Analysis of AIP technologies and it possible applications in the submarines of Colombian Navy

Authors

  • Jossie Esteban Zúñiga Alfaro Escuela Naval de Cadetes "Almirante Padilla", Cartagena, 130001
  • Gerardo Adolfo Romero Sierra Submarino ARC "Tayrona", Armada Nacional de la República de Colombia, Bogotá, 111321

DOI:

https://doi.org/10.70554/Derrotero2023.v17n01.08

Keywords:

AIP, Critical pressure, Critical temperature, Electrolysis, Snorkel deep

Abstract

During the decades the processes of accumulation and transport of energy, for mobile applications have been the reason for much of the research in this area of engineering, without a doubt until now fossil fuels are the most used for applications of all kinds, from minimum power generation plants, through small vehicles such as motorcycles to large applications such as merchant containers and military platforms.
The objective of this article is the analysis of the uses of the fuel cell technology (full cell) applied other navies of the world in military submarines which have implemented AIP (Air Independent Propulsion) processes in order to indicate the advantages and possible applications of this technology in the submarine units of the A Colombian Navy.

Author Biographies

Jossie Esteban Zúñiga Alfaro, Escuela Naval de Cadetes "Almirante Padilla", Cartagena, 130001

Electronic Engineer; Armada Nacional de Colombia

Gerardo Adolfo Romero Sierra, Submarino ARC "Tayrona", Armada Nacional de la República de Colombia, Bogotá, 111321

ARC Submarine "Tayrona"

References

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Nicolás Aguirre Fontanela, P. A. (2008). Funcionamiento AIP. mesma, España.

Owen, R., & Cote, R. (2019). Invisible nuclear-armed submarines, or transparent oceans? Are ballistic missile submarines still the best deterrent for the United States? Bulletin of The Atomic Scientists.

Romney, B., & Duffey, B. (2017). Submarine warfare and intelligence in the Atlantic and Pacific in the Second World War: Comparisons and lessons learned for two opponents. Journal of Maritime Research.

UPM, U. P. (s.f.). Almacenamiento y transporte de hidrógeno. Recuperado de: http://www.energiasostenible.net/almacenamiento_y_transporte_de_hidrog.htm. Consultado el 13 de agosto de 2024.

Wang, X.-W. (2008). Analysis of technology condition and development trend for air independent propulsion (AIP) technology for conventional submarine.

Zamora, V. R. (2006). Principio de funcionamiento. En Diseño y construcción de un motor Stirling para la generación de energía eléctrica, páginas 18–35. Lima, Perú.

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Published

10/15/2024

How to Cite

Zúñiga Alfaro, J. E., & Romero Sierra, G. A. (2024). Analysis of AIP technologies and it possible applications in the submarines of Colombian Navy. DERROTERO, 17(01). https://doi.org/10.70554/Derrotero2023.v17n01.08

Issue

Vol. 17 Num. 01 (2023)

Section

Articles

License

Copyright (c) 2024 Jossie Esteban Zúñiga Alfaro, Gerardo Adolfo Romero Sierra

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

The authors retain copyright and grant the journal the right to publish the work under a Creative Commons Attribution License, which allows third parties to use the published content as long as they credit the author(s) and the publication in DERROTERO.

This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.Licencia de Creative Commons

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