Resistance, powering and seakeeping of shipsLaajuus (5 cr)
Code: 5031335
Credits
5 op
Objective
The student is able to determine the main engine power for ships and boats with one method and make a sea trial prediction. The student can use the basic concepts of ships and boats motions in regular waves in his/her work.
Content
The course of Resistance, Powering and Seakeeping of Ships relates to engine power prediction, propeller design, and motions of ships and other structures in regular waves.
Enrollment
09.12.2023 - 07.01.2024
Timing
08.01.2024 - 26.04.2024
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Engineering and Business
Teaching languages
- Finnish
Seats
5 - 30
Teachers
- Pekka Juuti
- Lauri Kosomaa
Teacher in charge
Lauri Kosomaa
Groups
-
KMMMODLaivanVakavuusJaRungonSuunnittelu
Objective
The student is able to determine the main engine power for ships and boats with one method and make a sea trial prediction. The student can use the basic concepts of ships and boats motions in regular waves in his/her work.
Content
The course of Resistance, Powering and Seakeeping of Ships relates to engine power prediction, propeller design, and motions of ships and other structures in regular waves.
Teaching methods
Theory, model tests, exercises.
Content scheduling
Short recap on fluid mechanics, ship resistance and power requirement, ship propellers, propeller design and optimization, fitting the main engine to the propeller, seaworthiness and maneuvering.
Evaluation scale
H-5
Assessment methods and criteria
Exam 24 p. Possible 4 bonus points from given exercises
Grades:
33% = 8p = 1 (this has to be reached without the bonus points, the stability calculation in midterm 2 has to be right)
41% max =2
55% max =3
70% max =4
80% max =5
max = 24+4 = 28 p
Enrollment
10.12.2022 - 08.01.2023
Timing
09.01.2023 - 28.04.2023
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Engineering and Business
Teaching languages
- Finnish
Seats
5 - 30
Teachers
- Pia Tulimaa
- Lauri Kosomaa
Groups
-
KMMMODLaivanVakavuusJaRungonSuunnittelu
Objective
The student is able to determine the main engine power for ships and boats with one method and make a sea trial prediction. The student can use the basic concepts of ships and boats motions in regular waves in his/her work.
Content
The course of Resistance, Powering and Seakeeping of Ships relates to engine power prediction, propeller design, and motions of ships and other structures in regular waves.
Teaching methods
Theory, model tests, exercises.
Content scheduling
Short recap on fluid mechanics, ship resistance and power requirement, ship propellers, propeller design and optimization, fitting the main engine to the propeller, seaworthiness and maneuvering.
Evaluation scale
H-5
Assessment methods and criteria
Exam 24 p. Possible 4 bonus points from given exercises
Grades:
33% = 8p = 1 (this has to be reached without the bonus points, the stability calculation in midterm 2 has to be right)
41% max =2
55% max =3
70% max =4
80% max =5
max = 24+4 = 28 p
Enrollment
04.12.2021 - 09.01.2022
Timing
10.01.2022 - 31.05.2022
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Engineering and Business
Teaching languages
- English
Teachers
- Pia Tulimaa
- Lauri Kosomaa
Groups
-
KMMMODLaivanVakavuusJaRungonSuunnittelu
Objective
The student is able to determine the main engine power for ships and boats with one method and make a sea trial prediction. The student can use the basic concepts of ships and boats motions in regular waves in his/her work.
Content
The course of Resistance, Powering and Seakeeping of Ships relates to engine power prediction, propeller design, and motions of ships and other structures in regular waves.
Teaching methods
Theory, model tests, exercises.
Content scheduling
Short recap on fluid mechanics, ship resistance and power requirement, ship propellers, propeller design and optimization, fitting the main engine to the propeller, seaworthiness and maneuvering.
Evaluation scale
H-5
Assessment methods and criteria
Exam 24 p. Possible 4 bonus points from given exercises
Grades:
33% = 8p = 1 (this has to be reached without the bonus points, the stability calculation in midterm 2 has to be right)
41% max =2
55% max =3
70% max =4
80% max =5
max = 24+4 = 28 p