Diesel engines 1 (1 cr)
Code: MI00DR49-3007
General information
- Enrollment
-
06.04.2023 - 21.04.2023
Registration for the implementation has ended.
- Timing
-
04.09.2023 - 22.10.2023
Implementation has ended.
- Number of ECTS credits allocated
- 1 cr
- Local portion
- 1 cr
- Mode of delivery
- Contact learning
- Unit
- Department of Logistics and Marine Technology
- Campus
- Kotka Campus
- Teaching languages
- Finnish
- Seats
- 12 - 40
- Degree programmes
- Degree Programme in Marine Engineering
- Teachers
- Roopertti Tikkanen
- Teacher in charge
- Roopertti Tikkanen
- Groups
-
MIKT22SPMarine Engineering, full-time studies
- Course
- MI00DR49
Objective
Knowledge and understanding of and proficiency in:
- basics in internal combustion engines, working principles and design
- auxiliary equipment and systems of marine diesel engines
- basic IC-engine concepts and general equations of design and performance
- principles of 2-stroke and 4-storke marine diesel engines and their exploitation as prime movers of propulsion and in electric power production
- operation procedures and monitoring of diesel engines as a watchkeeping officer
- basic maintenance and service tasks of marine diesel engines
Content
- theory of internal combustion engines and primarily diesel engines, engine constructions and concepts including associated basic calculations
- basic types of marine diesel engines; trunk piston engines and crosshead engines
- diesel engine as a prime mover in propulsion and electric generation
- auxiliary equipment, systems and devices of engines
- isolation of engines, and safety at work when servicing marine diesel engines
- most common monitoring and maintenance methods of diesel engines
- safety equipment and failure detection of diesel engines
Evaluation
Students can
- use professional vocabulary systematically
- look for information in the key information sources of the field
- identify interrelated tasks
- use the key models, methods, software and techniques of the professional field
In addition, competence evaluation according to STCW code table A-III/1 column 4 are used:
- construction and operating mechanisms can be understood and explained with drawings/instructions
-the causes of machinery malfunctions are promptly identified and actions are designed to ensure the overall safety of the ship and the plant, having regard to the prevailing circumstances and conditions
- the output of plant and engineering systems consistently meets requirements, including bridge orders relating to changes in speed and direction
- safety procedures followed are appropriate
Course material
Study material provided by the teacher on Learn.
Study forms and methods
In the work week-based pathway, students participate in teaching and supervision according to the reading schedule.
RDI and work-related cooperation
Course can possibly include RDI and work-related cooperation.
Evaluation scale
1-5
Assessment methods and criteria
Tentti ja/tai mahdolliset arviointiin vaikuttavat harjoitustehtävät sovitaan opintojakson johdantoluennolla.
Qualifications
- Operation technology and engineering watch 1
- Ship machinery 1