文斌. 几种石油系重质原料焦炭化性能的对比分析[J].石油炼制与化工,2014,45(9):30-35. MA W B. Comparison of coking properties of heavy petroleum raw materials[J].Petroleum Processing and Petrochemicals,2014,45(9):30-35.
[15] 胡尧良. 延迟焦化加工FCC油浆的经济和技术分析[J].炼油技术与工程,2006,36(3):51-59. HU R L. Techno-economic analysis for processing fccu slurry in delayed coker[J]. Petroleum Refinery Engineering,2006,36(3):51-59.
[16] 杜学贵. 掺炼催化油浆对延迟焦化装置生产的影响[J].化学工业与工程技术,2006,27(2):41-43. DU X G. Effect of blending FCC slurry to the delayed coking production[J].Journal of Chemical Industry & Engineering,2006,27(2):41-43.
[17] 贾中辉,刘刚. 掺炼催化油浆对延迟焦化装置的影响[J].石化技术与应用,2016,31(1):54-57. JIA Z H,LIU G. Effect of blengding catalytic slurry oil on delayed coking unit[J]. Petrochemical Technology & Application,2016,31(1):54-57.
[18] 龚朝兵,花飞,徐振领,等. 延迟焦化装置掺炼催化油浆的影响分析与长周期运行探讨[J].中外能源,2016,21(1):74-79. GONG C B,HUA F,XU Z L,et al. An analysis of the effect of blending FCC slurry in feedstock for delayed coking unit and a discussion on long-period operation of the unit[J].Sino-Global Energy,2016,21(1):74-79.
[19] 张崇伟,王笑梅,田慧,等.灵活焦化与延迟焦化介绍及对比[J].中外能源,2013,18(2):68-72. ZHANG C W,WANG X M,TIAN H,et al. Introduction and comparison of flexi coking and delayed coking[J].Sino-Global Energy,2013,18(2):68-72.
[20] 周小淞. 煅后石油焦脱硫与脱硫对煅后石油焦特性的影响[J].黑龙江科技信息,2015(24):78. ZHOU X S. The calcined petroleum coke desulfurization and effect of desulfurization on characteristics of calcined petroleum coke[J].Heilongjiang Science and Technology Information,2015(24):78.
[21] CHEN Zhengjie,MA Wenhui,WEI Kuixian,et al. Detailed vacuum-assisted desulfurization of high-sulfur petroleum coke[J].Separation and Purification Technology,2017,175(24):115-121.
[22] 董志鹏.石油焦燃烧制取水煤气及CO气的研究[D].南京:南京工业大学,2003. DONG Z P. Study of combustion of petroleum coke to produce water gas and carbon monoxide[D]. Nanjing:Nanjing Tech University,2003.
[23] 罗艳托.石油焦市场发展趋势概述[J].石油规划设计,2008,19(6):10-12. LUO Y T. Trends of petroleum coke market development[J].Petroleum Planning & Engineering,2008,19(6):10-12.
[24] MARIA A. Heavy oil upgrading[C]//American Fuel & Petrochemical Manufacturers Annual Meeting. San Diego,CA:American Fuel & Petrochemical Manufacturers,2012:7-16.
[25] 程一步.石化企业高硫石油焦利用途径探讨[J].炼油设计,1999,29(8):55-60. CHENG Y B. Exploration for utilization of high sulfur petroleum cokes from petrochemical enterprises[J]. Petroleum Refinery Engineering,1999,29(8):55-60.
[26] 瞿国华. 高硫石油焦制氢在21世纪炼厂中的地位作用[EB/OL].北京:豆丁网,2015. http://www.docin.com. QU G H. Position of hydrogen production from high sulfur petroleum coke in the refinery of 21st century[EB/OL]. Beijing:DocIn.com Inc.,2015. http://www.docin.com.
[27] 瞿国华,王辅臣. 延迟焦化-石油焦制氢组合工艺技术[J].炼油技术与工程,2010,40(11):20-23. QU G H,WANG F C. Combination process of delayed coking-petroleum coke gasification for hydrogen generation[J]. Petroleum Refinery Engineering,2010,40(11):20-23.
[28] 周学双,段潍超,卢磊,等.炼化企业劣质含碳物料合理利用措施分析[J].环境保护,2014,42(6):56-58. ZHOU X S,DUAN W C,LU L,et al. Measures analysis of utilization of inferior carbonaceous materials in refineries[J].Environmental Protection,2014,42(6):56-58.
[29] 谢英奋,陈真维. 高硫石油焦用作水泥燃料的研究[J].石油炼制与化工,1999(8):20-23. XIE Y F,CHEN Z W. Study on using high-sulfur petroleum coke as cement fuel[J].Petroleum Processing and Petrochemicals,1999(8):20-23.
[30] 谢民. 浅谈加快开发我国石油焦燃料市场[J].石油化工动态,1998(6):17-21. XIE M. Elementary introduction on speeding-up china's petrol coke market development[J].Petrochemical Industry Trends,1998(6):17-21.
[31] ZHANG Huaihao,CHEN Jinfu,GUO Shaohui. Preparation of natural gas adsorbents from high-sulfur petroleum coke[J]. Fuel,2008,87(3):304-311.
[32] 孙晓龙. 万余企业停减保证胜利日空气质量,石油焦首当其冲[EB/OL].北京:卓创资讯[2015-08-19]. http://www.chem99.com/news/18768985.html. SUN X L. Millions of enterprises were stopped and reduced output to guarantee air quality on victory day; bear the brunt of the petroleum coke[EB/OL]. Beijing:Chem99.Inc.[2015-08-19]. http://www.chem99.com/news/18768985.html.
[33] 申海平,王新军,王玉章,等. 国产石油焦产量、质量及市场[J].化工技术经济,2004,22(1):11-15. SHEN H P,WANG X J,WANG Y Z,et al. Analysis on the production,market and quality of petroleum coke produced in China[J].Chemical Techno-Economics,2004,22(1):11-15.
[34] 冯娜,田原宇,刘芳,等. 石油焦后处理技术及其应用[J].石油与天然气化工,2008,37(2):134-137. FENG N,TIAN Y Y,LIU F,et al. The after-treatment technology and application of petroleum coke[J]. Chemical Engineering of Oil&Gas,2008,37(2):134-137. |