The Faculty of Maritime Studies and Transport
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Nautical Studies
2022/2023

Ship Auxiliary Systems


Syllabus

Ship piping system; valves, pumps, filters, heat exchangers, regulators, media flow, viscosity, density, hydraulic losses in pipes

• Separators of heavy fuel, diesel fuel, lubricating oil and bilge water separators

• Ship compressors, start-up and control air systems

• Ship refrigerators

• Ship boilers and steam turbine pumps; types of boilers, steam generating using exhaust gas, steam consumption on board, steam use on tankers, steam turbine pump operation, mechanical losses, efficiency, cavitation ....

• Cooling system; use of seawater, use of high temperature and low temperature cooling water

• Lubrication system; main lubricating oil system, camshaft lubrication system and cylindrical system

• Fuel system

• Fresh Water Hydrophore System in Ship

• Treatment of sewage

• Steering system; remote and local management

• Electricity distribution system with an emphasis on the use of an emergency generator

• Control of the propulsion engine, remote control from the command bridge, from the control cabin and local control, engine protection

• Hydraulic plants for controllable pitch propellers

•    Power Transmission

• Vibration, noise and environmental pollution

 

IMO Model course 7.03:

  • STEERING CONTROL SYSTEMS
  • Steering control systems

 

IMO Model course 7.01:

  • SHIPS' AUXILIARY MACHINERY
  • GENERAL KNOWLEDGE OF MARINE ENGINEERING SYSTEMS
  • Marine engineering terms and fuel consumption
  • MANOEUVRING AND HANDLING A SHIP IN ALL CONDITIONS
  • Use of propulsion and manoeuvring systems including different types of rudder
  • Ability to determine the manoeuvring and propulsion characteristics of common types of ships, with special reference to stopping distances and turning circles at various draughts and speeds
More...

Goals and competencies

Knowledge acquisition of theoretical operation of pumps, valves, pipelines, compressors, boilers, separators and hydraulics. Learning how to connect individual subsystems and devices into drive systems, integration and interdependence of individual subsystems of the drive. System Control.

 

Special features:

Implementation of the learning content among others include requirements in accordance with the provisions of the STCW Convention A-II / 1, A-II/2  and the recommendations of the »Master and Chief Mate (Model course 7.01)« and »Officer in charge of a navigational watch (Model course 7.03)« International Maritime Organization, London, 2014


Basic literature

  1. Martinovic D.: Strojarski priručnik za časnike palube, Pomorski fakultet u Rijeci, Graftrade, Rijeka 2000, ISBN 953-6839-00-8, COBISS.SI-ID 813155
  2. Woodyard D.: Marine Diesel Engines, Butterworth Heinemann, 2004, ISBN 0-7506-2583-X, COBISS.SI-ID 644963
  3. Ozretic V.: Brodski pomoćni strojevi i uređaji, Rijeka, Liburnija, 1980, COBISS.SI-ID 204899
  4. IMO model course 7.01 - MASTER and chief mate,  International Maritime Organization,  London 1999, ISBN 92-801-6103-2, COBISS.SI-ID 1007715
  5. IMO Model Course 2.07-Engine Room Simulator and Engine Room Simulator–base Courses, TP 10935E, (Manila Update),  December 2011,  http://www.tc.gc.ca/Publications/en/TP10935/PDF/HR/TP10935E.pdf

Lecturers

Lectures