About corse

The maritime industry is undergoing a significant transformation, driven by advancements in technology and the growing demand for efficient and environmentally sustainable vessels. Modern ship design and engineering require a comprehensive understanding of various engineering principles, design methodologies, and regulatory standards. This professional training course aims to equip participants with the necessary skills and knowledge to navigate the complexities of advanced ship design, ensuring that they remain at the forefront of industry innovations. Participants will explore the latest trends and technologies shaping the future of vessel design, including the integration of digital tools, sustainable practices, and the importance of regulatory compliance. Throughout the course, attendees will engage in a blend of theoretical knowledge and practical applications, fostering a deeper understanding of the entire ship design process. By collaborating with industry experts and peers, participants will enhance their problem-solving abilities and critical thinking skills tailored specifically to modern engineering challenges.

The Objectives

• Understand advanced principles of ship design and engineering.
• Analyze modern vessel requirements for efficiency and sustainability.
• Explore innovative technologies in ship design.
• Develop skills in regulatory compliance and industry standards.
• Enhance practical problem-solving and critical-thinking abilities.
• Foster collaboration and knowledge exchange among industry professionals.

Training Methodology

• Interactive workshops and hands-on sessions.
• Case studies and real-world applications.
• Group discussions and peer-to-peer learning.
• Guest lectures from industry experts.
• Simulations and design software training.
• Assessments to evaluate knowledge and skills.

WHO SHOULD ATTEND

• Marine engineers and naval architects.
• Ship design professionals and project managers.
• Regulatory compliance officers in maritime sectors.
• Technicians and support staff in shipbuilding industries.
• Professionals involved in maritime technology and innovation.
• Students and educators in marine engineering disciplines.

Course Outlines

Day 1: Introduction to Advanced Ship Design

• Overview of ship design principles.
• Historical evolution of shipbuilding.
• Key challenges in modern ship design.
• Introduction to naval architecture.
• Regulatory frameworks and compliance.
• Design process and methodologies.

    Day 2: Structural Design and Materials

• Fundamentals of ship structural integrity.
• Common materials used in shipbuilding.
• Advanced composite materials.
• Weight optimization techniques.
• Impact of corrosion and maintenance strategies.
• Case studies on structural failures.

Day 3: Hydrodynamics and Performance

• Basics of fluid dynamics in ship design.
• Resistance and propulsion efficiency.
• Computational fluid dynamics (CFD) applications.
• Hull form optimization techniques.
• Performance prediction and testing methods.
• Practical exercises in hydrodynamic modeling.

Day 4: Propulsion Systems and Energy Efficiency

• Overview of modern propulsion systems.
• Hybrid and alternative fuel technologies.
• Energy efficiency measures in vessel design.
• Integration of renewable energy sources.
• Environmental regulations and compliance.
• Hands-on sessions with propulsion design tools.

Day 5: Safety and Risk Management in Ship Design

• Principles of safety in shipbuilding.
• Risk assessment methodologies.
• Emergency procedures and contingency planning.
• Regulatory safety standards and guidelines.
• Case studies on maritime accidents.
• Workshops on developing safety management systems.

Training Method?

• Pre-assessment
• Live group instruction
• Use of real-world examples, case studies and exercises
• Interactive participation and discussion
• Power point presentation, LCD and flip chart
• Group activities and tests
• Each participant receives a copy of the presentation
• Slides and handouts

Training Method?

The course agenda will be as follows:

• Technical Session 30-10.00 am
• Coffee Break 00-10.15 am
• Technical Session 15-12.15 noon
• Coffee Break 15-12.45 pm
• Technical Session 45-02.30 pm
• Course Ends 30 pm