Impact of hydrogen blended natural gas on linepack energy for existing high pressure pipelines

IF 0.8 Q4 THERMODYNAMICS

Archives of Thermodynamics Pub Date : 2023-07-20 DOI:10.24425/ather.2022.143174

M. Witek, F. Uilhoorn

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引用次数: 2

Abstract

The aim of this work is to examine the impact of the hydrogen blended natural gas on the linepack energy under emergency scenarios of the pipeline operation. Production of hydrogen from renewable energy sources through electrolysis and subsequently injecting it into the natural gas network, gives ﬂexibility in power grid regulation and the energy storage. In this context, knowledge about the hydrogen percentage content, which can safely eﬀect on materials in a long time steel pipeline service during transport of the hydrogen-natural gas mixture, is essential for operators of a transmission network. This paper ﬁrst reviews the allowable content of hydrogen that can be blended with natural gas in existing pipeline systems, and then investigates the impact on linepack energy with both startup and shutdown of the compressors scenarios. In the latter case, an unsteady gas ﬂow model is used. To avoid spurious oscillations in the solution domain, a ﬂux limiter is applied for the numerical approximation. The GERG-2008 equation of state is used to calculate the physical properties. For the case study, a tree-topological high pressure gas network, which have been in-service for many years, is selected. The outcomes are valuable for pipeline operators to assess the security of supply.

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掺氢天然气对现有高压管道线路包能量的影响

这项工作的目的是研究在管道运行的紧急情况下，掺氢天然气对线路包能源的影响。通过电解从可再生能源中生产氢气，然后将其注入天然气网络，使电网监管和储能变得灵活。在这种情况下，关于氢气百分比含量的知识对于输电网络的运营商来说是至关重要的，因为在氢气-天然气混合物的运输过程中，氢气百分比含量可以安全地影响长期钢质管道服务中的材料。本文首先回顾了现有管道系统中可与天然气混合的氢气的允许含量，然后研究了压缩机启动和关闭情况下对机组能量的影响。在后一种情况下，使用不稳定气流模型。为了避免解域中的杂散振荡，在数值近似中应用了流量限制器。GERG-2008状态方程用于计算物理性质。作为案例研究，选择了一个已经使用多年的树形拓扑高压燃气网络。这些结果对管道运营商评估供应安全性很有价值。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Archives of Thermodynamics THERMODYNAMICS-

CiteScore

1.80

自引率

22.20%

发文量

期刊介绍： The aim of the Archives of Thermodynamics is to disseminate knowledge between scientists and engineers interested in thermodynamics and heat transfer and to provide a forum for original research conducted in Central and Eastern Europe, as well as all over the world. The journal encompass all aspect of the field, ranging from classical thermodynamics, through conduction heat transfer to thermodynamic aspects of multiphase flow. Both theoretical and applied contributions are welcome. Only original papers written in English are consider for publication.