[1]刘胜利,张野,杨佳晔,等.基于知识图谱的氢气管道输送研究现状与发展趋势[J].油气储运,2025,44(01):10-25.[doi:10.6047/j.issn.1000-8241.2025.01.002]
 LIU Shengli,ZHANG Ye,YANG Jiaye,et al.Research status and development trends of hydrogen pipeline transportation based on knowledge mapping[J].Oil & Gas Storage and Transportation,2025,44(01):10-25.[doi:10.6047/j.issn.1000-8241.2025.01.002]
点击复制

基于知识图谱的氢气管道输送研究现状与发展趋势

参考文献/References:

[1] 刘超广,马贵阳,孙东旭. 氢气管输技术研究进展[J]. 太阳能学报,2023,44(1):451?458. 10.19912/j.0254-0096.tynxb. 2021-0881. LIU C G, MA G Y, SUN D X. Research progress for technology of hydrogen transportation by pipeline[J]. Acta Energiae Solaris Sinica, 2023, 44(1): 451?458.
[2] NIERMANN M, TIMMERBERG S, DR?NERT S, KALTSCHMITT M. Liquid organic hydrogen carriers and alternatives for international transport of renewable hydrogen[J]. Renewable and Sustainable Energy Reviews, 2021, 135: 110171. DOI: 10.1016/j.rser.2020. 110171.
[3] 李敬法,苏越,张衡,宇波. 掺氢天然气管道输送研究进展[J].天然气工业,2021,41(4):137?152. 10.3787/j.issn.1000-0976.2021.04.015. LI J F, SU Y, ZHANG H, YU B. Research progresses on pipeline transportation of hydrogen-blended natural gas[J]. Natural Gas Industry, 2021, 41(4): 137?152.
[4] ERDENER B C, SERGI B, GUERRA O J, LAZARO CHUECA A, PAMBOUR K, BRANCUCCI C, et al. A review of technical and regulatory limits for hydrogen blending in natural gas pipelines[J]. International Journal of Hydrogen Energy, 2023, 48(14): 5595?5617. DOI: 10.1016/j.ijhydene.2022.10.254.
[5] 高岳,朱红钧,唐堂,李佳男,陈泉宇,刘文丽. 天然气管道掺氢输送研究现状与分析[J]. 低碳化学与化工,2024,49(3):118?128. 10.12434/j.issn.2097-2547.20230260. GAO Y, ZHU H J, TANG T, LI J N, CHEN Q Y, LIU W L. Research status and analysis of hydrogen-blended natural gas transportation in natural gas pipelines[J]. Low-Carbon Chemistry and Chemical Engineering, 2024, 49(3): 118?128.
[6] 程德宝,蔺建刚,魏乃腾,于雯霞,党春蕾,田华峰. 氢气输送管道技术发展现状[J]. 油气储运,2024,43(6):624?631. 10.6047/j.issn.1000-8241.2024.06.003. CHENG D B, LIN J G, WEI N T, YU W X, DANG C L, TIAN H F. Review of hydrogen transmission pipeline technology developm-ent[J]. Oil & Gas Storage and Transportation, 2024, 43(6): 624?631.
[7] 李敬法,李建立,王玉生,赵杰,李汉勇,宇波. 氢能储运关键技术研究进展及发展趋势探讨[J]. 油气储运,2023,42(8):856?871. 10.6047/j.issn.1000-8241.2023.08.002. LI J F, LI J L, WANG Y S, ZHAO J, LI H Y, YU B. Research progress and development trends of key technologies for hydrogen energy storage and transportation[J]. Oil & Gas Storage and Tran-sportation, 2023, 42(8): 856?871.
[8] 陈林,董绍华,李凤,张行. 氢环境下压力容器及管道材料相容性研究进展[J]. 力学与实践,2022,44(3):503?518. 10.6052/1000-0879-22-075. CHEN L, DONG S H, LI F, ZHANG H. Some advances in studies of material compatibility of pressure vessels and pipelines in hydrogen atmosphere[J]. Mechanics in Engineering, 2022, 44(3):503?518.
[9] 李凤,董绍华,陈林,朱喜平,韩子从. 掺氢天然气长距离管道输送安全关键技术与进展[J]. 力学与实践,2023,45(2):230?244. 10.6052/1000-0879-22-579. LI F, DONG S H, CHEN L, ZHU X P, HAN Z C. Key safety technologies and advances in long-distance pipeline transportation of hydrogen blended natural gas[J]. Mechanics in Engineering, 2023, 45(2): 230?244.
[10] 曹权,王洪建,秦业美,王敏. 纯氢管道输氢技术发展现状与分析[J]. 力学与实践,2024,46(1):18?27. 10.6052/1000-0879-23-355. CAO Q, WANG H J, QIN Y M, WANG M. Current status and analysis of the development of pure hydrogen pipeline hydrogen transmission technology[J]. Mechanics in Engineering, 2024, 46(1): 18?27.
[11] 许未晴,鲁仰辉,孙晨,贾冠伟,李梦雅,雷鸣宇,等. 天然气掺氢输送系统氢脆研究进展[J]. 油气储运,2022,41(10):1130?1140. 10.6047/j.issn.1000-8241.2022.10.002. XU W Q, LU Y H, SUN C, JIA G W, LI M Y, LEI M Y, et al. Research progress on hydrogen embrittlement in hydrogen-blended natural gas transportation system[J]. Oil & Gas Storage and Transportation, 2022, 41(10): 1130?1140.
[12] 张立业,邓海涛,孙桂军,宁晨,孙钢,刘伟,等. 天然气随动掺氢技术研究进展[J]. 力学与实践,2022,44(4):753?766. 10.6052/1000-0879-22-056. ZHANG L Y, DENG H T, SUN G J, NING C, SUN G, LIU W, et al. Research progress of natural gas follow-up hydrogen mixing technology[J]. Mechanics in Engineering, 2022, 44(4): 753?766.
[13] 赵茜,邢云颖,王修云,杨芝乐,张雷. 天然气管道掺氢输送相容性研究现状[J]. 材料导报, 2024, 38(12): 128?134. 10. 11896/cldb.22110125. ZHAO Q, XING Y Y, WANG X Y, YANG Z L, ZHANG L. Research status of compatibility of hydrogen-blended natural gas pipeline[J]. Materials Reports, 2024, 38(12): 128?134.
[14] 任若轩,游双矫,朱新宇,岳小文,姜振超. 天然气掺氢输送技术发展现状及前景[J]. 油气与新能源,2021,33(4):26?32. 10.3969/j.issn.2097-0021.2021.03.006. REN R X, YOU S J, ZHU X Y, YUE X W, JIANG Z C. Development status and prospects of hydrogen compressed natural gas transportation technology[J]. Petroleum and New Energy, 2021, 33(4): 26?32.
[15] WANG J H, LIU H, WEI Z, PAN K, JI W J, JIANG Y, et al. Mapping the research on the spontaneous combustion of high-pressure hydrogen leakage: a bibliometric analysis[J]. International Journal of Hydrogen Energy, 2024, 50(Part A): 1006?1028. DOI:10.1016/j.ijhydene.2023.08.196.
[16] CATUMBA B D, SALES M B, BORGES P T, RIBEIRO FILHO M N, LOPES A A S, DE SOUSA RIOS M A, et al. Sustainability and challenges in hydrogen production: An advanced bibliometric analysis[J]. International Journal of Hydrogen Energy, 2023, 48(22): 7975?7992. DOI: 10.1016/j.ijhydene.2022.11.215.
[17] CHEN C, LI C J, RENIERS G, YANG F Q. Safety and security of oil and gas pipeline transportation: a systematic analysis of research trends and future needs using WoS[J]. Journal of Cleaner Production, 2021, 279: 123583. DOI: 10.1016/j.jclepro.2020.123583.
[18] 帅健,王伟,梅苑,金国清. 基于知识图谱的管道完整性管理研究特征与热点演化[J]. 油气储运,2021,40(12):1349?1357. 10.6047/j.issn.1000-8241.2021.12.004. SHUAI J, WANG W, MEI Y, JIN G Q. Research characteristics and hot spot evolution of pipeline integrity management based on knowledge graph[J]. Oil & Gas Storage and Transportation, 2021, 40(12): 1349?1357.
[19] 伍其兵,张行,张萌,张笑影,董绍华. 基于知识图谱的掺氢天然气管输研究现状与演进趋势[J]. 油气储运,2022,41(12):1380?1394. 10.6047/j.issn.1000-8241.2022.12.004. WU Q B, ZHANG H, ZHANG M, ZHANG X Y, DONG S H. Research status and evolution trend of pipeline transportation of hydrogen-blended natural gas based on knowledge graph[J]. Oil &Gas Storage and Transportation, 2022, 41(12): 1380?1394.
[20] 王玮,王秋岩,邓海全,程光旭,李云. 天然气管道输送混氢天然气的可行性[J]. 天然气工业,2020,40(3):130?136. 10. 3787/j.issn.1000-0976.2020.03.016. WANG W, WANG Q Y, DENG H Q, CHENG G X, LI Y. Feasibility analysis on the transportation of hydrogen-natural gas mixtures in natural gas pipelines[J]. Natural Gas Industry, 2020, 40(3): 130?136.
[21] LOWESMITH B J, HANKINSON G. Large scale experiments to study fires following the rupture of high pressure pipelines conveying natural gas and natural gas/hydrogen mixtures[J]. Process Safety and Environmental Protection, 2013, 91(1/2):101?111. DOI: 10.1016/j.psep.2012.03.004.
[22] McPhy energy role in French power-to-gas GRHYD programme[J]. Fuel Cells Bulletin, 2014, 2014(2): 9?10. DOI:10.1016/S1464-2859(14)70054-9.
[23] ISAAC T. HyDeploy: the UK’s first hydrogen blending deployment project[J]. Clean Energy, 2019, 3(2): 114?125. DOI:10.1093/ce/zkz006.
[24] 谢萍,伍奕,李长俊,贾文龙,张皓,吴瑕. 混氢天然气管道输送技术研究进展[J]. 油气储运,2021,40(4):361?370. 10. 6047/j.issn.1000-8241.2021.04.001. XIE P, WU Y, LI C J, JIA W L, ZHANG H, WU X. Research progress on pipeline transportation technology of hydrogen-mixed natural gas[J]. Oil & Gas Storage and Transportation, 2021, 40(4):361?370.
[25] GROTH K M, AL-DOURI A, WEST M, HARTMANN K, SAUR G, BUTTNER W. Design and requirements of a hydrogen component reliability database (HyCReD)[J]. International Journal of Hydrogen Energy, 2024, 51(Part D): 1023?1037. DOI: 10.1016/j.ijhydene.2023.07.165.
[26] GROTH K M, HECHT E S. HyRAM: a methodology and toolkit for quantitative risk assessment of hydrogen systems[J]. International Journal of Hydrogen Energy, 2017, 42(11): 7485?7493. DOI: 10.1016/j.ijhydene.2016.07.002.
[27] RUIZ-TAGLE A, GROTH K M. Comparing the risk of third-party excavation damage between natural gas and hydrogen pipelines[J]. International Journal of Hydrogen Energy, 2024, 57: 107?120. DOI: 10.1016/j.ijhydene.2023.12.195.
[28] YANG R C, SCHELL C A, RUIZ-TAGLE A, GRABOVETSKA V, GUPTA A J, GROTH K M. Research gaps in quantitative risk assessment (QRA) of hydrogen transmission pipelines[J]. International Journal of Hydrogen Energy, 2024, 71: 916?929. DOI: 10.1016/j.ijhydene.2024.05.281.
[29] CAGLAYAN D G, HEINRICHS H U, LINSSEN J, ROBINIUS M, STOLTEN D. Impact of different weather years on the design of hydrogen supply pathways for transport needs[J]. International Journal of Hydrogen Energy, 2019, 44(47): 25442?25456. DOI:10.1016/j.ijhydene.2019.08.032.
[30] EMONTS B, REU? M, STENZEL P, WELDER L, KNICKER F, GRUBE T, et al. Flexible sector coupling with hydrogen: a climate-friendly fuel supply for road transport[J]. International Journal of Hydrogen Energy, 2019, 44(26): 12918?12930. DOI: 10.1016/j.ijhydene.2019.03.183.
[31] CAGLAYAN D G, HEINRICHS H U, ROBINIUS M, STOLTEN D. Robust design of a future 100% renewable European energy supply system with hydrogen infrastructure[J]. International Journal of Hydrogen Energy, 2021, 46(57): 29376?29390. DOI:10.1016/j.ijhydene.2020.12.197.
[32] CERNIAUSKAS S, JOSE CHAVEZ JUNCO A, GRUBE T, ROBINIUS M, STOLTEN D. Options of natural gas pipeline reassignment for hydrogen: cost assessment for a Germany case study[J]. International Journal of Hydrogen Energy, 2020, 45(21):12095?12107. DOI: 10.1016/j.ijhydene.2020.02.121.
[33] BUSCH T, GRO? T, LIN?EN J, STOLTEN D. The role of liquid hydrogen in integrated energy systems: a case study for Germany[J]. International Journal of Hydrogen Energy, 2023, 48(99): 39408?39424. DOI: 10.1016/j.ijhydene.2023.05.308.
[34] TLILI O, MANSILLA C, LINΒEN J, REU? M, GRUBE T, ROBINIUS M, et al. Geospatial modelling of the hydrogen infrastructure in France in order to identify the most suited supply chains[J]. International Journal of Hydrogen Energy, 2020, 45(4):3053?3072. DOI: 10.1016/j.ijhydene.2019.11.006.
[35] YANG C, OGDEN J. Determining the lowest-cost hydrogen delivery mode[J]. International Journal of Hydrogen Energy, 2007, 32(2): 268?286. DOI: 10.1016/j.ijhydene.2006.05.009.
[36] WANG G H, OGDEN J M, NICHOLAS M A. Lifecycle impacts of natural gas to hydrogen pathways on urban air quality[J]. International Journal of Hydrogen Energy, 2007, 32(14): 2731?2742. DOI: 10.1016/j.ijhydene.2007.01.006.
[37] REU? M, WELDER L, TH?RAUF J, LIN?EN J, GRUBE T, SCHEWE L, et al. Modeling hydrogen networks for future energy systems: a comparison of linear and nonlinear approaches[J]. International Journal of Hydrogen Energy, 2019, 44(60): 32136?32150. DOI: 10.1016/j.ijhydene.2019.10.080.
[38] OGDEN J, JAFFE A M, SCHEITRUM D, MCDONALD Z, MILLER M. Natural gas as a bridge to hydrogen transportation fuel: insights from the literature[J]. Energy Policy, 2018, 115:317?329. DOI: 10.1016/j.enpol.2017.12.049.
[39] ZHOU D J, JIA X Y, PENG Z K, MA Y S. Coordinate control law analysis for hydrogen blended electricity-gas integrated energy system[J]. International Journal of Hydrogen Energy, 2022, 47(69): 29648?29660. DOI: 10.1016/j.ijhydene.2022.06.274.
[40] WANG C, ZHOU D J, XIAO W, SHUI C Y, MA T, CHEN P, et al. Research on the dynamic characteristics of natural gas pipeline network with hydrogen injection considering line-pack influence[J]. International Journal of Hydrogen Energy, 2023, 48(65): 25469?25486. DOI: 10.1016/j.ijhydene.2023.03.298.
[41] WU Z, ZHOU D J, WANG C, SHUI C Y. Techno assessment on hydrogen injected gas transportation based on integrated system simulation[J]. International Journal of Hydrogen Energy, 2024, 49(Part D): 1210?1227. DOI: 10.1016/j.ijhydene.2023.08.052.
[42] ZHOU D J, WANG C, YAN S Y, YAN Y, GUO Y Y, SHAO T M, et al. Dynamic modeling and characteristic analysis of natural gas network with hydrogen injections[J]. International Journal of Hydrogen Energy, 2022, 47(78): 33209?33223. DOI: 10.1016/j. ijhydene.2022.07.246.
[43] ZHOU D J, YAN S Y, HUANG D W, SHAO T M, XIAO W, HAO J R, et al. Modeling and simulation of the hydrogen blended gas-electricity integrated energy system and influence analysis of hydrogen blending modes[J]. Energy, 2022, 239(Part A): 121629. DOI: 10.1016/j.energy.2021.121629.
[44] 郑健. 我院首获国家重点研发计划项目立项[EB/OL]. (2021-12-25)[2024-05-25]. https://cj.upc.edu.cn/2021/1224/c3627a358506/page.htm. ZHENG J. Our institute won the first national key research and development plan project[EB/OL]. (2021-12-25)[2024-05-25]. https://cj.upc.edu.cn/2021/1224/c3627a358506/page.htm.
[45] 石国赟,宇波. 掺氢天然气管网数值仿真轻量化算法[J]. 天然气工业,2024,44(2):156?165. 10.3787/j.issn.1000-0976. 2024.02.015. SHI G Y, YU B. Lightweight algorithm for numerical simulation of hydrogen blending natural gas pipeline network[J]. Natural Gas Industry, 2024, 44(2): 156?165.
[46] 李敬法,宇波,苏越,刘翠伟,李玉星. 静置工况条件下掺氢天然气浓度分布规律[J]. 天然气工业,2024,44(2):145?155. 10.3787/j.issn.1000-0976.2024.02.014. LI J F, YU B, SU Y, LIU C W, LI Y X. Concentration distribution pattern of hydrogen-blended natural gas under static operating conditions[J]. Natural Gas Industry, 2024, 44(2): 145?155.
[47] 苏越,李敬法,宇波,赵彦琳,李建立,韩东旭. 氢气和天然气在静态混合器中的掺混模拟[J]. 天然气工业,2023,43(3):113?122. 10.3787/j.issn.1000-0976.2023.03.012. SU Y, LI J F, YU B, ZHAO Y L, LI J L, HAN D X. Simulation study on the mixing of hydrogen and natural gas in static mixers[J]. Natural Gas Industry, 2023, 43(3): 113?122.
[48] 段鹏飞,张进盛,常曦文,韩辉,刘翠伟,刘建辉,等. 掺氢天然气在管廊中的泄漏扩散特性[J]. 油气储运,2023,42(8):901?909. 10.6047/j.issn.1000-8241.2023.08.006. DUAN P F, ZHANG J S, CHANG X W, HAN H, LIU C W, LIU J H, et al. Leakage and diffusion characteristics of hydrogen enriched natural gas in utility tunnel[J]. Oil & Gas Storage and Transportation, 2023, 42(8): 901?909.
[49] 张成龙,李俊磊,张永海,李璐玲,段鹏飞,魏进家. 综合管廊中掺氢天然气泄漏安全性分析[J]. 西安交通大学学报,2024, 58(2):22?30. 10.7652/xjtuxb202402003. ZHANG C L, LI J L, ZHANG Y H, LI L L, DUAN P F, WEI J J. Safety analysis of hydrogen-blended natural gas leakage in comprehensive pipe gallery[J]. Journal of Xi'an Jiaotong University, 2024, 58(2): 22?30.
[50] 安永伟,孙晨,冀守虎,贾冠伟,许未晴,刘伟,等. 天然气掺氢在管道流动中的氢浓度分布[J]. 力学与实践,2022,44(4):767?775. 10.6052/1000-0879-22-381. AN Y W, SUN C, JI S H, JIA G W, XU W Q, LIU W, et al. Hydrogen concentration distribution in flow of hydrogen blended to natural gas in pipeline[J]. Mechanics in Engineering, 2022, 44(4): 767?775.
[51] 冀守虎,孙晨,安永伟,闫双杰,贾冠伟,许未晴,等. 超声波流量计对掺氢天然气管路结构的适应性研究[J]. 力学与实践, 2023,45(2):333?344. 10.6052/1000-0879-22-609. JI S H, SUN C, AN Y W, YAN S J, JIA G W, XU W Q, et al. Investigation on adaptability of ultrasonic flowmeter for hydrogen blended to natural gas pipeline structure[J]. Mechanics in Engineering, 2023, 45(2): 333?344.
[52] 贾冠伟,冀守虎,闫双杰,李睿,杨沐村,许未晴,等. 掺氢天然气管路结构对超声波流量计适应性计算流体力学仿真研究[J].科学技术与工程,2024,24(4):1505?1514. 10.12404/j.issn.1671-1815.2302134. JIA G W, JI S H, YAN S J, LI R, YANG M C, XU W Q, et al. Adaptability of ultrasonic flowmeter for pipeline structures of hydrogen blended to natural gas using CFD[J]. Science Techno-logy and Engineering, 2024, 24(4): 1505?1514.
[53] 李鹏. 氢标领航安储致远:专访中国工程院院士郑津洋[J]. 太阳能, 2022(5):7?13. 10.19911/j.1003-0417.tyn 20220427.a. LI P. Interview with Zheng Jinyang, academician of Chinese Academy of Engineering[J]. Solar Energy, 2022(5): 7?13.
[54] 刘冀宁,董绍华,张菁,东静波,陈一诺. 管线钢应力诱导型氢致开裂分形试验[J]. 油气储运,2019,38(8):870?876. 10. 6047/j.issn.1000-8241.2019.08.005. LIU J N, DONG S H, ZHANG J, DONG J B, CHEN Y N. Fractal experiment on stress oriented hydrogen induced cracking of pipeline steel[J]. Oil & Gas Storage and Transportation, 2019, 38(8): 870?876.
[55] 于子龙,张立业,宁晨,孙钢,刘泓芳,安振华,等. 天然气掺氢管道输运及终端应用[J]. 力学与实践,2022,44(3):491?502. 10.6052/1000-0879-21-558. YU Z L, ZHANG L Y, NING C, SUN G, LIU H F, AN Z H, et al. Natural gas hydrogen mixing pipeline transportation and terminal application[J]. Mechanics in Engineering, 2022, 44(3): 491?502.
[56] 张雯琴,李长俊,贾文龙,王国云. 混氢天然气对流量计安装条件的适应性分析[J]. 石油与天然气化工,2023,52(6):98?103, 109. 10.3969/j.issn.1007-3426.2023.06.015. ZHANG W Q, LI C J, JIA W L, WANG G Y. Adaptability analysis of hydrogen-mixed natural gas to flowmeter installation conditions[J]. Chemical Engineering of Oil and Gas, 2023, 52(6):98?103, 109.
[57] 牟磊,刘海峰,甘燕利,贾文龙,谢萍,吴瑕,等. 西气东输一线管道掺氢输送压缩机运行工况适应性分析[J]. 石油与天然气化工, 2023,52(2):133?141. 10.3969/j.issn.1007-3426.2023.02.022. MOU L, LIU H F, GAN Y L, JIA W L, XIE P, WU X, et al. Adaptability analysis of operating conditions of hydrogen-blended compressors in the first West-East gas pipeline[J]. Chemical Engineering of Oil and Gas, 2023, 52(2): 133?141.
[58] 贾文龙,温川贤,李金凤,谢萍,杨帆,李长俊. 在役空冷器换热性能对掺氢天然气的适应性评估[J]. 油气储运,2023,42(2):161?168,205. 10.6047/j.issn.1000-8241.2023.02.005. JIA W L, WEN C X, LI J F, XIE P, YANG F, LI C J. Evaluation on adaptability of heat transfer performance of in-service air cooler to hydrogen-mixed natural gas[J]. Oil & Gas Storage and Transportation, 2023, 42(2): 161?168, 205.
[59] 贾文龙,温川贤,杨明,黄军,吴瑕,李长俊. 掺氢天然气输送管道阀室泄漏扩散规律研究[J]. 油气与新能源,2021,33(6):75?82. 10.3969/j.issn.2097-0021.2021.05.014. JIA W L, WEN C X, YANG M, HUANG J, WU X, LI C J. Study on leakage and diffusion of hydrogen mixed natural gas in the valve chamber[J]. Petroleum and New Energy, 2021, 33(6):75?82.
[60] WANG B H, LIANG Y T, ZHENG J Q, QIU R, YUAN M, ZHANG H R. An MILP model for the reformation of natural gas pipeline networks with hydrogen injection[J]. International Journal of Hydrogen Energy, 2018, 43(33): 16141?16153. DOI: 10.1016/j. ijhydene.2018.06.161.
[61] QI S K, ZHAO W, QIU R, LIU C Y, LI Z C, LAN H, et al. Capacity allocation method of hydrogen-blending natural gas pipeline network based on bilevel optimization[J]. Energy, 2023, 285: 129417. DOI: 10.1016/j.energy.2023.129417.
[62] MORADI R, GROTH K M. Hydrogen storage and delivery:review of the state of the art technologies and risk and reliability analysis[J]. International Journal of Hydrogen Energy, 2019, 44(23): 12254?12269. DOI: 10.1016/j.ijhydene.2019.03.041.
[63] ZHANG B, XU N, ZHANG H R, QIU R, WEI X M, WANG Z, et al. Influence of hydrogen blending on the operation of natural gas pipeline network considering the compressor power optimization[J]. Applied Energy, 2024, 358: 122594. DOI: 10. 1016/j.apenergy.2023.122594.
[64] WANG B H, KLEME? J J, LIANG Y T, YUAN M, ZHANG H R, LIU J Y. Implementing hydrogen injection in coal-dominated regions: supply chain optimisation and reliability analysis[J]. Energy, 2020, 201: 117565. DOI: 10.1016/j.energy.2020.117565.
[65] 孔莹莹,崔继彤,韩辉,刘翠伟,段鹏飞,韩金珂,等. 国内外氢气管道输送技术标准对比与探讨[J]. 油气储运,2023,42(8):944?951. 10.6047/j.issn.1000-8241.2023.08.011. KONG Y Y, CUI J T, HAN H, LIU C W, DUAN P F, HAN J K, et al. Comparative analysis and discussion on domestic and foreign technical standards for hydrogen pipeline transportation[J]. Oil &Gas Storage and Transportation, 2023, 42(8): 944?951.
[66] 刘刚,崔振莹,魏甲强,陈雷,姜堡垒,李东泽,等. 掺氢天然气环境CH4对管线钢氢脆的抑制行为[J]. 油气储运,2023,42(1):16?23. 10.6047/j.issn.1000-8241.2023.01.003. LIU G, CUI Z Y, WEI J Q, CHEN L, JIANG B L, LI D Z, et al. Inhibition of hydrogen embrittlement induced by CH4 in pipeline transportation of hydrogen-natural gas mixtures[J]. Oil & Gas Storage and Transportation, 2023, 42(1): 16?23.
[67] 李玉星,张睿,刘翠伟,王财林,杨宏超,胡其会,等. 掺氢天然气管道典型管线钢氢脆行为[J]. 油气储运, 2022, 41(6):732?742. 10.6047/j.issn.1000-8241.2022.06.015. LI Y X, ZHANG R, LIU C W, WANG C L, YANG H C, HU Q H, et al. Hydrogen embrittlement behavior of typical hydrogen-blended natural gas pipeline steel[J]. Oil & Gas Storage and Transportation, 2022, 41(6): 732?742.
[68] 孙齐,李凤,王一玮,董绍华,陈林,张行. 掺氢天然气管道泄漏扩散规律及监测探头布设方案[J]. 油气储运,2022,41(8):916?923. 10.6047/j.issn.1000-8241.2022.08.006. SUN Q, LI F, WANG Y W, DONG S H, CHEN L, ZHANG H. Leakage diffusion law of hydrogen-mixed natural gas pipeline and layout plan of detectors[J]. Oil & Gas Storage and Transportation, 2022, 41(8): 916?923.
[69] 刘啸奔,张东,武学健,艾红倪,陈朋超,闫锋,等. 掺氢天然气管道完整性评价技术的进展与挑战[J]. 力学与实践,2023, 45(2):245?259. 10.6052/1000-0879-22-636. LIU X B, ZHANG D, WU X J, AI H N, CHEN P C, YAN F, et al. Advances and challenges of hydrogen-blended natural gas pipeline integrity assessment technology[J]. Mechanics in Engineering, 2023, 45(2): 245?259.
[70] 叶青. 我国氢能产业发展步入快车道[N]. 科技日报,2023-04-11(6). YE Q. The development of China’s hydrogen energy industry has stepped into a fast lane[N]. Science and Technology Daily, 2023-04-11(6).
[71] 李建林,梁忠豪,梁丹曦,马速良. “双碳”目标下绿氢制备及应用技术发展现状综述[J]. 分布式能源,2021,6(4):25?33. 10.16513/j.2096-2185.DE.2106531. LI J L, LIANG Z H, LIANG D X, MA S L. Overview of development status of green hydrogen production and application technology under targets of carbon peak and carbon neutrality[J]. Distributed Energy, 2021, 6(4): 25?33.
[72] 央视财经. 德国与挪威将联合建设氢气输送管道[EB/OL]. (2023-01-07)[2024-06-16]. https://content-static.cctvnews.cctv.com/snow-book/index.html?item_id=8474251934812921603. CCTV Finance. Germany and Norway will jointly build a hydr-ogen pipeline[EB/OL]. (2023-01-07)[2024-06-16]. https://content-static.cctvnews.cctv.com/snow-book/index.html?item_id=847 4251934812921603.
[73] 付伟,李龙,武璐,罗明灿. 家庭消费碳排放研究进展与展望:基于CiteSpace的知识图谱分析[J]. 生态经济,2024,40(6):208?217. FU W, LI L, WU L, LUO M C. Research progress and future prospects on carbon emissions from household consumption:knowledge map analysis based on CiteSpace[J]. Ecological Economy, 2024, 40(6): 208?217.
[74] 李天娇,谢飞,张瑛,王丹,孙东旭,吴明. 天然气管道掺氢输送技术研究进展[J]. 油气储运,2024,43(12):1337?1347. 10.6047/j.issn.1000-8241.2024.12.002. LI T J, XIE F, ZHANG Y, WANG D, SUN D X, WU M. Advancements in hydrogen-blended natural gas pipeline transmission technology[J]. Oil & Gas Storage and Transportation, 2024, 43(12): 1337?1347.

相似文献/References:

[1]黄维和,宫敬,王军.碳中和愿景下油气储运学科的任务[J].油气储运,2022,41(06):607.[doi:10.6047/j.issn.1000-8241.2022.06.002]
 HUANG Weihe,GONG Jing,WANG Jun.Tasks of oil & gas storage and transportation discipline under the vision of carbon neutrality[J].Oil & Gas Storage and Transportation,2022,41(01):607.[doi:10.6047/j.issn.1000-8241.2022.06.002]
[2]陈伊宇,龙礼文,黄泰明,等.天然气掺氢燃烧技术研究进展[J].油气储运,2023,42(08):872.[doi:10.6047/j.issn.1000-8241.2023.08.003]
 CHEN Yiyu,LONG Liwen,HUANG Taiming,et al.Research progress in hydrogen-doped natural gas combustion technology[J].Oil & Gas Storage and Transportation,2023,42(01):872.[doi:10.6047/j.issn.1000-8241.2023.08.003]
[3]段鹏飞,张进盛,常曦文,等.掺氢天然气在管廊中的泄漏扩散特性[J].油气储运,2023,42(08):901.[doi:10.6047/j.issn.1000-8241.2023.08.006]
 DUAN Pengfei,ZHANG Jinsheng,CHANG Xiwen,et al.Leakage and diffusion characteristics of hydrogen enriched natural gas in utility tunnel[J].Oil & Gas Storage and Transportation,2023,42(01):901.[doi:10.6047/j.issn.1000-8241.2023.08.006]
[4]李军,王瑞梅,张艳花,等.中温氢气直接吸附剂合成及其分离性能[J].油气储运,2023,42(08):922.[doi:10.6047/j.issn.1000-8241.2023.08.008]
 LI Jun,WANG Ruimei,ZHANG Yanhua,et al.Synthesis and separation performance of direct hydrogen adsorbent at moderate temperature[J].Oil & Gas Storage and Transportation,2023,42(01):922.[doi:10.6047/j.issn.1000-8241.2023.08.008]
[5]胡玮鹏 陈光 齐宝金 张永海.埋地纯氢/掺氢输送天然气管道泄漏扩散数值模拟[J].油气储运,2023,42(10):1.
 HU Weipeng,CHEN Guang,QI Baojin,et al. Numerical simulation of leakage and diffusion of buried pure hydrogen/hydrogen-doped natural gas pipeline[J].Oil & Gas Storage and Transportation,2023,42(01):1.
[6]胡玮鹏,陈光,齐宝金,等.埋地纯氢/掺氢天然气管道泄漏扩散数值模拟[J].油气储运,2023,42(10):1118.[doi:10.6047/j.issn.1000-8241.2023.10.005]
 HU Weipeng,CHEN Guang,QI Baojin,et al.Numerical simulation of leakage and diffusion of buried pure hydrogen/hydrogen-doped natural gas pipeline[J].Oil & Gas Storage and Transportation,2023,42(01):1118.[doi:10.6047/j.issn.1000-8241.2023.10.005]
[7]李玉星 周慧 朱建鲁 刘翠伟 吕浩 彭薇 芦澍 李璐伶.纯氢/掺氢天然气管道的减压与调压[J].油气储运,2024,43(01):1.
 LI Yuxing,ZHOU Hui,ZHU Jianlu,et al.Multistage decompression and pressure regulation of pure hydrogen and hydrogen-blended natural gas[J].Oil & Gas Storage and Transportation,2024,43(01):1.
[8]李玉星,周慧,朱建鲁,等.纯氢/掺氢天然气管道的减压与调压[J].油气储运,2024,43(01):21.[doi:10.6047/j.issn.1000-8241.2024.01.003]
 LI Yuxing,ZHOU Hui,ZHU Jianlu,et al.Decompression and pressure regulation of pure hydrogen and hydrogen-enriched compressed natural gas pipelines[J].Oil & Gas Storage and Transportation,2024,43(01):21.[doi:10.6047/j.issn.1000-8241.2024.01.003]
[9]蒋宏业,寇明月,廖柯熹,等.掺氢天然气管道泄漏扩散研究现状及发展趋势[J].油气储运,2024,43(08):1.
 Jiang Hongye,Kou Mingyue,Liao Kexi,et al.Research status and development trend of hydrogen-doped natural gas pipeline leakage diffusion[J].Oil & Gas Storage and Transportation,2024,43(01):1.
[10]蒋宏业,寇明月,廖柯熹,等.掺氢天然气管道泄漏扩散研究现状及发展趋势[J].油气储运,2024,43(08):855.[doi:10.6047/j.issn.1000-8241.2024.08.002]
 JIANG Hongye,KOU Mingyue,LIAO Kexi,et al.Current status and developmental trend on leakage and dispersion research for hydrogen-blended natural gas pipeline[J].Oil & Gas Storage and Transportation,2024,43(01):855.[doi:10.6047/j.issn.1000-8241.2024.08.002]
[11]刘胜利,张野,杨佳晔,等.基于知识图谱的氢气管道输送研究现状与发展趋势[J].油气储运,2025,44(02):1.
 LIU Shengli,ZHANG Ye,YANG Jiaye,et al.Research status and development trends of hydrogen pipeline transportation based on knowledge mapping[J].Oil & Gas Storage and Transportation,2025,44(01):1.

备注/Memo

刘胜利,女,1987年生,讲师,2020年博士毕业于中国石油大学(北京)油气储运工程专业,现主要从事油气储运系统安全方向的研究工作。地址:河北省石家庄市裕华区南二环东路20号,050024。电话:0311-80787975。Email:liushengli1234@126.com
通信作者:张少如,女,1971年生,教授,2008年博士毕业于天津大学电力电子与电力传动专业,现主要从事新能源系统设计方向的研究工作。地址:河北省石家庄市裕华区南二环东路20号,050024。电话:0311-80787975。Email:shaoruzhang@126.com
基金项目:河北省高等学校科学技术研究项目“油气管道事故特征及致灾机理研究”,QN2022172。
● Received: 2024-04-26● Revised: 2024-06-18● Online: 2024-11-18

更新日期/Last Update: 2025-01-25