石油化工设计 ›› 2026, Vol. 43 ›› Issue (2): 21-24.

• 设计技术 • 上一篇    下一篇

基于TGNET软件分析地形起伏及掺氢量对输气管道压力损失的影响

宋兴兴   

  1. 陕西省燃气设计院有限公司,陕西 西安 710043
  • 出版日期:2026-05-25 发布日期:2026-05-25
  • 作者简介:宋兴兴,男, 2019年毕业于浙江海洋大学海洋油气工程专业,硕士,从事油气储运地面工程设计工作,工程师,已发表2篇天然气设计类相关文章。联系电话:029-83287602转0952;E-mail:923326117@qq.com

Analysis of the Impact of Terrain Relief and Hydrogen Blending Ratio on Pressure Loss in Gas Pipelines Using TGNET

Song Xingxing   

  1. Shaanxi Gas Design Institute Co., Ltd., Xi’an, Shaanxi, 710043
  • Online:2026-05-25 Published:2026-05-25

摘要: 我国天然气需求量较大,对外依存度较高,氢气作为替代燃料,输气管道掺氢既可以将氢气长距离运输,又能补充优化能源供应结构。通过TGNET软件在线模拟分析,对于长距离输气管道,当地形相对高差△h200m时,地形高差对管道压力损失的影响不可忽略;而对于纯氢管道(极端工况模拟下),由于氢气密度较小,在恒定体积流量情况下,气体的相对密度越小,终点压力越高,压力损失越小,高差对输气管道压力损失的影响基本可忽略。结合目前国内外成熟的掺氢比例经验,选取掺氢量15%进行模拟,结果表明,相同工况下,对天然气长输管道15%的掺氢可使压力损失减少0.16~0.42MPa;同时,掺氢后可显著降低天然气利用过程的碳排放强度。

关键词: TGNET, 输气管道, 天然气掺氢

Abstract:

China’s natural gas demand is substantial, accompanied by a high degree of external dependence. Hydrogen, as an alternative fuel, can be transported over long distances through blending into existing gas pipelines, while simultaneously optimizing the national energy supply structure. This study employs TGNET software to conduct steady-state simulations and analyses. The results indicate that for long-distance gas transmission pipelines, when the relative terrain elevation difference (h) exceeds 200 m, the influence of terrain elevation differences on pipeline pressure loss cannot be neglected. Conversely, in the case of pure hydrogen pipelines (simulated under extreme conditions), due to the low density of hydrogen, the smaller the relative density of the gas at a constant volumetric flow rate, the higher the outlet pressure and the lower the pressure loss. Thus, the impact of elevation differences on pressure loss in gas pipelines is negligible. Based on domestic and international experience regarding optimal hydrogen blending ratios, simulations were conducted with a 15% hydrogen blending ratio. Under identical operating conditions, blending 15% hydrogen into long-distance natural gas pipelines can reduce the pressure loss by 0.1–0.36 MPa, while simultaneously lowering the carbon emission intensity associated with natural gas utilization.

Key words: TGNET, gas pipeline, hydrogen blending into natural gas