To acquire a basic understanding of how to set up a DP system.
To get an understanding of the practical operation of associated equipment, including position reference systems.
To recognize the various alarm, warning and information messages.
To relate the DP installation to the ship system, including (but not limited to) power supply, maneuvering facility, available position reference systems and nature of work.
To relate DP operations to the existing environmental conditions of wind, sea state, current/tidal stream and vessel movement.
The training is based on the program outlined by the Nautical Institute Scheme of Training. Training is a mix of theoretical sessions and practical exercises on Kongsberg DP stand-alone simulators. All training is conducted as classroom training.
Clear objectives are set in Nautical Institute’s Training Scheme summarized as follows:
DP Control Station
Define Dynamic Positioning and use of same.
Define main components in the DP system and role of same, including advantages and disadvantages in the use of the DP.
Discuss concept of mathematical model, and consequence analysis.
Power Generation and Management
Describe the power generation and distribution arrangements in a typical hybrid diesel/ diesel-electric DP vessel, with particular reference to system redundancy as described in IMO MSC Circ. 645 and vessel FMEA.
Describe the functions of a power management system as installed on Class 2 and Class 3 DP vessels and explain the concept of available power and spinning reserve in worst case failure.
Describe the provision of uninterruptible power supply to the DP system.
Propulsion Units
Describe the types of propulsion systems commonly installed in DP equipped vessels
Position Reference Systems
Describe the operation, principles and limitations of position reference systems in general.
Sensors (Heading, Motion, Environmental and External):
Describe all sensor inputs, how they work, what they do and limitations.
Describe the use of external force reference systems such as hawser tension, plough cable tension and pipe tension monitoring.
DP Operations
Describe/explain the need for procedures, checklists and logbook entries, emergency and contingency planning.
Describe the alarm messages provided on the DP system displays and on the DP printer, and recognize the alarms/warnings associated with loss of redundancy after worst case failure.
Explain the use of worksite diagrams using Universal Transverse Mercator (UTM) coordinates, projections and datum.
List various providers of documentation and classification societies.
Describe the hazards associated with DP operations conducted in areas with very deep water, shallow water and/or strong tidal conditions.
Practical Operation of a DP System
Demonstrate the correct procedure for setting up on DP, and maneuvering in the different modes.
To acquire knowledge of the principles of DP.
To acquire a basic understanding of how to set up a DP system.
To get an understanding of the practical operation of associated equipment, including position reference systems.
To recognize the various alarm, warning and information messages.
To relate the DP installation to the ship system, including (but not limited to) power supply, maneuvering facility, available position reference systems and nature of work.
To relate DP operations to the existing environmental conditions of wind, sea state, current/tidal stream and vessel movement.
The training is based on the program outlined by the Nautical Institute Scheme of Training. Training is a mix of theoretical sessions and practical exercises on Kongsberg DP stand-alone simulators. All training is conducted as classroom training.
Clear objectives are set in Nautical Institute’s Training Scheme summarized as follows:
DP Control Station
Define Dynamic Positioning and use of same.
Define main components in the DP system and role of same, including advantages and disadvantages in the use of the DP.
Discuss concept of mathematical model, and consequence analysis.
Power Generation and Management
Describe the power generation and distribution arrangements in a typical hybrid diesel/ diesel-electric DP vessel, with particular reference to system redundancy as described in IMO MSC Circ. 645 and vessel FMEA.
Describe the functions of a power management system as installed on Class 2 and Class 3 DP vessels and explain the concept of available power and spinning reserve in worst case failure.
Describe the provision of uninterruptible power supply to the DP system.
Propulsion Units
Describe the types of propulsion systems commonly installed in DP equipped vessels
Position Reference Systems
Describe the operation, principles and limitations of position reference systems in general.
Sensors (Heading, Motion, Environmental and External):
Describe all sensor inputs, how they work, what they do and limitations.
Describe the use of external force reference systems such as hawser tension, plough cable tension and pipe tension monitoring.
DP Operations
Describe/explain the need for procedures, checklists and logbook entries, emergency and contingency planning.
Describe the alarm messages provided on the DP system displays and on the DP printer, and recognize the alarms/warnings associated with loss of redundancy after worst case failure.
Explain the use of worksite diagrams using Universal Transverse Mercator (UTM) coordinates, projections and datum.
List various providers of documentation and classification societies.
Describe the hazards associated with DP operations conducted in areas with very deep water, shallow water and/or strong tidal conditions.
Practical Operation of a DP System
Demonstrate the correct procedure for setting up on DP, and maneuvering in the different modes.