Assisting transformation - bibliography

The article was written by Jens Voss, ROSEN Group.

• GALLON, N., GUEST, L., HORSLEY, A., VAN ELTEREN, R., and PALMER-JONES, R., ‘Hydrogen Getting Into Focus’, in PTC, Berlin, (2020).
• Graphs compiled from data presented in ‘Gas pipeline incidents’, 11th Report of the European Gas Pipeline Incident Data Group (1970 – 2019), Doc No VA 20.0432, (December 2020).
• SIEVERTS, A., ‘The Absorption of Gases by Metals’, Zeitschrift für Metallkunde, vol. 21, (1929) pp. 37-46.
• GALLON, N., ‘Hydrogen Pipelines - Design and Material Challenges and Mitigations’, (2020), https://www.eprg.net/fileadmin/EPRG_public/eprg-docs/papers/FR-221_2020_Literature_study_hydrogen.pdf
• ‘Hydrogen Pipeline Systems’, European Industrial Gases Association, Brussels, (2014).
• ‘Gas transmission and distribution piping systems,’ ASME, B31.8, (2020).
• OGAWA, Y., NISHIDA, M., NAKAMURA, M., OLDEN, V., VINGRADOV, A., AND MATSUNAGA, H., ‘Dual roles of pearlite microstructure to interfere/facilitate gaseous hydrogen-assisted fatigue crack growth in plain carbon steels’, International Journal of Fatigue, vol. 154, no. 106561, (2022).
• SANDANA, D., GALLON, N., ANDREWS, R., and PALMER-JONES, R., ‘ID 133 Crack Management of Hydrogen Pipelines’, in ICHS, Edinburgh, (2021).
• SANDANA, D., ‘Transport of Gaseous and Dense Carbon Dioxide in Pipelines: Is There an Internal SCC Risk? (No. 51313-02516)’, in NACE International/Corrosion, (2013).
• SANDANA, D., HADDEN, M., and RACE, J., ‘Transport of Gaseous and Dense Carbon Dioxide in Pipelines: Is There an Internal Corrosion Risk?’, 3rd Forum on the Transportation of CO2 by Pipeline, Newcastle upon Tyne, (2012).
• GALLON, N., SANDANA, D., ROBSON, P., ‘CO2 Pipelines - Back to the Future?’ in TFAP, Gent, (2022).
• BROWN, A., ‘Electrochemical investigation of SCC of plain carbon steel in carbon dioxide - carbon monoxide - water system’, Corrosion, vol. 5, (1973), pp. 686 - 695.
• MAXEY, W., ‘Fracture Initiation, Propagation and Arrest’, in 5th Symposium on Line Pipe Research, Houston, (1974).
• ‘DNVGL-RP-F104 Design and Operation of Carbon Dioxide Pipelines’, DNVGL.
• COSHAM, A., and EIBER, R., ‘Fracture control in CO2 pipelines - the effect of impurities’, IPC, (2008).
• COSHAM, A., ‘Fracture propagation: the what, the why and the how’, 1st International Forum on the Transportation of CO2 by Pipeline, Newcastle upon Tyne, (2010).
• ‘EPA 456-R-20-001 An Overview of Renewable Natural Gas from Biogas’, EPA, (July 2020), https://www.epa.gov/sites/default/files/2020-07/documents/lmop_rng_document.pdf
• COSHAM, A., ‘The saturation pressure and design of dense CO2 pipelines’, 3rd International Forum on the Transportation of CO2 pipelines, Newcastle upon Tyne, (2012).
• ‘IGEM/TD/17 Steel and PE pipelines for biogas distribution’, IGEM, (2014).
• ‘Renewable Natural Gas Database’, Argonne National Laboratory, (2020), https://www.anl.gov/es/reference/renewable-natural-gas-database. [Accessed January 2022].
• ‘COP26 Special Hydrogen Report’, Hydrogen Europe, (November 2021), https://hydrogeneurope.eu/reports
• ‘Guidance for inspection of and leak detection in liquid ammonia pipelines’, Fertilizers Europe, (2013), https://www.fertilizerseurope.com/wp-content/uploads/2019/08/Guidance_for_inspection_of_and_leak_detection_in_liquid_ammonia_pipelines_FINAL_01.pdf
• ‘NACE TR5A192-2021 Guidelines for Maintaining Integrity of Equipment in Anhydrous Ammonia Storage and Handling’, AMPP, (2021).
• ‘E10 petrol explained’, Department for Transport, (February 2021), https://www.gov.uk/guidance/e10-petrol-explained
• ‘BS EN 228:2012 + A1: 2017 Automotive Fuels. Unleaded petrol. Requirements and test methods’, BSI.
• ‘Stress Corrosion Cracking of Carbon Steel in Fuel-Grade Ethanol: Review, Experience Survey, Field Monitoring and Laboratory Testing’, API, (May 2007).
• ‘API Bulletin 939-E, Second Edition, August 2013, Identification, Repair, and Mitigation of Cracking of Steel Equipment in Fuel Ethanol Service’, API.
• SEEVAM, P., RACE, J., DOWNIE, M., and HOPKINS, P., ‘Transporting the Next Generation of CO2 for Carbon Capture and Storage: The Impact of Impurities on Supercritical CO2 Pipelines’, IPC, Calgary, Alberta, Canada, (2008).
• O’DONOGHUE, A., ‘Inline inspection: hydrogen edition’ World Pipelines, (October 2021).
• ‘Climate Change 2021 - The Physical Science Basis - Summary for Policymakers’, IPCC, (2021), https://www.ipcc.ch/report/ar6/wg1/downloads/report/IPCC_AR6_WGI_SPM_final.pdf
• European Green Deal, European Commission, (2019).
• ‘Power to X, the crucial business on the way to a carbon-free world’, Siemens Energy, (2021).
• WANG, A., JARO, J., MAVINS, D., MOULTAK, M., SCHIMMEL, M, VAN DER LEUN, K., PETERS, D., and BUSEMAN, M., ‘Analysing future demand, supply, and transport of hydrogen’, Guidehouse, Utrecht, (2021).

Read the article online at: https://www.globalhydrogenreview.com/special-reports/01032023/assisting-transformation--bibliography/