Author(s)

Dipak Kumar Banerjee ¹, Ashok Kumar ¹, Kuldeep Sharma ²

Affiliation(s)

¹ Welspun Tubular Inc, Frazier Pike, Lr-72206, USA
² Durabond Industries, Export, PA-15632, USA

Corresponding Author

Dipak Kumar Banerjee

ABSTRACT

The extensive reliance on non-renewable energy sources has led to significant environmental issues, including global warming and the exhaustion of fossil fuels. Hydrogen, recognized as a well-established carbon-free gas fuel, is emerging as the top contender for future energy solutions. Hydrogen boasts an outstanding energy density and lacks carbon atoms, making it an appealing option for various energy applications (such as internal combustion engines, gas turbines, and fuel cells). However, the current methods of hydrogen production, which are predominantly fossil-based, are seen as problematic due to their low efficiency and the emission of greenhouse gases. It's crucial to develop sustainable and energy-efficient methods of hydrogen production. This paper examines economies of scale hydrogen production both fossil-based and non-fossil, in a general context. It is discovered that the production of bio-hydrogen offers certain environmental benefits and significant potential compared to other hydrogen production methods. The paper delves into the specific characteristics and current research include supply of -hydrogen production techniques. It is observed that each technique presents its own set of advantages, challenges, and potential applications. Additionally, an economic analysis of bio-hydrogen energy is conducted, considering factors such as production, storage, and transportation. The findings indicate that bio-hydrogen production could serve as an effective approach for generating renewable hydrogen, which is not only efficient but also competitive against other hydrogen production methods in terms of economics and environmental impact.

KEYWORDS

Hydrogen, Line Pipe, Embrittlement, Conventional, Mixing, Blending

CITE THIS PAPER

Dipak Kumar Banerjee, Ashok Kumar, Kuldeep Sharma, Survey of Supply of Natural Gas Using Hydrogen Pipeline and Conventional Line. Journal of Materials, Processing and Design (2024) Vol. 8: 149-155. DOI: http://dx.doi.org/10.23977/jmpd.2024.080119.

REFERENCES

[1] Xianxian Xu, Quan Zhou, Dehai Yu-The future of hydrogen energy: Bio-hydrogen production technology-International Journal of Hydrogen Energy, Volume 47, Issue 79, 15 September 2022, Pages 33677-33698 
[2] Anissa Nurdiawati, Frauke Urban-Decarbonising the refinery sector: A sociotechnical   analysis of advanced biofuels, green hydrogen and carbon capture and storage developments in Sweden- Energy Research & Social Science-Volume 84, February 2022, 102358
[3] Mohd Adnan Khan, Cameron Young, David B. Layzell-The Techno-Economics of Hydrogen Pipelines-Transition Accelerator Technical Briefs - Volume1, Issue 2, November 2021. 
[4] Minli Yu, Ke Wang, Harrie Vredenburg-Insights into low-carbon hydrogen production methods: Green, blue and aqua hydrogen-International Journal of Hydrogen Energy-Volume 46, Issue 41, 15June 2021, Pages 21261-21273
[5] Gregor Brändle, Max Schönfisch, Simon Schulte-Estimating long-term global supply costs forlow-carbon hydrogen-Applied Energy, Volume 302, 15 November 2021, 117481
[6] Murat Emre Demir, Ibrahim Dincer-Cost assessment and evaluation of various hydrogen delivery scenarios-International Journal of Hydrogen Energy- Volume43, Issue 22, 31 May 2018, Pages 10420-10430
[7] Erdener, Burcin Cakir; San Marchi, Chris W. Ronevich, Joseph A. Fring, Lisa; Simmons, Kevin; Fernandez, Omar Jose Guerra ;Hodge, Bri-Mathias ;Chung, Mark-Hydrogen Blending into Natural Gas PipelineInfrastructure: Review of the State of Technology-: https://doi. org/10. 2172/1893355 •10 October 2022
[8] Jingxuan Liu, Lin Teng, Bin Liu, Peng Han, Weldong Li-Analysis of Hydrogen Gas Injection at Various Compositions in an Existing Natural Gas Pipeline-Front. Energy Res., 15 July 2021Sec. Hydrogen Storage and ProductionVolume 9 - 2021 https://doi. org/10. 3389/fenrg. 2021. 685079 
[9] I. Eames, M. Austin, A. Wojcik-Injection of gaseous hydrogen into a natural gas pipeline- International Journal of Hydrogen Energy -Volume 47, Issue 61, 19 July 2022, Pages 25745-25754
[10] G. Ali Mansoori, L. Barnie Agyarko, L. Antonio Estevez, Behrooz Fallahi, Georgi Gladyshev, N. N. Semenov Ronaldo Gonçalves dos Santos, Bernardo do Campo, Shawn Niaki,  Tbilisi, Georgia. Ognjen Perišić, Mika Sillanpää, Kaniki Tumba, Jeffrey Yen, -Fuels of the Future for Renewable Energy Sources (Ammonia, Biofuels, Hydrogen) https:// arxiv. org/ abs/2102. 00439, 31Janaury 2021.

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