Aerospaziale e difesa
Innovazione e gestione dei programmi sincronizzata e collaborativa per i nuovi programmi
Gli armatori e gli operatori del settore stanno modernizzando le proprie flotte. Il vostro cantiere è in grado di conquistare una fetta importante di quel mercato? No, se ancora progetta e costruisce navi come cinque anni fa. La nostra prospettiva "Future Fleet" dimostra come promuovere l'innovazione nella cantieristica navale con un software apposito che consente di progettare, realizzare e costruire navi migliori e più affidabili e di massimizzare la quota di mercato delle flotte future.
Migliorare produttività e prestazioni delle flotte future
Fornitori del settore navale impegnati nella progettazione e produzione di attrezzature e sistemi per le flotte future
Progettazione, produzione e sostenibilità per imbarcazioni da diporto e yacht ad alte prestazioni
Princess Yachts uses advanced NVH (Noise, Vibration, Harshness) technology to support artisanal luxury yacht production. Nick Williamson, director of development, and Michal Tomaszczyk, lead NVH engineer, explain how Siemens’ mechanical design, data management, and simulation solutions support the artisanal production experience that is at the core of this market-leading luxury yacht manufacturer.
Siemens PLM Software solution enables Twin Marine Heavylift to predict complex phenomenaSee all Success Stories
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Increasingly stringent emission standards and regulations are forcing improvement in all aspects of ship performance. Successfully achieving performance targets requires innovative designs to be effectively delivered in short time frames. Our solutions enable you to examine every aspect of ship design and meet and exceed required design standards.
Hydrodynamic performance engineering is critical to the optimal design of any vessel. Our solutions enable analysis of vessel hydrodynamics at full scale, and under realistic operating conditions. Use a virtual towing tank to examine any flow or performance aspect such as hull resistance, self-propulsion, maneuvering, vessel acceleration, or appendage shape, and alignment.
Improving fuel efficiency requires a holistic approach to engine and powertrain design. Our combined portfolio of testing and advanced simulation enables detailed analysis of every aspect of engine design and integration.
Sound structural integrity is critical for viable operation, crew and passengers’ safety and comfort, as well as minimal environmental impact. Our simulation and testing solutions can predict fatigue life and hotspots while optimizing a product for durability.
Propeller performance is the key for efficient conversion of generated power into thrust force. We provide all the necessary tools to analyze propulsion system performance, from the propeller in isolation to sub-systems and full system performance for complete power management. Predict propeller performance, cavitation, and erosion using our hydrodynamics simulation capabilities, then analyze noise and dynamic response, vibration and structural integrity with our powerful 3D tools.
Optimizing vessel aerodynamic performance is essential for safe and efficient operation, as well as passenger comfort. Use our solutions to predict superstructure drag and wind loading, and improve aerodynamic efficiency. Assess critical situations early in the design process by using our multiphysics simulation tools to analyze emissions and helipad safety.
Ensuring efficient vessel performance requires integration and optimization of multiple complex systems. Our solutions allow designers to check system architecture impacts on the complete vessel performance before any physical development takes place. Simulate and validate components early in the design cycle, and accurately predict system performance.
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