Refurbishment of Natural Gas Pipelines towards 100% Hydrogen—A Thermodynamic-Based Analysis

Refurbishment of Natural Gas Pipelines towards 100% Hydrogen—A Thermodynamic-Based Analysis

Hydrogen is a key enabler of a sustainable society. Refurbishment of the existing natural gas infrastructure for up to 100% H2 is considered one of the most energy- and resource-efficient energy transportation methods. The question remains whether the transportation of 100% H2 with reasonable adapti...

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Veröffentlicht in:Energies (Basel) 2022-12, Vol.15 (24), p.9370
Hauptverfasser: Klopčič, Nejc, Stöhr, Thomas, Grimmer, Ilena, Sartory, Markus, Trattner, Alexander
Format: Artikel
Sprache:eng
Schlagworte:
Alternative energy
Analysis
Behavior
Critical components
Emissions
Energy
Energy resources
Flow velocity
Fossil fuels
Gas pipelines
Gas transmission industry
Geopolitics
Global warming potential
Green hydrogen
Hydrogen
Hydrogen as fuel
Hydrogen production
Infrastructure
Metal fatigue
Natural gas
natural gas grid
Pipe lines
pipeline
Pipelines
Refurbishment
thermodynamic analysis
Thermodynamics
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Beschreibung
Zusammenfassung:Hydrogen is a key enabler of a sustainable society. Refurbishment of the existing natural gas infrastructure for up to 100% H2 is considered one of the most energy- and resource-efficient energy transportation methods. The question remains whether the transportation of 100% H2 with reasonable adaptions of the infrastructure and comparable energy amounts to natural gas is possible. The well-known critical components for refurbishment, such as increased compressor power, reduced linepack as well as pipeline transport efficiencies, and their influencing factors were considered based on thermodynamic calculations with a step-by-step overview. A H2 content of 20–30% results in comparable operation parameters to pure natural gas. In addition to transport in pipelines, decentralized H2 production will also play an important role in addressing future demands.
ISSN:1996-1073
1996-1073
DOI:10.3390/en15249370