Elements describe the essential outcomes. | Performance criteria describe the performance needed to demonstrate achievement of the element. |
1 | Identify regulatory environment for shipping operations | 1.1 | Function of the International Maritime Organization (IMO) is outlined, how recommendations are adopted through maritime legislation is explained and areas of exemption for local and international shipping are identified |
1.2 | International maritime law embodied in international agreements and conventions is identified |
1.3 | Application of the International Labour Organization (ILO) Convention to dockyard and shipboard practices is explained |
1.4 | Flag State responsibilities are explained |
1.5 | Purpose of the Navigation Act, Marine Notices, Marine Orders, Port State Control and other methods of implementing international agreements and conventions is clarified |
1.6 | Purpose of insurance underwriters and Protection and Indemnity (P & I) Clubs is clarified |
1.7 | Function of Classification Societies and their involvement with Flag States with Memorandum of Agreement is outlined |
1.8 | ISM Code is applied to ship operation and maintenance |
1.9 | Requirement for crew training for emergency response, administration, operation and maintenance to Standards of Training Certification and Watchkeeping (STCW) requirements is explained |
2 | Prepare for surveys | 2.1 | Areas covered by classification surveys are identified |
2.2 | Reasons for class withdrawal are clarified and condition of class are explained |
2.3 | Continuous, alternative and special surveys, terms of survey and survey frequency are outlined |
2.4 | Differentiation is made between planned maintenance and condition monitoring for machinery |
2.5 | Safe practices for preparing compartments for survey, including pressure testing are identified |
2.6 | Tail shaft surveys are outlined and planned |
2.7 | Pressure vessels and boiler surveys outlined and planned |
2.8 | Machinery and hull layup methods are specified |
3 | Explain survey requirements | 3.1 | Statutory survey requirements for convention and non-convention vessels are identified |
3.2 | Documentation and records essential for compliance with statutory surveys, legislation and measures are identified to ensure protection of the marine environment and safety of life at sea |
3.3 | Load line measurements and freeboard assignment are explained |
3.4 | Conditions of freeboard assignment, tests, common faults and repairs are identified |
3.5 | Maintenance and repair responsibilities are identified to satisfy safety construction surveys |
3.6 | Common defects, tests and preparations are identified to satisfy safety equipment surveys |
3.7 | International Convention for the Prevention of Pollution from Ships (MARPOL) survey requirements, including precautions to be taken to prevent pollution of the marine environment are clarified and how compliance with MARPOL is fully observed is explained |
3.8 | Survey requirements for cargo ship safety construction, safety equipment and safety radio certificates; passenger ship safety certificates; chemical tanker and gas carrier certificates of fitness are clarified |
3.9 | Port State Control is explained |
3.10 | Substandard ship and factors causing ship detention are identified |
4 | Assess influences on vessel stability | 4.1 | Basic theories and factors affecting trim and stability as well as measures necessary to preserve trim and stability are explained |
4.2 | IMO recommendations concerning ship stability are identified |
4.3 | Influences causing change of centre of gravity are explained and action to be taken in the event of partial loss of intact buoyancy, free surface and Angle of Loll is specified |
4.4 | Consequences of cargo movement, including bulk and deck cargo is outlined |
4.5 | Stability documentation required for different ship types to satisfy safety of life at sea (SOLAS) is identified |
4.6 | Intact and damage stability criteria are explained |
4.7 | Damage control procedures and assessment following collision or grounding are specified to ensure watertight integrity of a ship is according to accepted practice |
4.8 | Stability requirements for routine dry-docking are identified |
5 | Outline procedures for maintenance and repairs of hull, pumping systems, propellers, machinery and other items satisfying maintenance of Class | 5.1 | Properties and repair techniques are identified for ordinary and high tensile hull grades of steel including underwater repair work |
5.2 | Means of minimising and controlling both internal and external hull corrosion are identified |
5.3 | Repair techniques for various propeller materials are outlined |
5.4 | Drainage arrangements and connections to other systems of spaces outside the engine room are explained |
5.5 | Ballast main connections to fore and after peak tanks are outlined and procedure for filling and emptying tanks is clarified |
5.6 | Means of testing performance of shipboard pumping systems is identified |
5.7 | Common faults and ways of assessing condition of shipboard pumping systems are determined |
5.8 | Machinery condition monitoring and planned maintenance systems are identified |
5.9 | Hull life extension surveys and enhanced survey requirements for tankers and bulkships are outlined |
6 | Explain function of International Maritime Dangerous Goods (IMDG) Code | 6.1 | IMDG Code is applied to prepare action plans for emergency situations |
6.2 | Common hazards of shipboard enclosed spaces are identified and suitable strategies, including compartment re-entry, following extinction of fire, are planned |
6.3 | Methods of testing enclosed space atmospheres are identified and limits of exposure to common hazards confirmed |
6.4 | Requirements of ordering and taking bunkers as well as discharging to shore side reception facilities, are specified |
7 | Outline dry-dock and in-water bottom survey responsibilities of engineering staff | 7.1 | Procedures for planning and implementing dry-docking and in-water bottom surveys are clarified |
7.2 | Responsibilities for engineering personnel associated with planning and implementing dry-docking and in-water bottom surveys are detailed |
7.3 | Dry-dock and in-water hull cleaning methods are compared and contrasted |
7.4 | Dry-dock refloating criteria and responsibilities of engineering staff are outlined |
7.5 | Preservation and maintenance requirements for extended layup of vessel, and inspection and tests required on reactivation are outlined |
8 | Outline maintenance, repair and safe working practices associated with lifting and life saving equipment | 8.1 | Safe working practices applicable to cranes, chain blocks, items of loose gear and other lifting equipment are identified |
8.2 | Safety and protective devices used in conjunction with lifting gear are identified |
8.3 | Means of testing and adjusting lifting gear are confirmed |
8.4 | Legislative and regulatory requirements for inspection, storage and maintenance of lifting gear are outlined |
8.5 | Purposes and procedures involved in annual and quadrennial surveys of cargo gear are clarified |
8.6 | Procedures for safe working load (SWL) and proof load tests, including lifeboat launching gear are clarified |
8.7 | Safe working practices applicable to rigging and lifting heavy items during maintenance and repair are identified |
8.8 | Installation, operation, maintenance of lifesaving appliances and launching equipment is outlined |
8.9 | Safety and protective devices associated with lifesaving appliances and launching equipment are confirmed |
9 | Outline operation of an inert gas system for a tanker | 9.1 | Construction, operation and maintenance of individual components of inert gas system (IGS) are explained |
9.2 | Mandatory controls, alarms and cut-outs are identified |
10 | Apply leadership and management skills | 10.1 | Shipboard personnel management and training requirements are explained in relation to engineering operations |
10.2 | Procedures for managing personal and crew workload in relation to marine engineering functions are clarified |
10.3 | Effectiveness of resource management in relation to engineering functions is assessed |
10.4 | Decision-making techniques appropriate to engineering functions are explained |
10.5 | Processes for developing, implementing and maintaining standard operating procedures relevant to marine engineering functions are explained |