점점 더 엄격해지는 매연 배출 표준과 규제로 인해 선박 성능의 모든 측면에서 개선이 필요하게 되었습니다. 성능 목표를 성공적으로 달성하기 위해서는 혁신적인 설계를 짧은 기간 안에 효율적으로 제공할 수 있어야 합니다. Siemens 솔루션을 사용하면 선박 설계의 모든 측면을 실험하고 필요한 설계 표준을 충족하거나 그 이상의 만족도를 제공할 수 있습니다.

This solution is crucial to designing, building and sustaining future fleets on time, on budget and on performance. Additionally, it is essential for shipyards that plan to provide through-life service and support, and for fleet operating staff who have similar responsibilities.

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.

Composite Engineering and Manufacturing enables marine engineers to develop complex marine structures for the most challenging applications, and ensures reasonable manufacturing efficiency and production yields. With this solution, shipyards can be confident that their marine composite structures meet requirements for strength, weight and durability. Additionally, the solution provides shipyards and marine service centers with capabilities to manufacture replacement composite structures.

Transform your shipyard into a seamlessly integrated and synchronized enterprise linking designers, engineers, production specialists, support teams, partners and suppliers to optimize performance, maximize lifecycle productivity and sustain competitiveness. Our holistic shipbuilding solution spans the entire shipbuilding enterprise and lifecycle to enable shipbuilders to integrate their organizational knowledge, automate processes throughout the product lifecycle and improve efficiency, accuracy and execution to reduce time-to-delivery.

Today’s ships are far more complex to design, build and maintain throughout their lifecycle than they ever were before. Our solutions accelerate the development of modern ships and offshore structures so you can better respond to today’s demand for more energy-efficient, reliable and environmentally friendly vessels with better overall performance and lower total operating costs. Reduce design time and improve quality of production with next-gen software for piping, equipment and systems design for ships and offshore structures.

Accelerate the development of modern ships and offshore structures to respond to today’s demand for more energy-efficient, reliable and environmentally friendly vessels with high performance and low total operating costs. Reduce design times and improve quality of production with a next-generation software for design of steel outfitting parts and all mechanical equipment, components and systems.

Accelerate ship and offshore structure development to respond to today’s demand for energy-efficient, reliable and environmental-friendly ships and offshore structures with high performance and low operating costs. Use the focused environment provided in our next-generation ship structure design software to model and manufacture complete ship structures.

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.

유체 역학 성능 엔지니어링은 선박을 최적으로 설계하는 데 매우 중요합니다. Siemens 솔루션을 사용하면 전체적으로 현실적인 작동 조건에서 선박의 유체 역학을 해석할 수 있습니다. 가상 예인 탱크를 사용하여 선체 저항, 자동 추진, 조종, 선박 가속 또는 부속물 형상 및 배치 등의 모든 흐름 또는 성능 측면을 실험하십시오.

연료 효율을 개선하기 위해서는 엔진 및 파워트레인 설계에 대한 종합적인 접근방식이 필요합니다. 테스트와 고급 시뮬레이션이 결합된 Siemens 포트폴리오를 사용하면 엔진 설계와 통합의 모든 측면을 상세하게 해석할 수 있습니다.

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.

선박의 공기 역학적 성능을 최적화하는 것은 승객의 쾌적성은 물론 안전하고 효율적인 작업을 위해 필수적입니다. Siemens 솔루션을 사용하여 상부 구조물의 항력과 풍하중을 예측하고 공기 역학적 효율을 개선하십시오. Siemens의 다중 물리학 시뮬레이션 도구를 사용하여 매연 배출과 헬리패드 안전성을 분석함으로써 설계 프로세스 초기에 심각한 상황을 평가하십시오.

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.

오늘날의 규정과 시장의 요구를 충족하려면 선박은 그 어느 때보다 친환경적이고 안전하고 스마트하고 비용 효율적이며, 연결성 및 적응력이 높아야 합니다. 복잡성이 증가함에 따라 더 많은 관계자가 선박 설계, 제조 및 유지보수 프로세스에 참여해야 합니다. 선박의 서비스 수명이 상업적 선박의 경우 40년, 해군 선박의 경우 50년에 이를 수 있다는 점을 염두에 두면 강력한 선박 라이프사이클 관리는 선택이 아닌 필수임이 분명해집니다.

더 엄격한 규정과 점점 더 맞춤화된 기능적 요구 사항으로 인해 보다 복잡한 선박에 대한 수요가 증가하고 있습니다. 경쟁이 심화되고 경제적 불확실성이 증가함에 따라 조선소에서 생산비를 절감하고 시장 출시 기간을 단축해야 하는 것처럼 이러한 복잡성의 물결이 제조 현장을 강타하고 있습니다. 조선소가 경쟁력을 유지하려면 정해진 예산 안에서 사양을 준수하여 제시간에 납품해야 합니다. 하지만 이미 마진이 매우 낮은 상황에서 조선업체들이 품질의 저하 없이 생산비를 계속 절감할 수 있는 방법은 무엇일까요?

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?