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Ship TheoryLaajuus (1.75 cr)

Code: MO22O308

Credits

1.75 op

Objective

STCW-Code:Table A-III/1
The student:
• has knowledge of vessel types, dimensions, ship drawings, hull structure, ship stability, corrosion, hull maintenance, breakdowns, international regulations, fire protection, main and auxiliary machinery types.

Content

• Ship Types
• The vessel's main dimensions and deadweight
• Vessel Drawings
• The structure and load of the hull
• Hull breakdowns and factors that weaken the hull
• Corrosion, corrosion protection and hull maintenance
• Ship stability and stability factors
• Power requirements and methods for calculating drag resistance
• Main and the auxiliary engine types and their characteristics
• International regulations, IMO, SOLAS, MARPOL
• Fire protection, fire detection/isolation and fire construction
• Tanker types and the most important characteristics of different loads

Qualifications

None

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Enrollment

01.12.2024 - 16.02.2025

Timing

17.02.2025 - 21.03.2025

Number of ECTS credits allocated

1 op

Mode of delivery

Contact teaching

Unit

Faculty of Technology and Seafaring

Teaching languages
  • English
Degree programmes
  • Degree Programme in Maritime Technology
Teachers
  • Stefan Sundström
Groups
  • MT24D-Å
    Maritime Technology, h24, daytimeme studies

Objective

STCW-Code:Table A-III/1
The student:
• has knowledge of vessel types, dimensions, ship drawings, hull structure, ship stability, corrosion, hull maintenance, breakdowns, international regulations, fire protection, main and auxiliary machinery types.

Content

• Ship Types
• The vessel's main dimensions and deadweight
• Vessel Drawings
• The structure and load of the hull
• Hull breakdowns and factors that weaken the hull
• Corrosion, corrosion protection and hull maintenance
• Ship stability and stability factors
• Power requirements and methods for calculating drag resistance
• Main and the auxiliary engine types and their characteristics
• International regulations, IMO, SOLAS, MARPOL
• Fire protection, fire detection/isolation and fire construction
• Tanker types and the most important characteristics of different loads

Evaluation scale

H-5

Qualifications

None

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Enrollment

02.12.2023 - 25.02.2024

Timing

26.02.2024 - 10.05.2024

Number of ECTS credits allocated

1 op

Mode of delivery

Contact teaching

Unit

Faculty of Technology and Seafaring

Teaching languages
  • English
Degree programmes
  • Degree Programme in Maritime Technology
Teachers
  • Thomas Lundberg
Groups
  • MT23D-Å
    Maritime Technology, h23, full-time studies

Objective

STCW-Code:Table A-III/1
The student:
• has knowledge of vessel types, dimensions, ship drawings, hull structure, ship stability, corrosion, hull maintenance, breakdowns, international regulations, fire protection, main and auxiliary machinery types.

Content

• Ship Types
• The vessel's main dimensions and deadweight
• Vessel Drawings
• The structure and load of the hull
• Hull breakdowns and factors that weaken the hull
• Corrosion, corrosion protection and hull maintenance
• Ship stability and stability factors
• Power requirements and methods for calculating drag resistance
• Main and the auxiliary engine types and their characteristics
• International regulations, IMO, SOLAS, MARPOL
• Fire protection, fire detection/isolation and fire construction
• Tanker types and the most important characteristics of different loads

Evaluation scale

H-5

Qualifications

None

Open in new tab
Enrollment

01.12.2022 - 26.02.2023

Timing

27.02.2023 - 28.03.2023

Number of ECTS credits allocated

1 op

Mode of delivery

Contact teaching

Unit

Faculty of Technology and Seafaring

Teaching languages
  • English
Degree programmes
  • Degree Programme in Maritime Technology
Teachers
  • Thomas Lundberg
Groups
  • MT22D-Å
    Maritime Technology, h22, full-time studies

Objective

STCW-Code:Table A-III/1
The student:
• has knowledge of vessel types, dimensions, ship drawings, hull structure, ship stability, corrosion, hull maintenance, breakdowns, international regulations, fire protection, main and auxiliary machinery types.

Content

• Ship Types
• The vessel's main dimensions and deadweight
• Vessel Drawings
• The structure and load of the hull
• Hull breakdowns and factors that weaken the hull
• Corrosion, corrosion protection and hull maintenance
• Ship stability and stability factors
• Power requirements and methods for calculating drag resistance
• Main and the auxiliary engine types and their characteristics
• International regulations, IMO, SOLAS, MARPOL
• Fire protection, fire detection/isolation and fire construction
• Tanker types and the most important characteristics of different loads

Evaluation scale

H-5

Qualifications

None