Stress analysis of a submersible longline culture system through dynamic simulation

Jesús López, Carlos Felipe Hurtado, Allan Gómez, Víctor Zamora, Dante Queirolo, Alfonso Gutiérrez

Submited: 2016-03-24 13:42:10 | Published: 2017-03-08 13:10:07

DOI: https://doi.org/10.3856/vol45-issue1-fulltext-3

Abstract


This study analyzed the stresses on a submersible longline culture system subjected to both parallel and perpendicular oceanographic conditions of 0.5 and 1 m s-1 current velocity with 2 to 5 m wave height, using a dynamic simulation model based on the finite element method. Results indicated that when the culture system is submerged, the stress on mooring lines, the main line and whip lines decreases until a 55%. Additionally, changing the direction of the current and waves results in differences ranging from -59% to 312%. It was established that in an environment involving high-energy events, it is structurally possible to submerge the longline culture system in a direction parallel to oceanographic parameters, which could have positive implications for reducing the loss of cultivated biomass and improving productive conditions. 


López J, Hurtado C, Gómez A, Zamora V, Queirolo D, Gutiérrez A. Stress analysis of a submersible longline culture system through dynamic simulation. Lat. Am. J. Aquat. Res.. 2017;45(1): 25-32. Available from: doi:10.3856/vol45-issue1-fulltext-3 [Accessed 2 Dec. 2024].
López, J., Hurtado, C., Gómez, A., Zamora, V., Queirolo, D., & Gutiérrez, A. (2017). Stress analysis of a submersible longline culture system through dynamic simulation. Latin American Journal of Aquatic Research, 45(1), 25-32. doi:http://dx.doi.org/10.3856/vol45-issue1-fulltext-3