Please note! Course description is confirmed for two academic years, which means that in general, e.g. Learning outcomes, assessment methods and key content stays unchanged. However, via course syllabus, it is possible to specify or change the course execution in each realization of the course, such as how the contact sessions are organized, assessment methods weighted or materials used.
LEARNING OUTCOMES
After the course, the student:
• Understands the concept of systems engineering and can apply it to the design of ship and marine traffic systems
• Can describe main systems requirements in ships and marine traffic systems
• Can define and justify the ways to fulfil ships and marine traffic systems requirements
• Can create a concept design of a ship machinery system by selecting appropriate components, guided by principles of energy efficiency and maritime shipping sustainability
• Can apply current regulatory requirements for ship and marine traffic systems
• Can describe how adverse environmental effects of ships can be minimized, below the current and known future requirements
Credits: 5
Schedule: 27.10.2020 - 07.12.2020
Teacher in charge (valid 01.08.2020-31.07.2022): Osiris Valdez Banda
Teacher in charge (applies in this implementation): Osiris Valdez Banda
Contact information for the course (valid 02.10.2020-21.12.2112):
Personnel responisble for the courses:
- Main responsible: Prof. Osiris A. Valdez Banda
- Course assistant: D.Sc. Ahmad Bahoo Toroody
Personnel present in all lectures
CEFR level (applies in this implementation):
Language of instruction and studies (valid 01.08.2020-31.07.2022):
Teaching language: English
Languages of study attainment: English
CONTENT, ASSESSMENT AND WORKLOAD
Content
Valid 01.08.2020-31.07.2022:
Concepts, principles and tools:
System of systems engineering, Ship and marine traffic systems and their integration to ship design, Systems modelling, Design methods and tools (CFD, Augmented Reality “e.g. Digital Twins”, NAPA, etc.)
Ship systems:
Propulsion and plant management, Navigation and maneuvering, Auxiliary power management, Ship Automation, Auxiliary machinery operation, Ballast and trim management. Includes: energy sources and fuel types in modern applications, Modern motor types, exhaust treatment systems, HVAC systems, heat balance and heat recovery systems, energy efficiency, electric systems, fire safety equipment, selected topics on special ship systems (e.g. arctic/sub-arctic conditions).
Marine traffic systems:
Communication and IT equipment, Internet and ship traffic systems, Satellite communication with marine applications, Environmental impact and legislation.Applies in this implementation:
Concepts, principles and
tools:System of systems engineering, Ship and marine traffic systems and their
integration to ship design, Systems modelling, Introduction to design methods and tools (CFD, Augmented
Reality “e.g. Digital Twins”, etc.)Ship systems:
Propulsion and plant management, Navigation and maneuvering, Auxiliary
power management, Ship Automation, Auxiliary machinery operation, Ballast and
trim management. Includes: energy sources and fuel types in modern applications,
Modern motor types, exhaust treatment systems, HVAC systems, heat balance and
heat recovery systems, energy efficiency, electric systems, fire safety
equipment, selected topics on special ship systems (e.g. arctic/sub-arctic
conditions).Marine traffic systems:
Communication and IT equipment, Internet and ship traffic systems,
Satellite communication with marine applications, Environmental impact and
legislation.
Assessment Methods and Criteria
Valid 01.08.2020-31.07.2022:
The project is assessed weekly (after lecture 3), contributing to 40% of the course grade. Feedback and guidance will be given on the assignments, which will allow for the improved submission in the form of a final report. Learning logs should be provided after every two lectures, contributing to 10% of the course grade. The final exam will be 50% of the grade.
Applies in this implementation:
The project is assessed weekly (after lecture 3), contributing to 50% of the
course grade. Feedback and guidance will be given on the assignments, which
will allow for the improved submission in the form of a final report. Learning
logs should be provided after every two lectures, contributing to 10% of the
course grade. The final exam will be 40% of the grade.
Workload
Valid 01.08.2020-31.07.2022:
The course utilizes guided problem-based learning concept. System engineering and its application for designing ship and marine traffic systems are introduced at the beginning of the course. Ship and marine systems requirements are also introduced at the beginning of the course and the lectures evolve around them. The course project is to select, describe and justify the choice of ship and marine traffic systems. The lectures introduce the main type of ship and marine traffic systems or equipment and students afterwards consider that topic for their projects. The course includes 2-3 expert forums where ship and marine traffic systems are presented in the context of current case studies. Projects are carried out in groups of 3-5 students, preferably the same as in Principal Naval Architecture and/or Ship Design Portfolio -courses.
Interactive lectures: 20h (2 x 2h/week, 5 weeks, 10 occasions)
Instructed workshops: 8h (2h/week, 4 weeks)
Group work: 30h (5 hours/week, 6 weeks)
Studying materials: 60h (10 hours/week, 6 weeks)
Preparing for the exam: 20hApplies in this implementation:
The course utilizes guided problem-based learning concept. System
engineering and its application for designing ship and marine traffic systems
are introduced at the beginning of the course. Ship and marine systems
requirements are also introduced at the beginning of the course and the
lectures evolve around them. The course project is to select, describe and
justify the choice of ship and marine traffic systems. The lectures introduce the
main type of ship and marine traffic systems or equipment and students
afterwards consider that topic for their projects. The course includes 2-3
expert forums where ship and marine traffic systems are presented in the
context of current case studies. Projects are carried out in groups of 3-5
students, preferably the same as in Principal Naval Architecture and/or Ship
Design Portfolio -courses.- Interactive
lectures: 20h (2 x 2h/week, 5 weeks, 10 occasions) - Instructed
workshops: 8h (2h/week, 4 weeks) - Group work: 30h (5
hours/week, 6 weeks) - Studying
materials: 60h (10 hours/week, 6 weeks) - Preparing for the exam:
20h
- Interactive
DETAILS
Study Material
Valid 01.08.2020-31.07.2022:
- Kossiakoff, Systems Engineering Principles and Practice, Chapters 1-5 and Sommerville, Software safety, Chapters 19 and 20.
- Lamb, Ship design and construction, SNAME, Chapter 24: Machinery considerations;
- Taggart, Ship design and construction, SNAME, selected chapters,
- Van Dokkum, Ship Knowledge, 3rd edition, Dokmar, selected chapters;
- Additional materials (journal and conference papers etc.) for each topic introduced in the course are provided at the beginning of the course.
Applies in this implementation:
- Kossiakoff, Systems Engineering Principles and
Practice, Chapters 1-5 and Sommerville, Software safety, Chapters 19 and 20. - Lamb, Ship design and construction, SNAME, Chapter 24:
Machinery considerations; - Taggart, Ship design and construction, SNAME, selected
chapters, - Van Dokkum, Ship Knowledge, 3rd edition, Dokmar, selected
chapters; - Additional materials (journal and conference papers
etc.) for each topic introduced in the course are provided at the beginning of
the course.
- Kossiakoff, Systems Engineering Principles and
Substitutes for Courses
Valid 01.08.2020-31.07.2022:
Replaces the course MEC-E2005 Ship Systems; Kul-24.3400 Ship Machinery Systems; Kul-24.4410 Laivan konejärjestelmät II
Prerequisites
Valid 01.08.2020-31.07.2022:
Recommended MEC-E1004 Principles of Naval Architecture
FURTHER INFORMATION
Details on the schedule
Applies in this implementation:
The course schedule is as presented in Oodi and the calendar added in MyCourses