Movers, Refrigeration and Auxiliary Machinery
Syllabus
Basics of performance and modes of operation of the following systems:
• Types, designs, structures and operation of compactors (pumps and pumps, fans, blowers, compressors, filters). Piping systems for the flow of liquids and gases (water, seawater, fuels, lubricants, refrigeration, air, CO2, etc.); performance components, regulations that concern these systems and the basis for designing, operating and maintenance.
• Drinking water treatment plants (thin drinking water, hydrophoresis, evaporators, reversible osmosis plants and disinfection).
• Heat exchangers,
• Cooling devices, use of cooling devices, theoretical operating principles, left cooling circuits, refrigerant and their properties. Components of cooling devices, their performance and operation. Devices for monitoring and regulation. Maintenance of cooling devices. Operational disorders, cause detection and rectification, insulation of refrigerated spaces, defrosting, guidelines for determining capacity and for the selection of refrigerating appliances and operation and maintenance.
CLIMATE AND VENTILATION SYSTEMS:
• Ventilation, the need for ventilation of work and living spaces, natural and mechanical ventilation, guidelines for determining the capacities and selection of ventilation devices, measurement of efficiency.
• The heating. Performances of heating of working and living spaces. Guidelines for determining the required capacity and for the selection of cooling or heating devices.
• Air conditioning. The concept of air conditioning: regulating and monitoring the temperature, relative humidity, and the speed of air movement in the rooms. Systems for air conditioning of work and living spaces. Air conditioners with components, their design and function. Guidelines for determining the required capacity and for the selection of air conditioners and operation and maintenance.
• Hydraulic and pneumatic systems
OPERATION AND MANAGEMENT OF PUMPS SYSTEMS:
- Routine-general on the management of pipeline systems,
- Management of bilge, ballast and transhipment piping systems.
• Purification, degrading and environmental protection devices (filters and separators, waste oil and faeces collectors, incinerators).
Characteristics of left circular cooling circuits, their improvement and influence on the cooling number and multi-stage cooling circuits. Theoretical and real cooling circuits with analyzes of irreversibility in the system.
Operation, operation and maintenance:
- Piping systems, bilge, ballast, drinking water, etc.
- Cooling devices,
- Heating and air conditioning systems
- Fuel systems of main propulsion and auxiliary machinery,
- Ventilation and supply systems for combustion air,
- Lubricating oil systems,
- Cooling water systems,
- Itd.
Content according to IMO Model course 7.04:
- Basic construction and operation principles of machinery systems
- Other auxiliaries
- Steering gear
- Safety and emergency procedures for operation of propulsion plant machinery including control systems
- Main boiler auto shut down
- Maintenance and repair such as dismantling, adjustment and reassembling of machinery and equipment
- Centrifugal pumps
- Reciprocating pumps
- Screw and gear pumps
- Valves
- Air compressors
- Heat exchangers
- Refrigerator
Content according to IMO Model course 7.02:
- Refrigerators and refrigeration cycle
- Refrigeration and air conditioning system design, operation and maintenance
Goals and competencies
Students should study theoretical basics of working machines, piping systems, ventilation, heating and air conditioning systems. They will learn about typical implementations of these machines and devices, their operation, maintenance and elimination of operational disruptions and preparations for starting individual devices and the entire system. They should be acquainted with the regulations concerning selection, installation and maintenance of these machines and devices.
Special Features:
Implementation of the learning content among others include requirements in accordance with the provisions of the STCW Convention A-III / 1, A-III / 2 and the recommendations of the "Chief engineer officer and second engineer officer (Model course 7.02)" and "Officer and charge of an engineering watch (model course 7.04) "International Maritime Organization, London, 2014
Basic literature
- Cowley J., The runing and Maintenance of Marine Machinery, The Institute of Marine Engineering, 1994, ISBN 0-9007206-42-5.
- Sterling L., Selection, Instalation and Maintanance of Marine Compressos, IMAREST, Volume I, Part I, 2002, ISBN: 0 900976 06 3.
- Stott J.R., Refrigeration Machinery and Air Conditioning Plant, Imarest Volume 1, Part 4, 2002, ISBN: 0 900076 11 X.
- Langley B.C., Fundamentals of Air Conditioning Systems, The Fairmont Press, 2000.
- McQuiston F.C., Heating, Ventilation, and Air Condition, Analises and Design, John Wiley & Sons, Inc., 2000.
- McGeorge H. D., Marine Auxiliary Machinery, 7th Edition, Butterworth Heineman, 1999, ISBN 0 7506 4398
- Ozretić V., Brodski pomočni strojevi i uredjaji,4. poboljšano i dopunjeno izdanje, Split Ship Management Ltd., 2004.
- Martinović D., Brodski rashladni uredjaji, Školska knjiga – Zagreb, 1994.
- Tehnični priročnik _ Tehnologija prezračevanja, FWG-Technical Handbook - EN 20003-8629,2009 Flakt Woods Group, Prevod in priredba: Omega Air d.o.o. Ljubljana 2009.
- Verhovec D., Priročnik o stisnjenem zraku, Omega Air d.o.o. Ljubljana , 2. Izdaja, 2007.
- Mohitpour M., Golshan H., Murray A.: Pipeline Design & Construction, A Practical Approach, ASME Press, New York, 2000, ISBN 0-7918-0156-X.
- Rant Z., Termodinamika, UL, Fakulteta za strojništvo, 2001, 607 str. ISBN: 961-6238-47-7.
- Potter M.C., Wiger D.C., Hondzo M., Mechanic of Fluid, CENGAGE Learning, Third Edition , SI Version, 2010, ISBN-13: 978-0-495-43857-1.
- Gašperšič B., Prenos toplote, UL Fakulteta za strojništvo, Ljubljana 2001, ISBN 961-6238-50-7.
- Pitts D.R., Sissom L.E., Schaum˝s outlain of THEORY and PROBLEMS of HEAT TRANSFER, Second Edition, McGraw –Hill, 1997, ISBN 0-07-050207-2.
- Kurtela Ž., OSNOVE BRODOSTROJARSTVA, VELEUČILIŠTE U DUBROVNIKU, Dubrovnik 2000, ISBN 953-6705-05-2.
- MASTER AND CHIEF MATE , International Maritime Organization, London, 1999, (Model course 7.01), ISBN 92-801 -61 03-2.
- Chief engineer officer and second engineer officer, International Maritime Organization, London, 1999, (Model course 7.02), ISBN 92-801-6104-0, COBISS.SI-ID 1008739.
- »Officer in charge of an engineering watch, (Model course 7.04)«, International Maritime Organization, London, 1999.