催化裂化工程技术及拓展  

CATALYTIC CRACKING ENGINEERING TECHNOLOGY AND ITS EXPANSION

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作  者:刘昱 Liu Yu(SINOPEC Guangzhou Engineering Co.,Ltd.,Guangzhou 510620)

机构地区:[1]中石化洛阳(广州)工程有限公司,广州510620

出  处:《石油炼制与化工》2025年第5期45-49,共5页Petroleum Processing and Petrochemicals

摘  要:回顾了中石化洛阳(广州)工程有限公司60年催化裂化工程技术伴随着催化裂化技术的发展而不断发展的历程。以时间为轴线,催化裂化工程技术的发展经历了初创奠基、技术突破和装置大型化等阶段。经过几代催化人的努力,催化裂化工程技术形成了技术集群,开发出适应不同原料的11种反应-再生器型式及完整的工程化创新体系,为催化裂化工程技术的拓展提供了坚实的技术保障。此外,成功完成了甲醇制烯烃(DMTO)工业化成套技术的开发,形成了具有国际领先水平的甲醇制烯烃成套工程技术,促进了我国新兴煤制烯烃战略产业的快速形成与发展,对我国实施石油替代战略、保障能源安全具有重要意义。This paper reviews the 60-year development of fluid catalytic cracking engineering technology at SINOPEC Guangzhou Engineering Co.,Ltd.,which has evolved alongside advancements in fluid catalytic cracking technology.The development of fluid catalytic cracking engineering technology can be chronologically divided into stages of initial foundation,technological breakthroughs,and large-scale plant.Through the efforts of generations of catalytic experts,a technology cluster has been established,featuring 11 reaction-regeneration configurations adaptable to diverse feedstocks and a comprehensive engineering innovation system.These achievements provide robust technical support for the expansion of fluid catalytic cracking engineering technology.The company has successfully developed the industrial-scale methanol to olefins(DMTO)complete technology,forming a world-leading DMTO engineering system.This breakthrough has accelerated the rapid emergence and growth of coal-to-olefins strategic industry in China,playing a vital role in advancing the oil substitution strategy and safeguarding energy security of China.

关 键 词:催化裂化 工程技术 反应-再生系统 甲醇制烯烃 

分 类 号:TE624[石油与天然气工程—油气加工工程]

 

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