Methods for Naval Ship Concept Exploration Interfacing Model Center and ASSET with Machinery System Tools
In response to the Fiscal Year 2006 National Defense Authorization Act, the US Navy conducted an evaluation of alternative propulsion methods for surface combatants and amphibious warfare ships. The study looked at current and future propulsion technology and propulsion alternatives for these three...
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ndltd-VTETD-oai-vtechworks.lib.vt.edu-10919-330362020-09-26T05:38:03Z Methods for Naval Ship Concept Exploration Interfacing Model Center and ASSET with Machinery System Tools Strock, Justin William Aerospace and Ocean Engineering Brown, Alan J. McCue-Weil, Leigh S. Neu, Wayne L. ASSET Model Center Optimization In response to the Fiscal Year 2006 National Defense Authorization Act, the US Navy conducted an evaluation of alternative propulsion methods for surface combatants and amphibious warfare ships. The study looked at current and future propulsion technology and propulsion alternatives for these three sizes of warships. In their analysis they developed 23 ship concepts, only 7 of which were variants of medium size surface combatants (MSC,21,000-26,000 MT). The report to Congress was based on a cost analysis and operational effectiveness analysis of these variants. The conclusions drawn were only based on the ship variants they developed and not on a representative sample of the feasible, non-dominated designs in the design space. <p> This thesis revisits the Alternative Propulsion Study results for a MSC, which were constrained by the inability of the Navyâ s design tools to adequately search the full design space. This thesis will also assess automated methods to improve the APS approach, and examine a range of power generation alternatives using realistic operational profiles and requirements to develop a notional medium surface combatant (CGXBMD). It is essential to base conclusions on the non-dominated design space, and this new approach will use a multi-objective optimization to find non-dominated designs in the specified design space and use new visualization tools to assess the characteristics of these designs. This automated approach and new tools are evaluated in the context of the revisited study. Master of Science 2014-03-14T20:37:45Z 2014-03-14T20:37:45Z 2008-04-24 2008-05-20 2010-12-22 2008-06-24 Thesis etd-05202008-220630 http://hdl.handle.net/10919/33036 http://scholar.lib.vt.edu/theses/available/etd-05202008-220630/ Strock_Thesis_V4.3.pdf In Copyright http://rightsstatements.org/vocab/InC/1.0/ application/pdf Virginia Tech |
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ASSET Model Center Optimization Strock, Justin William Methods for Naval Ship Concept Exploration Interfacing Model Center and ASSET with Machinery System Tools |
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In response to the Fiscal Year 2006 National Defense Authorization Act, the US Navy conducted an evaluation of alternative propulsion methods for surface combatants and amphibious warfare ships. The study looked at current and future propulsion technology and propulsion alternatives for these three sizes of warships. In their analysis they developed 23 ship concepts, only 7 of which were variants of medium size surface combatants (MSC,21,000-26,000 MT). The report to Congress was based on a cost analysis and operational effectiveness analysis of these variants. The conclusions drawn were only based on the ship variants they developed and not on a representative sample of the feasible, non-dominated designs in the design space.
<p>
This thesis revisits the Alternative Propulsion Study results for a MSC, which were constrained by the inability of the Navyâ s design tools to adequately search the full design space. This thesis will also assess automated methods to improve the APS approach, and examine a range of power generation alternatives using realistic operational profiles and requirements to develop a notional medium surface combatant (CGXBMD). It is essential to base conclusions on the non-dominated design space, and this new approach will use a multi-objective optimization to find non-dominated designs in the specified design space and use new visualization tools to assess the characteristics of these designs. This automated approach and new tools are evaluated in the context of the revisited study. === Master of Science |
author2 |
Aerospace and Ocean Engineering |
author_facet |
Aerospace and Ocean Engineering Strock, Justin William |
author |
Strock, Justin William |
author_sort |
Strock, Justin William |
title |
Methods for Naval Ship Concept Exploration Interfacing Model Center and ASSET with Machinery System Tools |
title_short |
Methods for Naval Ship Concept Exploration Interfacing Model Center and ASSET with Machinery System Tools |
title_full |
Methods for Naval Ship Concept Exploration Interfacing Model Center and ASSET with Machinery System Tools |
title_fullStr |
Methods for Naval Ship Concept Exploration Interfacing Model Center and ASSET with Machinery System Tools |
title_full_unstemmed |
Methods for Naval Ship Concept Exploration Interfacing Model Center and ASSET with Machinery System Tools |
title_sort |
methods for naval ship concept exploration interfacing model center and asset with machinery system tools |
publisher |
Virginia Tech |
publishDate |
2014 |
url |
http://hdl.handle.net/10919/33036 http://scholar.lib.vt.edu/theses/available/etd-05202008-220630/ |
work_keys_str_mv |
AT strockjustinwilliam methodsfornavalshipconceptexplorationinterfacingmodelcenterandassetwithmachinerysystemtools |
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1719342686991810560 |