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https://doi.org/10.37358/Rev.Chim.1949

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Revista de Chimie (Rev. Chim.), Year 2019, Volume 70, Issue 10, 3508-3511

https://doi.org/10.37358/RC.19.10.7585

Ionut Cristian Scurtu, Valeriu Nicolae Panaitescu

Turbulent Flow Numerical Simulation for Unconventional Propulsion

Abstract:

This paper presents mainly a new HPC/CFD numerical simulation for airflow around the rigid sail for Lupo90 boat in Constanta harbor conditions. The first part of the work displays the performed numerical simulation in turbulent flow based on the 3D sail. The presented model has high capacity of towing and it can be installed onboard existing ships. This is the result of the HPC (high performance computing) and CFD (computational fluid dynamics) which is a mixture of actual hardware and software at high level computing power applied to Lupo90 boat. All data for rigid sail is analyzed in a turbulent flow in commercial fluid dynamics ANSYS module CFX available at Naval Academy and the work was supported by Romanian Ministry of Defense. Sail performance studying in turbulent flow for the rigid sail onboard ships was always a huge computational difficulty and the HPC/CFD analysis available can solve tricky tasks. The most common unconventional systems are hybrid propulsion systems are using fossil fuel and wind energy, this type of HPC/CFD method for propulsion investigation is now implemented by craft constructor CirusPlast SRL.
Keywords:
numerical simulation; turbulent airflow; sail propulsion

Issue: 2019, Volume 70, Issue 10
Pages: 3508-3511
Publication date: 2019/11/15
https://doi.org/10.37358/RC.19.10.7585
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Creative Commons License
This article is published under the Creative Commons Attribution 4.0 International License
Citation Styles
Cite this article as:
SCURTU, I.C., PANAITESCU, V.N., Turbulent Flow Numerical Simulation for Unconventional Propulsion, Rev. Chim., 70(10), 2019, 3508-3511.

Vancouver
Scurtu IC, Panaitescu VN. Turbulent Flow Numerical Simulation for Unconventional Propulsion. Rev. Chim.[internet]. 2019 Oct;70(10):3508-3511. Available from: https://doi.org/10.37358/RC.19.10.7585


APA 6th edition
Scurtu, I.C., Panaitescu, V.N. (2019). Turbulent Flow Numerical Simulation for Unconventional Propulsion. Revista de Chimie, 70(10), 3508-3511. https://doi.org/10.37358/RC.19.10.7585


Harvard
Scurtu, I.C., Panaitescu, V.N. (2019). 'Turbulent Flow Numerical Simulation for Unconventional Propulsion', Revista de Chimie, 70(10), pp. 3508-3511. https://doi.org/10.37358/RC.19.10.7585


IEEE
I.C. Scurtu, V.N. Panaitescu, "Turbulent Flow Numerical Simulation for Unconventional Propulsion". Revista de Chimie, vol. 70, no. 10, pp. 3508-3511, 2019. [online]. https://doi.org/10.37358/RC.19.10.7585


Text
Ionut Cristian Scurtu, Valeriu Nicolae Panaitescu,
Turbulent Flow Numerical Simulation for Unconventional Propulsion,
Revista de Chimie,
Volume 70, Issue 10,
2019,
Pages 3508-3511,
ISSN 2668-8212,
https://doi.org/10.37358/RC.19.10.7585.
(https://revistadechimie.ro/Articles.asp?ID=7585)
Keywords: numerical simulation; turbulent airflow; sail propulsion


RIS
TY - JOUR
T1 - Turbulent Flow Numerical Simulation for Unconventional Propulsion
A1 - Scurtu, Ionut Cristian
A2 - Panaitescu, Valeriu Nicolae
JF - Revista de Chimie
JO - Rev. Chim.
PB - Revista de Chimie SRL
SN - 2668-8212
Y1 - 2019
VL - 70
IS - 10
SP - 3508
EP - 3511
UR - https://doi.org/10.37358/RC.19.10.7585
KW - numerical simulation
KW - turbulent airflow
KW - sail propulsion
ER -


BibTex
@article{RevCh2019P3508,
author = {Scurtu Ionut Cristian and Panaitescu Valeriu Nicolae},
title = {Turbulent Flow Numerical Simulation for Unconventional Propulsion},
journal = {Revista de Chimie},
volume = {70},
number = {10},
pages = {3508-3511},
year = {2019},
issn = {2668-8212},
doi = {https://doi.org/10.37358/RC.19.10.7585},
url = {https://revistadechimie.ro/Articles.asp?ID=7585}
}
 
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