MMA Course MT-4132

Course Description

Operating a vessel safely and efficiently under all weather conditions requires a skill set for operating and maintaining a vessel and a knowledge of a vessel’s fittings and equipment. Under the supervision of experienced master mariners, students in this program develop seamanship skills through hands-on experience and learn critical thinking and problem-solving skills through the use of case studies of marine casualty investigations. This capstone course provides the new deck officer with a strong foundation in the fundamentals of traditional seamanship and exposes the individual to best practices in the ever-evolving shipboard technologies and operations necessary to compete in the global marine industry. Topics include search and rescue, damage control, marine salvage, tug and towing fundamentals, ice navigation, anchoring/mooring, ship/helicopter operations, and advanced ship handling techniques. An intensive, hands-on seamanship lab program complements the classroom experience. [Lab time required]

This course consists of three 1-hour lectures and one 2-hour lab per week for a semester with a comprehensive final examination.

STCW Objectives

Demonstrate knowledge and understanding of the following STCW elements:

• OICNW-A5.2 Initial action to be taken following a collision or a grounding
• OICNW-A5.2 Initial damage assessment and control
• OICNW-A5.3 Appreciation of the procedures to be followed for assisting a ship in distress
• OICNW-A5.3 Appreciation of the procedures to be followed for rescuing persons from the sea
• OICNW-A6.1 Knowledge of the contents of the International Aeronautical and Maritime Search and Rescue (IAMSAR) Manual
• OICNW-A9.1 manoeuvres and procedures for the rescue of person overboard
• OICNW-A9.1 proper procedures for anchoring and mooring
• OICNW-A9.1 squat, shallow-water and similar effects
• OICNW-A9.1 the effects of deadweight, draught, trim, speed and under-keel clearance on turning circles and stopping distances
• OICNW-A9.1 the effects of wind and current on ship handling

Topics

Lecture

• Ground Tackle
  • Anchor Design and Use S
  • Anchor Kinematics
  • Chain Design
  • Anchor Machinery & Associated fittings
• Anchoring and Mooring
  • Scope of Chain & Calculations
  • Holding Power
  • Anchoring Procedure and Safety Measures
  • Riding to Single Anchor
    • Radius of Swing
    • Dredging of Anchor
  • Mooring with Two Anchors
    • Open Moor, Running Moor, Standing Moor, Mediterranean Moor
  • Mooring to Buoy
    • Single Offshore or Mooring Buoy, Two Buoy Mooring, Multiple Buoy Offshore Terminal
  • Anchor Watch
• Ship Maneuvering, Controllable Effects
  • Horsepower to Displacement Ratio
  • Propellers: Number, Type
  • Rudders: Forces and Resultant Forces on Rudder
  • Speed by Revolution Calculations
  • Maneuvering Devices: Thrusters and Auxiliary Propulsion Units
• Ship Maneuvering, Uncontrollable Effects
  • Hydrodynamic Forces & Interaction
    • Interaction Situations
    • Passing Ship Effects
    • Ship Squat & Calculations
    • Bank Effects
    • Current
    • Aerodynamic Interactions (Wind)
• Ship Maneuvering
  • Drift Angle
  • Pivot Point
  • Maneuvering Characteristics (speed, turning)
  • Requirements for & Limitations of Displayed Maneuvering Information
  • Man Overboard Techniques
  • Deceleration & Stopping Maneuvers
  • Instruments to Assist in Judging Motion
• Docking & Undocking Procedures
  • Mooring Line Patterns
  • Characteristics of Mooring Line Material, Construction, Size & Elasticity
  • Attributes of Mooring Line
  • Bights & 3 Part Leads
  • Communications & Line Handling Commands
  • Deck Winch Machinery
  • Lead Angles
  • Safety & Operations while Docking / Undocking
  • Mooring Line Inspections
• Tugs & Towing
  • Tug Function & Design
  • Ship Assist Practice
  • Towing ñ Sheltered & Open Ocean
  • Emergency Towing
  • Tow Packages
  • Tug & Towing Safety Considerations
• Heavy Weather Maneuvering & Damage Control
  • Waves & Swells
  • Dangers of Heavy Seas & Swells
  • Heading & Speed Changes
  • Broaching & Speed Changes
  • Synchronous Rolling
  • Loss of Power
  • Controlled Drifting
  • Fractures, Cracks & Holes
• Stranding & Salvage Operations
  • Actions Taken Immediately after Stranding
  • Precautions Against Broaching, Pounding & Further Grounding
  • Methods of Re-floating
  • Stranding calculations
• Ice Seamanship
  • Types of floating Ice
  • Ice Identification
  • Risk of Ice Passage
  • Anchoring & Towing in Ice
  • Mooring in Ice
  • Ice Accretion & Vessel Stability
  • Freeing a Vessel Beset while Operating Independently
  • Freeing a Vessel Beset with Ice Breaker Escort
• Helicopter Operations
  • Vessel Responsibilities & Preparations
  • Personnel Safely & Dangers
  • Personnel Approaching a Helicopter
  • Helicopter Operating Conditions
  • Maneuvering your Vessel
  • Shipboard Hoisting & Landing
  • Pilot use of Helicopters
• Search & Rescue Operations
  • Source of SAR Information & AMVER
  • SAR Planning
  • On Scene Coordination
  • Search Patterns
  • Terminating the Search

Laboratory

• Motor Whale Boat Start-Up and Familiarization
• Monomoy Boat handling
• Marlinspike Seamanship 1
• Splicing 8-Strand Mooring Line
• Manned Models Operation at Herring Pond
• Open Water Survival
• Motor Whale Boat Dock/Undock Practice
• MOB Recovery Drills & Uncontrollable Forces
• Marlinspike Seamanship 2
• Motor Whale Boats
• Towing Alongside

Other objectives

The student will be able to:

• explain the function and limitations of each component of ground tackle.
• describe the different types of moorings and explain the correct application of each mooring technique.
• calculate optimal length of chain for the prevailing geographic and environmental conditions.
• compute the maximum radius of swing.
• explain the application of controllable forces in shiphandling including: propeller forces, rudder forces, thrusters, auxiliary propulsion units, lines, tugs and ground tackle.
• contrast the advantages and disadvantages of different types of marine propulsion systems.
• demonstrate fundamental shiphandling techniques through the operation of the academy’s small crafts and manned models.
• compute propeller slip and speed by revolution.
• discuss the effects of uncontrollable forces in shiphandling including: hydrodynamic interaction, current, and wind.
• describe the effects of speed, drift angle and pivot point on the maneuvering characteristics of a vessel in both deep and shallow water.
• calculate squat and the maximum transit speed to insure a minimum under keel clearance.
• describe the different attributes of mooring lines based on their respective material, construction, size and length.
• explain the application of different mooring patterns.
• calculate mooring line stress. Gaining hands on experience,
• demonstrate the safe methods of handling mooring lines under heavy loads.
• explain the advantages and disadvantages of different modes of towing. Through hands on operations,
• demonstrate the advantages and disadvantages of maneuvering a tow made up alongside and maneuvering a tow pushed ahead.
• list the actions to be taken immediately after grounding and explain the different methods to refloat a vessel.
• execute basic stranding calculations critical to the early stages of a successful salvage.
• explain the fundamentals of ice seamanship including: types of ice, risks of ice passage, and operating with and without icebreaker assistance.
• identify the hazards inherent in marine helicopter operations and list controls to reduce the risk to personnel.
• list the phases of a search and rescue operation from awareness to mission conclusion.
• discuss the roll of a merchant ship in a coordinated SAR mission.
• based on given parameters, identify the optimal type of search pattern to employ.

For more information, see

• MT-4132-F22-syllabus-Sunkler-Advanced_seamanship.pdf