石油化工设计 ›› 2022, Vol. 39 ›› Issue (4): 48-52.doi: 10.3969 /j.issn.1005 -8168.2022.04.011

• 配管技术 • 上一篇    

新型复合绝热保温材料在高温管道上的应用

厉志刚1,郜建松2,肖建立3   

  1. 1.中国石油化工股份有限公司荆门分公司,湖北 荆门 448002;2.中石化炼化工程(集团) 股份有限公司洛阳技术研发中心,河南 洛阳 471003;3.湖北中嘉新材料有限公司,湖北 荆门 448002
  • 收稿日期:2021-11-05 接受日期:2021-11-05 出版日期:2022-11-25 发布日期:2022-11-17
  • 通讯作者: 厉志刚,lizg.jmsh@sinopec.com E-mail:lizg.jmsh@sinopec.com
  • 作者简介:厉志刚,男,1997年毕业于华中理工大学化工机械专业,高级工程师,长期从事保温专业管理工作。联系电话:0724-2274979;E-mail: lizg.jmsh@sinopec.com 基金项目:高性能纳米材料管道保温工业应用研究(218024-10)

Application of New Composite Insulation Material in High Temperature Pipelines

Li Zhigang1, Gao Jiansong2, Xiao Jianli3   

  1. 1. SINOPEC Jingmen Company, Jingmen, Hubei, 448002; 2. Luoyang R & D Center of Technology, SINOPEC Engineering (GROUP) Co., LTD., Luoyang, Henan, 471003; 3. Hubei Zhongjia New Material Co., Ltd., Jingmen, Hubei, 448002
  • Received:2021-11-05 Accepted:2021-11-05 Online:2022-11-25 Published:2022-11-17
  • Contact: Li Zhigang,lizg.jmsh@sinopec.com E-mail:lizg.jmsh@sinopec.com

摘要: 针对目前在石化生产装置中高温管道保温结构普遍存在的散热损失大、保温结构破损严重的现状,采用新型纳米陶纤绝热材料与高密度岩棉管复合保温结构,替代目前广泛使用的硅酸铝纤维棉、复合硅酸盐、硅酸钙卷材保温结构。由于纳米陶纤绝热材料导热系数极低,其与高密度岩棉管复合后的整体保温结构又兼具极高的强度,大幅降低了高温管道保温后的散热损失,显著延长了高温管道保温结构的使用寿命

关键词: 保温, 保温材料, 纳米复合结构, 节能减排, 经济效益, 社会效益

Abstract: In view of the problems in the thermal insulation structure of high-temperature pipelines in petrochemical units such as large heat dissipation loss and seriously damaged thermal insulation structure, a new composite thermal insulation structure of nano ceramic fiber thermal insulation material and high-density rock wool pipe is adopted to replace the widely used thermal insulation structures of aluminum silicate fiber cotton, composite silicate and calcium silicate coiled materials. The integral insulation structure, which is characterized by the extremely low thermal conductivity of nano ceramic fiber thermal insulation material and the high strength of high-density rock wool pipe, greatly reduces the heat dissipation loss of high-temperature pipelines and significantly prolongs the service life of insulation structure for high-temperature pipelines.

Key words: insulation, insulation material, nano composite structure, energy-saving and emission and emission reduction, economic benefit, social benefit