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 the performance of systems including propulsion system architectures, hydraulic systems, and environmental control systems.
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 the performance of systems including propulsion system architectures, hydraulic systems, and environmental control systems.
Reducing fuel consumption and emissions to meet environmental regulations requires optimal system performance and controls to design efficient, eco-friendly powertrain systems, including traditional, electric and hybrid. Marine system designers also need to improve overall performance, energy flow, NVH comfort and cargo capacity to differentiate from the competition.
Our system simulation solutions are designed for mechatronic system performance engineering from early design stage through to validation and controls calibration. Develop hybrid marine powertrains faster by selecting efficient architectures, component sizing and related control system strategy. Optimize engine efficiency and energy recovery systems with the early design of new system architectures reducing energy consumption and test costs while improving safety and durability. Our portfolio allows connected system simulation to perform full ship system performance analysis and find optimal fuel consumption for different scenarios.
Our system performance and controls solutions enable:
Explore the key areas of this solution.
Assess and optimize fluid systems’ performance from the beginning of the design cycle. Study energy consumption of pneumatic and hydraulic systems when they interact with their environment, and integrate complex controls from the early development phases.
Address the growing complexity of propulsion systems for the marine industry. Model a wide range of propulsion technologies, from standard fuel systems to novel hybrid or electrified designs. Assess system performance and integration within the vessel.
Address vessel system complexity and integration from the early design phase with our system simulation solutions.
선박 설계용 디지털 트윈은 이미 현실화 됐을까요? 선박 설계에 미치는 영향은 어떠할까요?
시뮬레이션 기반 선박 설계 방식은 비용을 낮추고 설계 시간을 단축할 수 있습니다. 확신을 가지고 목표를 달성하는 방법을 확인해 보십시오. 해양 산업은 선박 효율성을 높이고 배출 가스를 감축해야 하는 지속적인 압박에 놓여 있습니다. 조선소와 선주 모두가 이러한 목표...
Predicting the behavior of any component or system early in the design process
펌프와 컴프레셔는 액체를 펌핑하거나 가스를 순환 또는 압축하기 위해 여러 산업에서 널리 활용됩니다. 흐름, 압력 및 토크 파급 효과가 없는 견고하고 안정적인 회전 기계를 설계하는 것은 복잡한 작업입니다. 에너지 소비, 안전, 소음 및 진동에 대한 규제가 한층 강화...
