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浅谈掺氢天然气管道输送发展现状 被引量:4

Development status of hydrogen doped natural gas pipeline transportation
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摘要 可再生能源发电制氢作为解决弃风弃光问题的有效途径之一,将制得氢气掺入天然气中,利用在役管网进行输送,将是实现氢气大规模、长距离输送的最有效方式。本文主要对目前掺氢天然气管道输送发展中存在的问题进行探究并提出若干建议。 Hydrogen production from renewable energy power generation is one of the effective ways to solve the problem of wind and light abandonment. The most effective way to realize large-scale and long-distance transmission of hydrogen is to mix the produced hydrogen into natural gas and transport it through the in-service pipe network. This paper mainly explores the problems existing in the development of hydrogen doped natural gas pipeline transportation,and puts forward some suggestions.
作者 郭亚军 Guo Yajun(Shanxi Natural Gas Co.,Ltd.,Shanxi Taiyuan 030000)
机构地区 山西天然气有限公司
出处 《石化技术》 CAS 2021年第12期98-99,共2页 Petrochemical Industry Technology
关键词 弃风弃光 掺氢天然气 长输管道 适应性 掺氢比 abandon wind and light Hydrogen doped natural gas Long distance pipeline Adaptability Hydrogen doping ratio
分类号 TE832 [石油与天然气工程—油气储运工程]
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  • 1李云涛,杜则裕,陶勇寅,熊林玉.国产X70管线钢及其焊缝的氢致裂纹[J].焊接学报,2004,25(5):104-108. 被引量:16
  • 2刘海全,马凡华,殷勇.天然气掺氢发动机的研究现状和发展趋势[J].车用发动机,2006(4):1-5. 被引量:9
  • 3马凡华,王宇,刘海全,李勇,汪俊君,赵淑莉.稀燃天然气掺氢发动机的热效率与排放特性[J].内燃机学报,2008,26(1):43-49. 被引量:13
  • 4Melaina M W, Antonia O,Penev M. Blending Hydro- gen into Natural Gas Pipeline Networks : A Review of Key Issues Technical Report [ R ]. Colorado: National Renewable Energy Laboratory,2013.
  • 5Polman E A, de Laat J C ,Crowther M, et al. Reduction of CO2 Emissions by Adding Hydrogen to Natural Gas [ R ]. Apeldoom : International Energy Agency,2003.
  • 6Castagnet S, Grandidier J, Comyn M, et al. Effect of Long-term Hydrogen Exposure on the Mechanical Properties of Polymers Used for Pipes and Tested in Pressurized Hydrogen [ J ]. International Journal of Pressure Vessels and Piping,2012,89:203 -209.
  • 7Kane M C. Permeation, Solubility and Interaction of Hydrogen in Polymers-An Assessment of Materials for Hydrogen Transport [ R ]. Washington : Savannah River National Laboratory ,2008.
  • 8Plastics Pipe Institute. Chemical Resistance of Thermo- plastics Piping Materials [ R ]. Washington: Plastics Pipe Institute ,2007.
  • 9Hardie D, Charles E A, Lopez A H. Hydrogen Embrit- tlement of High Strength Pipeline Steels [ J ]. Corrosion Science ,2006,48 ( 12 ) :4378 - 4385.
  • 10Bae D, Sung C, Bang H, et al. Effect of Highly Pressur- ized Hydrogen Gas Charging on the Hydrogen Embrit- tlement of API X70 Steel[ J]. Metals and Materials In- ternational,2014,20(4) :653 ~ 658.

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石化技术
2021年 第12期

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