Innovation et gestion de programmes synchronisée et collaborative pour les nouveaux programmes
Improving fuel efficiency requires a holistic approach to engine and powertrain design. Our combined portfolio of testing and advanced simulation tools enables detailed component-level analysis, such as in-cylinder flow. Use integrated systems analysis to look at engines, electric generators, power electronics, and cooling systems. Critical performance areas such as component fatigue and durability, battery optimization, electrical motor design, and energy consumption can all be investigated using our simulation and testing tools.
Improving fuel efficiency requires a holistic approach to engine and powertrain design. Our combined portfolio of testing and advanced simulation tools enables detailed component-level analysis, such as in-cylinder flow. Use integrated systems analysis to look at engines, electric generators, power electronics, and cooling systems. Critical performance areas such as component fatigue and durability, battery optimization, electrical motor design, and energy consumption can all be investigated using our simulation and testing tools.
From the biggest, most powerful diesel engines to nuclear power on icebreakers to modern electric propulsion onboard vessels, marine engine design is striving to be energy-efficient.
Our solution portfolio is uniquely positioned to bring better engines to the market faster with a simulation-based design approach assessing engine performance and operation from component to full-system levels. Using a combination of simulation, testing, and optimization tools as well as specialized solutions for traditional and alternative propulsion systems, our portfolio enables you to design and integrate an optimal engine system for your vessel.
Our solutions can be used to:
Explore the key areas of this solution.
Use simulation tools to develop fuel-efficient, cleaner diesel engines. Adopt a compromise-free approach to physics modeling using our comprehensive range of simulation tools.
Ensure reliable vessel power supply by improving battery design across its whole operating range.
Design and optimize the complete engine system, including thermal management and powertrain components. Investigate alternative engine architectures and concepts early in the design phase.
Learn how Siemens Energy create high fidelity turbine simulations by combining results from different disciplines, to create efficient and reliable...
The marine industry is under continuous pressure to improve vessel efficiency and reduce emissions. The only way to comply with new environmental r...
Learn how co-simulation can predict ship emissions and required engine power
Découvrez comment les utilisateurs de Creo peuvent exploiter la simulation