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Computational predictions of weld structural integrity in hydrogen transport pipelines

Tushar Kanti Mandal, Jonathan Parker, Michael Gagliano, Emilio Martínez‐Pañeda

2024International Journal of Hydrogen Energy34 citationsDOIOpen Access PDF

Abstract

We combine welding process modelling with deformation–diffusion–fracture (embrittlement) simulations to predict failures in hydrogen transport pipelines. The focus is on the structural integrity of seam welds, as these are often the locations most susceptible to damage in gas transport infrastructure. Finite element analyses are conducted to showcase the ability of the model to predict cracking in pipeline steels exposed to hydrogen-containing environments. The validated model is then employed to quantify critical H2 fracture pressures. The coupled, phase field-based simulations conducted provide insight into the role of existing defects, microstructural heterogeneity, and residual stresses. We find that under a combination of deleterious yet realistic conditions, the critical pressure at which fracture takes place can be as low as 15 MPa. These results bring new mechanistic insight into the viability of using the existing natural gas pipeline network to transport hydrogen, and the computational framework presented enables mapping the conditions under which this can be achieved safely.

Topics & Concepts

Hydrogen embrittlementPipeline transportWeldingMaterials scienceCrackingPipeline (software)Fracture (geology)Failure assessmentFinite element methodEmbrittlementHydrogenStructural integrityResidual stressDeformation (meteorology)DiffusionNatural gasStructural engineeringEnvironmental scienceComputer scienceMetallurgyCorrosionComposite materialEngineeringChemistryProgramming languageWaste managementPhysicsOrganic chemistryEnvironmental engineeringThermodynamicsHydrogen embrittlement and corrosion behaviors in metalsFatigue and fracture mechanicsStructural Integrity and Reliability Analysis
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