Abstract

<p>A modular and integrated optimisation model for the design of underwater vehicles is presented. In the proposed optimisation model two modules (i.e. low fidelity and high fidelity) are incorporated and the basic geometric definition of computer aided design (CAD) is integrated with computational fluid dynamic (CFD) analysis. The hydrodynamic drag is considered as single objective with constraints on the geometric parameters of dimension, space and volume. The CAD model is implemented in MATLAB*TM and CFD model is implemented in Shipflow**TM. A real-world design example of an existing underwater vehicles is presented. The applicability of proposed optimisation model is shown. The presented results show that within given set or sets of constraints the application of optimisation model in design results into an efficient hull form.</p><p><strong>Defence Science Journal, Vol. 66, No. 1, January 2016, pp. 71-80, DOI: http://dx.doi.org/10.14429/dsj.66.8889</strong></p>

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Identification of particular hydrodynamic parameters for a modular type 4 DOF underwater vehicle by means of CFD method
Serhat Yilmaz ... Gülten Altıokka Yılmaz
Industrial Robot: An International Journal | VOL. 50
Serhat Yilmaz, et. al.Serhat Yilmaz ... Gülten Altıokka Yılmaz
05 Jan 2022
Accurate thermal boundary condition to predict hot spot temperature using Electro-Thermal Analysis
R Kibushi ... T Hatakeyama
-
R Kibushi, et. al.R Kibushi ... T Hatakeyama
01 Apr 2016
Cardioplegia heat exchanger design modelling using computational fluid dynamics.
Michael R Van Driel
Perfusion | VOL. 15
Michael R Van DrielMichael R Van Driel
01 Dec 2000
An optimization model incorporating clash free mechanism for design of AUVs
K L Vasudev ... S K Bhattacharyya
-
K L Vasudev, et. al.K L Vasudev ... S K Bhattacharyya
01 Feb 2015
View more papers

More From: Defence science journal

Paper Title
Journal
Date
Author
Investigation of Transonic Flow Features in an Axial Flow Compressor Rotor
A M Pradeep ... Satish Kumar S
Defence science journal | VOL. 74
A M Pradeep, et. al.A M Pradeep ... Satish Kumar S
26 Mar 2024
Identification of Hand Tremor Levels in Shooting Activities Under Different Shooting Positions Using a Low Cost and Portable System
Rini Nur Hasanah ... Jeki Saputra
Defence science journal | VOL. 74
Rini Nur Hasanah, et. al.Rini Nur Hasanah ... Jeki Saputra
26 Mar 2024
Evaluation of Boron Combustion for Ducted Rocket Applications Using Condensed Product Analysis
Arnab Roy ... Syed Alay Hashim
Defence science journal | VOL. 74
Arnab Roy, et. al.Arnab Roy ... Syed Alay Hashim
26 Mar 2024
High Speed Coding Unit Depth Identification Based on Texture Image Information Using SVM
Kota Naga Srinivasarao Batta ... Pattimi Hari
Defence science journal | VOL. 74
Kota Naga Srinivasarao Batta, et. al.Kota Naga Srinivasarao Batta ... Pattimi Hari
26 Mar 2024
View more papers