Innovación y gestión de programas colaborativa y sincronizada para nuevos programas
Para mantenerse a flote en un entorno extremadamente competitivo, los fabricantes de embarcaciones de recreo y yates deben ofrecer navíos seguros, fiables, sólidos, de alta calidad y de alto rendimiento dentro del plazo y el presupuesto acordados. Para ello, resulta fundamental hacerlo bien desde el primer momento. La implementación de nuestras soluciones de última generación para el diseño, la simulación, la gestión de programas y la fabricación permite planificar, desarrollar y construir de manera eficaz una nueva generación de embarcaciones de recreo y yates.
Today’s marine market demands greener, smarter, and more high-tech vessels. To remain competitive, shipbuilders must deliver those vessels on time, on budget, and on quality. Our Integrated Ship Design and Engineering solution enables marine companies to remain in control of the design spiral. By bringing all their multidisciplinary design data, processes, and tools in one centralized environment, they can break down information and collaboration silos, boost innovation, and improve enterprise productivity.
As the demand for high value-added vessels increases, so does the need to identify and mitigate the risks associated with more complex design and manufacturing processes. This need is compounded by the current climate of unpredictability and increased competition in the shipbuilding market. To remain competitive, a shipyard must deliver bids that are both attractive and accurate. To this end, having a fully planned, resourced, and budgeted end-to-end project management solution has become critical.
To meet today’s regulations and market demands, ships need to be greener, safer, smarter, more cost-effective, more connected, and more adaptable than ever before. As new functionalities are added to what is already a highly complex product, more parties (e.g. suppliers, subcontractors, co-makers) need to be involved in the design, manufacturing, and maintenance processes. With ship service lives reaching up to 40 years for a commercial vessel and 50 years for a naval one, it becomes apparent that robust ship lifecycle management is not optional—it is critical.
Una normativa más estricta en materia ambiental y de seguridad y unos requisitos funcionales cada vez más personalizados han acentuado la demanda de buques más complejos. Esta oleada de complejidad afecta a la planta de producción justo cuando el aumento de la competencia y la creciente incertidumbre económica obligan a los astilleros a reducir los costes de producción y el plazo de comercialización. Para seguir siendo competitivos, los astilleros deben cumplir las especificaciones, los plazos y el presupuesto. Ahora bien, con unos márgenes tan bajos, ¿cómo pueden los constructores navales seguir reduciendo costes de producción sin que ello repercuta en la calidad?
As the economic slowdown continues to impact the already overcrowded shipping market, shipowners and operators are looking to maximize profit margins by lowering operational costs and improving vessel availability. At the same time, the rise of information and communication technology (ICT) is bringing data collection, exchange and analysis to an unprecedented level, opening new horizons for shipping companies and shipbuilders alike. So how can the marine industry capitalize on this sea of newly available data to reduce operational costs and extend vessel availability?
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Shipyards can dramatically improve content creation and management of documentation across the product lifecycle by using PLM to integrate ship design and technical publication domains. Our solutions enable engineering design and technical publication groups to share information across system repositories, reuse content and automate common domain functions and processes.
The demand for sustainable ships is growing significantly. By ensuring that future classes of ships and the shipyards that design and build them are fully compliant with both current and future environmental requirements in all stages of a ship lifecycle, this solution will support your eco-design initiatives and help you minimize the risks and costs associated with noncompliance.
La ingeniería de rendimiento de la hidrodinámica es fundamental para diseñar de manera óptima cualquier navío. Nuestras soluciones permiten el análisis de la hidrodinámica de un navío a escala completa y en condiciones operativas realistas. Utilice un tanque de tracción virtual para examinar cualquier aspecto del flujo o el rendimiento, como la resistencia del casco, la autopropulsión, la capacidad de maniobra, la aceleración del navío o la forma de los extremos y su alineación.
La mejora de la eficiencia de los combustibles exige la adopción de un enfoque integral en lo relativo al diseño de los motores y los sistemas de propulsión. Nuestra cartera, que combina las pruebas y la simulación avanzada, permite la realización de análisis detallados de cada aspecto del diseño y la integración del motor.
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.
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.
Today’s marine market demands greener, smarter, and more high-tech vessels. To remain competitive, shipbuilders must deliver those vessels on time, on budget, and on quality. Our Integrated Ship Design and Engineering solution enables marine companies to remain in control of the design spiral. By bringing all their multidisciplinary design data, processes, and tools in one centralized environment, they can break down information and collaboration silos, boost innovation, and improve enterprise productivity.
As the demand for high value-added vessels increases, so does the need to identify and mitigate the risks associated with more complex design and manufacturing processes. This need is compounded by the current climate of unpredictability and increased competition in the shipbuilding market. To remain competitive, a shipyard must deliver bids that are both attractive and accurate. To this end, having a fully planned, resourced, and budgeted end-to-end project management solution has become critical.
To meet today’s regulations and market demands, ships need to be greener, safer, smarter, more cost-effective, more connected, and more adaptable than ever before. As complexity increases, more parties need to be involved in the vessel design, manufacturing, and maintenance processes. With ship service lives reaching up to 40 years for a commercial vessel and 50 years for a naval one, it becomes apparent that robust ship lifecycle management is not optional; it is critical.
El endurecimiento de la legislación y unos requisitos funcionales cada vez más personalizados han acentuado la demanda de buques más complejos. Esta oleada de complejidad afecta a la planta de producción justo cuando el aumento de la competencia y la creciente incertidumbre económica obligan a los astilleros a reducir los costes de producción y el plazo de comercialización. Para seguir siendo competitivos, los astilleros deben cumplir las especificaciones, los plazos y el presupuesto. Ahora bien, con unos márgenes que ya son tan bajos, ¿cómo pueden los constructores navales seguir reduciendo costes de producción sin que ello repercuta en la calidad?
As the economic slowdown continues to impact the already overcrowded shipping market, ship owners and operators are looking to maximize profit margins by lowering operational costs and improving vessel availability. At the same time, the rise of information and communication technology is opening new horizons for shipping companies and shipbuilders alike. So how can the marine industry capitalize on the sea of newly available data to improve the current ship service and maintenance model?
Displaying of solutions.
El aumento de los estrictos estándares de emisiones y de las normativas están impulsando mejoras en todos los aspectos del rendimiento de los navíos. Para lograr con éxito los objetivos de rendimiento se necesitan diseños innovadores que se materialicen de forma eficaz en cortos períodos de tiempo. Nuestra solución le permite examinar cada detalle del diseño de los navíos y cumplir, e incluso superar, los estándares de diseño requeridos.
Enter the short summary here - no longer than 75 words. This is the version of the summary that will appear when this Solution is used in a promotion format.
Ship construction is a complex and lengthy process that demands careful planning and timely decision-making. Plan, optimize and validate ship construction processes before building. Use a broad range of tools to streamline your process planning workflows, automate non-value-added planning tasks and validate the best shipbuilding plan. These tools facilitate process design and sequencing, production BOM and BOP management, time management, 3D shipyard layout and ergonomic analysis. Control ship and production lifecycles from process planning and detailed engineering to full production by connecting the entire value chain to realize the best production strategy.
HVAC systems are critical for ensuring the safety and comfort of crew members and passengers. Getting HVAC systems right can improve both energy requirements and internal space utilization. Reduce design time and energy consumption, improve production quality, and maximize available internal space with our next-generation software for designing HVAC equipment and systems for ships and offshore structures.
The demand for sustainable ships is growing significantly. By ensuring that future classes of ships and the shipyards that design and build them are fully compliant with both current and future environmental requirements in all stages of a ship lifecycle, this solution will support your eco-design initiatives and help you minimize the risks and costs associated with noncompliance.
La ingeniería de rendimiento de la hidrodinámica es fundamental para diseñar de manera óptima cualquier navío. Nuestras soluciones permiten el análisis de la hidrodinámica de un navío a escala completa y en condiciones operativas realistas. Utilice un tanque de tracción virtual para examinar cualquier aspecto del flujo o el rendimiento, como la resistencia del casco, la autopropulsión, la capacidad de maniobra, la aceleración del navío o la forma de los extremos y su alineación.
La mejora de la eficiencia de los combustibles exige la adopción de un enfoque integral en lo relativo al diseño de los motores y los sistemas de propulsión. Nuestra cartera, que combina las pruebas y la simulación avanzada, permite la realización de análisis detallados de cada aspecto del diseño y la integración del motor.
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.
La optimización del rendimiento aerodinámico de los navíos es fundamental para un funcionamiento seguro y eficaz, así como para la comodidad de los pasajeros. Utilice nuestras soluciones para prever el arrastre de superestructuras y la carga del viento, además de para mejorar la eficiencia aerodinámica. Evalúe las situaciones críticas durante las primeras fases del proceso de diseño utilizando nuestras herramientas de simulación multifísicas para analizar las emisiones y la seguridad del helipuerto.
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.
Today’s marine market demands greener, smarter, and more high-tech vessels. To remain competitive, shipbuilders must deliver those vessels on time, on budget, and on quality. Our Integrated Ship Design and Engineering solution enables marine companies to remain in control of the design spiral. By bringing all their multidisciplinary design data, processes, and tools in one centralized environment, they can break down information and collaboration silos, boost innovation, and improve enterprise productivity.
As the demand for high value-added vessels increases, so does the need to identify and mitigate the risks associated with more complex design and manufacturing processes. This need is compounded by the current climate of unpredictability and increased competition in the shipbuilding market. To remain competitive, a shipyard must deliver bids that are both attractive and accurate. To this end, having a fully planned, resourced, and budgeted end-to-end project management solution has become critical.
To meet today’s regulations and market demands, ships need to be greener, safer, smarter, more cost-effective, more connected, and more adaptable than ever before. As complexity increases, more parties need to be involved in the vessel design, manufacturing, and maintenance processes. With ship service lives reaching up to 40 years for a commercial vessel and 50 years for a naval one, it becomes apparent that robust ship lifecycle management is not optional; it is critical.
As the economic slowdown continues to impact the already overcrowded shipping market, ship owners and operators are looking to maximize profit margins by lowering operational costs and improving vessel availability. At the same time, the rise of information and communication technology is opening new horizons for shipping companies and shipbuilders alike. So how can the marine industry capitalize on the sea of newly available data to improve the current ship service and maintenance model?
Displaying of solutions.
In recent years the marine industry has faced a variety of trends putting pressure on standard design methods and models. It’s become clear, howeve...
As modern ships become increasingly complex, the shipbuilding process also becomes more intricate. This introduces more risk for shipbuilders. An i...
The marine industry is experiencing rapid change, putting pressure on design bureaus, manufacturers, and shippers alike. Managing the growing compl...
Ship operators need to navigate a thin line between being competitive and being profitable. Digital twin technology, when applied to the fleet as a...
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Cox Marine is a British start-up with a serious desire to change things for the better. This is clearly what they've done with their first product, the CXO300 outboard engine, which is packed with punch yet 25% more fuel efficient and cleaner than most other outboards in the global marine industry. One of the most powerful diesel outboards on the market, this high-performance 300 horsepower engine promises to last three times longer than comparable models.
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