Zero Pollution: design of a river tourist pontoon with electric propulsion based on hydrogen fuel cell

Authors

  • David Naranjo Tabares Escuela Naval de Cadetes “Almirante Padilla”, Cartagena. Colombia
  • José María Riola Rodríguez Escuela Naval de Cadetes “Almirante Padilla”, Cartagena. Colombia

DOI:

https://doi.org/10.25043/19098642.238

Keywords:

Naval Architecture, Design, Hydrogen fuel cell, Pontoon, Catamaran, Environment

Abstract

Environmental logistics in Colombian river areas requires solutions that allow economic development based on tourism, without ecological degradation. Therefore, this paper shows the most relevant aspects of the project and preliminary design of a Pontoon-type vessel with a catamaran hull of 8 meters in length with enough power to reach a speed of 5 knots (85%MCR) and built in aluminum, which will also have electric propulsion based on a hydrogen fuel cell, and using renewable energies such as solar panels on the roof and a wind turbine. One of its main characteristics is that it will be a pollution-free ship and its classification will be done following the regulations of the Bureau Veritas, and all those national and international regulations that are applicable. Due to the problems generated by the daily use of the different means river transportation, which undoubtedly, could generate an irreversible affectation to the environment and a considerable loss of biodiversity in aquatic ecosystems, which worsens over time, this prototype design might be presented to national shipbuilding, as a possibility for designing eco-friendly tourist vessels for the country's river areas, as an example for future constructions that are expected with the rise of tourism in the country.

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Author Biographies

David Naranjo Tabares, Escuela Naval de Cadetes “Almirante Padilla”, Cartagena. Colombia

Escuela Naval de Cadetes “Almirante Padilla”, Cartagena D.T y C, Colombia.

José María Riola Rodríguez, Escuela Naval de Cadetes “Almirante Padilla”, Cartagena. Colombia

Escuela Naval de Cadetes “Almirante Padilla”, Cartagena D.T y C, Colombia.

References

AEH. (2019). Tecnologías del hidrógeno. Asociación Española del Hidrógeno. Consultado el 1 de julio de 2022. https://www.aeh2.org

BALBONA, L. (2014). Propulsión eléctrica marina con cero emisiones mediante el empleo de una pila de combustible de hidrógeno tipo PEM (membrana de intercambio de protones). [tesis de doctorado, Universidad de Oviedo]. Repositorio institucional de la Universidad de Oviedo, Asturias, España. https://digibuo.uniovi.es/dspace/handle/10651/29126

BARÓN, J, CORONADO, A, RIOLA, J.M. (2022). Diseño del sistema de propulsión eléctrico accionado por pila de combustible para el buque de instrucción ENAP. II Congreso Internacional de Planeación y Logística, Escuela Naval Almirante Padilla, Cartagena de Indias, Colombia.

BRIAG MERLET, P. (28 de 04 de 2022). Torqeedo une sus fuerzas para ofrecer soluciones marinas integradas de pila de combustible de hidrógeno. Obtenido de https://www.boatindustry.es/noticias/40145/torqeedo-une-sus-fuerzas-para-ofrecer-soluciones-marinas-integradas-de-pila-de-combustible-de-hidrogeno

GUERRERO, L. (2022). Guidelines for fuel cell systems on board commercial ships. Bureau Veritas, París, Francia.

CHOLOÉ TORTERAT, P. (06 de 08 de 2020). Obtenido de https://www.boatsnews.es/noticias/34418/hynova-40-el-primer-barco-de-placer-de-produccion-alimentado-por-hidrogeno

CIFUENTES, B., BUSTAMANTE, F., COBO, M. (2019). Producción de H2 apto para celdas de combustible a partir de la conexión del reformado con vapor de etanol y la oxidación preferencial de CO. Repositorio de la Universidad Pedagógica y Tecnológica de Colombia.

CNH2 (2020). Pilas de Combustible. Centro Nacional de Experimentación de Tecnologías de Hidrógeno y Pilas de Combustible de España. Consultado el 15 de enero de 2022. https://www.cnh2.es/pilas-de-combustible/

GODFR EY PONTOON BOATS. (2022). Sanpan Lounge 2700 ULW. Obtenido de https://virtualshowcase.godfreypontoonboats.com/godfrey/sanpan/sanpan-lounge-2700-ulw

FERNÁNDEZ-JOVE, A., MCKINLAY, A., RIOLA, J.M. (2019). Optimization of the Life Cycle in the warships: maintenance plan and monitoring for cost reduction. Proceeding of the International Ship Design & Naval Engineering Congress (CIDIN) and XXVI Pan-American Congress of Naval Engineering, Maritime Transportation and Port Engineering (COPINAVAL). Singapore: Springer. https://doi.org/10.1007/978-3-030-35963-8_33

LEO, T. (2008). Pilas de combustible de hidrógeno. Apuntes de Termodinámica. Universidad Politécnica de Madrid, España.

MERINO, R.I. (s.f). Nuevos materiales para sofc ́s. http://fmc0.unizar.es/people/rmerino/papers/divsofc.pdf

NARANJO, D., RIOLA, J.M. (2022). Contaminación cero: diseño de una pontona turística fluvial con propulsión eléctrica basada en pila de combustible de hidrógeno.

II Congreso Internacional de Planeación y Logística, escuela Naval Almirante Padilla, Cartagena de Indias, Colombia.

PEÑA, S., VILLA, G., RONQUILLO, S. (2020). Capacidad y uso de tecnología: estudio a nivel de los procesos electroquímicos. Revista Venezolana de Gerencia. Vol. 25, N3. https://produccioncientificaluz.org/index.php/rvg/article/view/33393/35189#

RAMÍREZ, D., VÁSQUEZ, O, RIOLA, J.M., (2022). Contaminación cero: la propulsión basada en hidrógeno del buque colombiano de apoyo a catástrofes. The 2022 Multidisciplinary International Conference of Research Applied to Defense and Security, MICRADS ́22, Barranquilla, Colombia.

ROCA, J. A. (17 de 07 de 2021). El periódico de la energía. Obtenido de https://elperiodicodelaenergia.com/la-estonia-powerup-lanza-un-generador-portatil-de-pila-de-combustible-de-hidrogeno-con-una-potencia-de-400-w/

SANTORO, F. (31 de enero de 2019). La hora del turismo para Colombia. La República. https://www.larepublica.co/analisis/flavia-santoro-2807402/la-hora-del-turismo-para-colombia2822338#

VALDÉS, R., RODRÍGUEZ, L.R., TRICIO, V.,LUCIO, J.H. (2018). Nociones elementales y problemas docentes sobre la producción y utilización de hidrógeno electrolítico obtenido mediante fuentes renovables de energía. Latin- American Journal of Physis Education. Vol.12,No.3. https://dialnet.unirioja.es/servlet/articulo?codigo=6957415

YANMAR HOLDINGS. (2021). Sistema de pila de combustible de hidrógeno. Obtenido de https://www.yanmar.com/co/about/technology/vision1/fuel_cell_system/

USNA. (2021). United States Naval Academy. Consultado el 1 de julio de 2022. Obtenido de https://www.usna.edu/NAOE/_files/documents/Courses/EN400/02.07a%20Ch7%20HW%20Solutions.pdf

LUCO, R.L, FLORES, R.T, BAOS, R.O. (2019). Naval Architecture – From Theory to pratice. Ship Science & Technology – Vol. 13 – n°25 – (27-35) July 2019 – Cartagena (Colombia) 27. https://doi.org/10.25043/19098642.186

COLPRENSA, (2015). El Bita primer río protegido de Colombia. https://www.elcolombiano.com/medio-ambiente/el-bita-primer-rio-protegido-de-colombia-NJ1380249.

DÍAZ, M.P (2023). Balance 2022: turismo en Colombia alcanza cifras prepandemia. https://colombia.ladevi.info/colombia/balance-2022-turismo-colombia-alcanza-cifras-prepandemia-n47349.

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Published

2023-07-31

How to Cite

Naranjo Tabares, D., & Riola Rodríguez, J. M. (2023). Zero Pollution: design of a river tourist pontoon with electric propulsion based on hydrogen fuel cell. Ciencia Y tecnología De Buques, 17(33), 9–19. https://doi.org/10.25043/19098642.238

Issue

Vol. 17 No. 33 (2023)

Section

Scientific and Technological Research Articles

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