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Marine Engineering Technology

Build a broad-based knowledge of the highly complex engineering systems of a modern ship and prepare for a career as an engineering officer.

A woman in protective gear works on engine room equipment.
Start Date:
September
Typical Length:
2.5 Years
Credential:
Diploma

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Overview

This program prepares you with the entry-level training you need to begin a career as a ship's Engineering Officer in the commercial marine industry. You study plant management, machinery repair, maintenance, safety and communications. Graduates of this program enter the marine industry as a Fourth Class Engineer.

The program offers a comprehensive course load complete with advanced training modules and techniques. You build a broad-based knowledge of highly complex engineering systems of a modern ship. You study the major principles of mechanical and hydraulic machinery, electrical systems, naval architecture and ship construction instrumentation and control systems, computer and information technology and then put the theory to work in the operation of a state-of-the-art propulsion plant simulator. Practical safety training is essential and is covered through the campus Fire Fighting and Boat Facilities.

Sea time

  • You complete sea time internships on board Canadian and international merchant ships, where you put into practice the skills and knowledge you have acquired during the program, while accumulating the 180 sea days to meet Transport Canada's requirements for Fourth Class Marine Engineer Certificate of Competency.
  • During the program, you study on campus from September to April with sea internships taking place from April to August.
  • International students must find a work placement on board a foreign vessel as a Canadian Passport/Permanent Resident Card is required to sail on Canadian vessels. Once you secure your work placement, we'll coordinate details with your employer.

Choose NSCC

  • This program has Transport Canada approval.
  • Graduates of programs approved by Transport Canada are granted remission of sea service towards certification through a combination of industry and college-based training.
  • This program places a high importance on providing you with the skills and knowledge to work safely in industry. You participate in a number of introductory safety awareness courses to prepare for employment.

Other info

  • Many employers in this industry require a current, official Criminal Record check as part of the hiring process. A conviction on your criminal record may impact your ability to secure employment.
  • Successful program completion requires that students maintain an attendance standard of 90% and a pass mark of 60% in all subjects.
  • Seafarers are required to be able to lift a minimum of 22 kilograms and have the physical capability to wear and negotiate both breathing apparatus and lifesaving equipment.

2021-22 programs

Program delivery may be subject to change based on Public Health guidelines.

September 2021

Campus Location Full time/part time Delivery Availability
Strait Area Campus Classes at Nautical Institute Full time In-class Waitlist

Admission requirements

  • High School Graduation Diploma or equivalent.
    • International students – High school diploma equivalency and English language requirements vary by country. View details

Program requirements

  • Additional program requirements, including a criminal record check and a valid Marine Medical certificate (to meet Transport Canada's requirements for approved marine/cadet training programs), are required for the program. Details are provided with your acceptance notification.
  • Portfolio Development – As part of your studies at NSCC, you develop a portfolio of your work; the portfolio captures your achievements and profiles your skills to employers.
  • H2S Alive

Tuition

Tuition is valid for the 2021-22 academic year. Program costs and fees (textbooks, supplies, etc.) are additional.

Tuition (Domestic):
$3,620
Tuition (International):
$11,690

Tuition, fees and program costs

In addition to annual tuition, there are program costs (books, tools, etc.) and student fees for college services, health and dental plans, your student association and parking.

View detailed program fees page(s). Please note that amounts on these pages are meant for planning purposes only. They don't represent final amounts owing.

Funding available for women and Indigenous peoples
To help meet the marine industry demand and diversify the workforce, the federal government is providing $2.5 million in bursaries for women and Indigenous peoples.

  • As a woman or Indigenous person, you may qualify for a $5,000 annual bursary for your education. View funding details

As an Indigenous person, you are automatically considered for additional funds (up to $10,500) to help with living expenses.

Career options

  • Graduates may find employment with a number of shipping companies. A fleet of cargo, tanker, passenger ferry, research and offshore supply vessels operate in the inland, lake and coastal waters of Canada and international waters.
  • Engineering officers are in demand on a worldwide basis and the officer certification achieved upon program and sea service completion is recognized by the International Maritime Organization through Transport Canada.
  • Learn more about labour market information – visit Career Options

Future study options

  • Upon graduation, you're eligible to write Transport Canada's Fourth Class Marine Engineering Certificate of Competency exam. Successful completion of this exam qualifies you to work as a Fourth Class Marine Engineer and provides the foundation for you to continue your training to achieve further certifications.
  • Graduates of this program have the option to continue their training by enrolling in the Marine Engineering Management Technology program.
  • Continue your studies at university – This program includes courses that count towards a university degree. Find out more.

Courses may include

These are some of the courses offered in this program. It is not a complete list and courses are subject to change in advance of the academic year.

MANT 1121 - Vessel Personnel with Security Responsibilities
This course is intended to provide the knowledge required for seafarers with designated security duties in connection with a Ship Security Plan (SSP) to perform their duties in accordance with the requirements of Chapter XI-2 of SOLAS 74 as amended, the ISPS Code and Section A-VI/6 and Table A-VI/6-2 of the STCW Code, as amended.

MEDC 1811 - Marine Basic First Aid
This course provides learners with the knowledge and skills necessary to recognize an emergency, provide appropriate first aid at the scene, notify emergency medical services and promote a safety oriented life style for the prevention of accidents. This course meets the requirements for first aid training as set out by Transport Canada and Workplace Occupational Health and Safety.

MEDC 1821 - STCW Basic Safety
This course provides all Seafarers with the basic understanding of the hazards associated with the Marine Environment and their own vessel; the prevention of shipboard incidents, including fire and procedures for abandonment. It provides Seafarers with the knowledge necessary to raise and react to alarms and to deal with emergencies. The course will ensure that all Seafarers are able to provide assistance in fire and abandonment in emergency situations. It will provide Seafarers with the knowledge and skills which will enable them to assist in their own survival and rescue. The course content meets Standards of Training and Certification of Watchkeeping Seafarers, MED with respect to STCW Basic Safety (MED BST). This course also aligns with Transport Publication 5562 of the Transport Canada certification standard for officer cadets.

MEDC 1822 - Proficiency in Survival Craft and Rescue Boats Other Than Fast Rescue Boats
This course is designed to provide seafarers with the basic understanding and knowledge of survival craft and rescue boats, other than fast rescue boats. It meets STCW 6.2 and Canadian requirements under Crewing Regulations for training of marine personnel - MED with respect to Survival Craft and Rescue Boats Other than Fast Rescue Boats (MED SC). Participants will advance their knowledge of marine survival craft and associated equipment as well as prepare to manage crew and passengers during abandoning of a vessel, surviving at sea, and being rescued. The course includes: Introduction and Safety; Emergency Situations; Principles of Survival; Use of Personal Survival Equipment; Helicopter Rescue; Survival Craft and Rescue Boats; Launching Arrangements; Lifeboat Engine and Accessories; evacuation; Signalling Equipment and Pyrotechnics; Action Aboard a Survival Craft; Launching and Recovering Lifeboats; Life Raft Launching; Launching and Handling Survival Craft in Rough Weather; Radio Equipment.

MEDC 2812 - Marine Advanced First Aid
This course provides learners with the knowledge and skills necessary to recognize an emergency and apply immediate advanced first aid in the event of an accident or illness on board. This course meets the requirements of first aid training as set out by Transport Canada and Workplace Occupational Health and Safety.

MEDC 2831 - Advanced Firefighting
This course in advanced firefighting techniques covers the skills necessary to determine fire hazards, fie monitoring and emergency leadership.

MENG 1111 - Applied Mathematics I
This course is designed to give a review and strengthen the learners’ knowledge of elementary arithmetic such as the order of operations, with brackets, and arithmetic simplification of numbers and fractions, elementary algebra that involve one or more variables, functional notations and expressions, graphs in the rectangular coordinate system, and how to define range and domain for any graphs, linear and quadratic equations, system of linear equations and their applications, variation, exponents, radicals, logarithms. This course will provide the necessary tools for solving problems in the theoretical subjects in marine engineering. This is also a prerequisite course for Applied Mathematics II.

MENG 1112 - Applied Mathematics II
This course is designed to introduce differential and integral calculus and its application to the learners. This course will lay foundation for in depth study of courses such as Advanced Applied Mechanics, Thermodynamics, Naval Architecture and Electrotechnology. Topics will include Introduction to Differentiation and Curve Sketching; Transcendental Functions and their Derivatives; Applications of the Derivative; Differentials; Partial Differentiation; Further Differentiation; Maximum and Minimum; Applications of Differentiation to Applied Mechanics Problems; Introduction to Integration; Indefinite and Definite Integrals; Applications of Integration to solving Areas and Volumes; Methods of Integration; Differential Equations and their Applications.

MENG 1121 - Industrial Chemistry
Fundamental chemical concepts which form the basis for understanding of: water composition and water chemistry, water testing and treatment with particular emphasis on maintaining appropriate water characteristics for boiler feed water and preventing the formation of scales and sludge. Also included are: the chemistry of fuels and lubricants and characteristics of marine fuels and lubricants (in storage and during transfer), the chemical reactions leading to corrosion and corrosion prevention with differentiation of processes leading to pitting corrosion, fretting corrosion, and corrosion fatigue in materials exposed to sea water and generally used aboard ships.

MENG 1131 - Applied Mechanics I
This is a basic course exposing the learner to basic concepts of mechanics and thermodynamics. It starts with mass and volume, speed, acceleration, and force concepts, introducing vectors in the process and their difference with respect to scalars. Energy, work, power in mechanical systems are then discussed including the principle of conservation of energy. Fluids are treated next, with the introduction of the concepts of pressure and temperature scales. Next, basic heat transfer is discussed including conduction, convection and radiation. The course closes with an introduction to the concept of static equilibrium which will be expanded upon on Applied Mechanics II.

MENG 1132 - Applied Mechanics II
This course is the study of the relationship that exists between applied forces, internally induced stress and the resulting deformations. The course has two major parts: 1) Fundamentals of Strength of Materials: Stress and Strain; Shearing Forces and Bending Moments; Centroids and Second Moments of Areas; Beams and their Bending; Shafts and Torsion; Struts; and 2) Applied Strength of Materials: Pressure Vessels; Bolted Joints; Welded Joints.

MENG 1210 - Technical Drawing I
This course covers the theory and the practical applications needed to effectively communicate graphical technical concepts including engineering drawings reading, interpretation and sketching skills.

MENG 1221 - Technical Writing
This course deals with maritime terminology and the use of English sufficient to allow the use of engineering publications and the performance of engineering duties concerned with the ship's safety and operation.

MENG 1315 - Skills Training I
This course will develop the learners’ proficiency in the safe use and care of all common hand tools, power tools, metal fasteners, adhesives and bonding materials normally used on board ships. This will be accomplished through the completion of bench fitting shop projects, which utilizes all the skills covered by the classroom instruction. This course will also develop the learners’ proficiency in machining processes and machine tools usage normally carried out on board ships. There will be appropriate balance of theoretical and practical aspects to this course with various projects to enhance learners’ practical skills.

MENG 1321 - Engineering Materials I
This course is designed to provide the learners with the fundamental knowledge of the behaviour and characteristics of common engineering materials used on board ships. It will also give the learners some clear understanding of basic industrial processes. This background will allow learners to select suitable materials and fabrication methods for the design and manufacture of parts to ensure normal functioning of systems. The course will include introduction to materials; manufacture of ferrous and non-ferrous metal; structure of metals; production of cast iron; heat treatment of steel; alloys and their effects on steels; description of non-ferrous light metals; classification and properties of plastics; inspection and testing of metals; types of corrosion and methods of protecting metals against corrosion; industrial processes such as casting, hot-working, cold-working, cold rolling and stamping. Lab work will be performed on selected topics.

MENG 1511 - Engineering Knowledge, General I
This course focuses on definitions, characteristics and description of positive displacement and dynamic pumps including review of working principles and construction features of different kind of pumps. The course will also introduce central priming systems, ejectors, various hydraulic systems used on board ships and oily water separator requirements and operation.

MENG 1512 - Engineering Knowledge, General II
This is second in the series of practical marine engineering courses that introduces the learner to certain equipment and systems found in almost every sea-going vessel. Working principles, running and maintenance of various fresh water generators, air compressors and oil separators and various requirements of their systems are described in this course.

MENG 1521 - Engineering Knowledge, Motor I
This is the first course in marine diesel engineering courses that describes the basic principles of design, construction and operation of two-stroke and four-stroke diesel engines and their application to ship propulsion and power generation. The course topics include Definitions and Terms; Theory of Four-Stroke and Two-Stroke Cycles; Constructional Details of Two-Stroke and Four-Stroke Diesel Engines; Methods of Scavenging and Supercharging.

MENG 1911 - Sea Service/Onboard Training I
This is the first of two sea terms (resulting in the required 180 days of sea service) designed to provide the learner with practical engine room work experience in the development of the learner’s competencies as a marine engineer officer. The learner will learn the practical skills under a senior engineer officer. These will include safety aboard ship; prevention of pollution; pumps and systems; tanks and enclosed spaces; fire and emergency equipment; bilge and tank pumping; transfer of fuel oil; bunkering. Learners will be required to complete assignments to be signed by the senior engineer officer or Chief Engineer and reports handed in when the learners return to the College in the following term.

MENG 2141 - Applied Thermodynamics I
This course will consider the fundamental science of classical thermodynamics and its practical applications to marine engineers. Problem solving will be emphasized, including problem formulation, analytic, and computational solutions. Topics include general applications of thermodynamics on board ships, basic concepts of thermodynamics, introduction to properties of pure substances, property tables and ideal-gas equation of state, energy transfer by heat, work and mass, the first law of thermodynamics – closed systems, the first law of thermodynamics – open systems, the second law of thermodynamics, Carnot cycle, heat engines, heat pumps, entropy, applications of thermodynamics to heat engines. The focus will be on analysis of the ideal gas compressor cycle, Rankine cycle, Otto cycle, Diesel cycle, Brayton cycle and the vapour compression refrigeration cycle.

MENG 2142 - Applied Thermodynamics II
This course will consider the fundamental science of classical thermodynamics and its practical applications to marine engineers. Problem solving will be emphasized, including problem formulation, analytic, and computational solutions. Topics include general applications of thermodynamics on board ships, basic concepts of thermodynamics, introduction to properties of pure substances, property tables and ideal-gas equation of state, energy transfer by heat, work and mass, the first law of thermodynamics – closed systems, the first law of thermodynamics – open systems, the second law of thermodynamics, Carnot cycle, heat engines, heat pumps, entropy, applications of thermodynamics to heat engines.

MENG 2315 - Skills Training II
This is the second course in skills development intended to provide practical engineering skills for marine engineers. Course content will cover overhauling, maintenance and repair of pumps, valves, air compressors, heat exchangers, diesel engines, turbochargers, boilers, shafting system, refrigerator, fuel and lubricating oil systems, maintenance of pipeline installations, electrical generator, switchboard, motors, starters, and distribution system maintenance and repair.

MENG 2411 - Naval Architecture I
Naval Architecture I includes the following information as it relates to Marine Engineering as outlines in the IMO model course 7.04 and TP 8911: hull form definition, principal dimensions, ships' lines, form coefficients. Floatation, lightweight, deadweight. Centre of gravity, centre of buoyancy. Integration methods, hydrostatic curves, wetted surface. Stability criteria, transverse statical stability, metacentric height, effects of changes in weight on stability, free surface effects. Inclining experiment. Dry-docking and grounding. Longitudinal stability, longitudinal metacentric height, trim, TPC immersion, moment causing trim, effect of added weights on draft, trim and heel. Stability at large angles, Bonjean curves, cross curves of stability, GZ curve. Damaged stability, permeability and bilging, list and trim due to damaged compartments, calculations by lost buoyancy and added weight method. International Load line regulations.

MENG 2513 - Engineering Knowledge, General III
This is the third in the series of practical marine engineering courses that introduces the learner to the equipment and systems found in almost every sea-going vessel. The detailed theoretical aspects of this subject matter will come about with high level of experience with different types of vessels. This course continues with some of the special ship’s engineering systems. These include heat exchangers, steering gears, thermal fluid heating systems, fluid flow and characteristics of major systems, power failure (blackout) and emergency procedures for other equipment and installations.

MENG 2514 - Engineering Knowledge, General IV
This is the fourth in the series of practical marine engineering courses that introduces the learner to the equipment and systems found in almost every sea-going vessel. The detailed theoretical aspects of this subject matter will come about with high level of experience with different types of vessels. This course continues with the principles of watch-keeping and emergency procedures. It also deals with some of the special ship’s engineering systems; these include, shaft installations and propellers.

MENG 2522 - Engineering Knowledge, Motor II
This is the continuation of marine diesel engine practice dealing with engine auto-slow down and manual slow down and shutdown, main diesel engine and associated auxiliaries, auxiliary prime movers and associated systems and marine gas turbine.

MENG 2531 - Engineering Knowledge, Steam I
This is the first course in practical marine steam engineering knowledge courses that introduces the learner to the equipment and systems found in almost every sea-going vessel with steam plant. The detailed theoretical aspects of this subject matter will come about with high level of experience with different types of vessels. The course starts with marine boiler fundamentals, proceeding to steam turbines’ basic construction and operational principles as applied to marine main and auxiliary steam power plants.

MENG 2610 - Marine Electrotechnology I(A)
Marine Electrotechnology I is the first of a series of courses on electric theories and fundamental principles of AC and DC circuitry. The fundamentals of Alternating Current such as electromagnetic induction , work and energy will be examined throughout the course. The calculation of impedance, inductance, phase angle will be introduced and further explored in future courses. AC machines (generator and motor) and DC machines will also be introduced.

MENG 2612 - Marine Electrotechnology II
This is the second of five courses in marine engineering technology which focus on the topics of electrical systems, power distribution systems, electrical motors, electrical motor starting methodologies, high voltage installations, lighting, cable, batteries and safety work procedures. The systematic overview of the electrical systems on board of a ship will be closely examined. Work safety is a high priority in this course. Industrial safety standard procedures which promote work place safety of various topics such as the high voltage systems, electrical motors and batteries will be discussed in great detail. In the power distribution section we will discuss about the three phase transformers on ships and diagrammatically the connections between the main switchboard and the main distribution board. Electrical motors and different types of motor starter methodologies and their functionality properties are also going to be explored throughout this course.

MENG 2620 - Marine Electrotechnology I(B)
This is the second in a series of courses focused on electric theory and fundamental principles about electric circuitry aboard seagoing vessels. Continuing from the first course, AC and DC concepts will be examined and students will develop the ability to calculate various measures in electric circuits. AC machines (generator and motor) and DC machines will also be introduced?.

MENG 2621 - Automation, Control and Instrumentation I
Automation, Control and Instrumentation I is the first of two core courses in automation and control systems that focus on the electronic theory, basic electronic circuit, electronic control equipment, flow charts for control systems, and the fundamentals of control systems. In the electronic theory section the physical properties and principles of the atom, the flow of electrons in matters will be examined that show how electronic circuitry works in the most fundamental level. In the basic electronic circuit, the physical property of the semi-conductor material will be studies and analyzed. Logic gates, diode and transistors, the basic building block of modern electronic circuit using the semi-conductor materials. Intergraded Circuit (IC) and Large Scale Intergraded Circuit (LSI) built from systems of transistors are widely used in modern control systems. Programmable Logic Control (PLC) and digital PID controller and the fundamental of control systems will be introduced in this course and further studied in the next course.

MENG 2713 - Maritime Law and Ship’s Business
This course will cover an overview of MARPOL, the International Convention for the Prevention of Pollution from Ships. Discussion of all the six annexes of MARPOL are included. It also provides detailed understanding of SOLAS rules including ISPS codes and Canadian Shipping Act 2001. It deals with the safety on board ship related to sea worthiness of the vessel. National laws dealing with specialized local requirements, regulations pursuant to Canada shipping Act are also covered.

MENG 2741 - Propulsion Plant Simulator, Level I
This course applies the knowledge and skills using navigation simulation software which emulates a modern ship’s bridge. An average day in this course starts with a lecture reinforced by electronic presentation or video followed by a discussion period. Next learners will prepare for a simulation. These preparations become progressively more comprehensive throughout the course. Upon completion of the preparation phase learners will execute and monitor their plan, dealing with a variety of issues commonly addressed in the keeping of a navigation watch. This includes monitoring traffic, position speed; course the surrounding environment, internal and external communications and record keeping. The learner will complete a two-target plot and react in accordance with the International Rules for Prevention of Collisions. It is also required that throughout the simulation the learner complies with all applicable regulations. Following this course the use of the simulator will be available to the learner to challenge the SIM 1 examination by Transport Canada as required for certification as Watchkeeping Mate.

MENG 2912 - Sea Service/Onboard Training II
This is the second of two sea terms (resulting in the required 180 days of sea service) designed to provide the learner with practical engine room work experience in the development of the learner’s competencies as a marine engineer officer. The learner will learn the practical skills under a senior engineer officer. These will include safety aboard ship; prevention of pollution; pumps and systems; tanks and enclosed spaces; fire and emergency equipment; bilge and tank pumping; transfer of fuel oil; bunkering. Learners will be required to complete assignments to be signed by the senior engineer officer or Chief Engineer and reports handed in when the learners return to the College in the following term.

MENG 3143 - Applied Thermodynamics III
This course deals with the application of the principles of the First and Second Law to model Vapour Power System, analyze Vapour Power Systems – the Rankine cycle, performance parameters for the overall system, effects of boiler and condenser pressures on performance of ideal Rankine cycle, comparison between the Ideal Rankine Cycle and the Carnot cycle, irreversibility and loss in real Rankine cycle Operation, superheat and reheat Cycles and exploration of other means to improve the efficiency of systems. In addition, application of the principles of steady and transient conduction heat transfer, natural and forced convection heat transfer and radiation heat transfer will be discussed.

MENG 3315 - Skills Refresher I
This is the first of two refresher courses to keep shop skills up to date and fresh for cadets. This course will largely provide additional practical instruction and practice time in the shop with tools and techniques used by the ship engineering staff.

MENG 3415 - Skills Refresher II
This is the second of two refresher courses to keep shop skills up to date and fresh for cadets. This course will largely provide additional practical instruction and practice time in the shop with tools and techniques used by the ship engineering staff.

MENG 3421 - Ship Construction I
Course content will include ship types, stresses ships are subjected to, systems of framing, main structural elements of ships: Decks, sides, bottom, stiffening, hatch covers, bulkheads, stem and stern construction, rudders and stern frames, stern tubes, fittings, rudders and propellers, welding and cutting, fire protection, special types of ships, role of classification societies and regulatory bodies, and shipyard practice.

MENG 3515 - Engineering Knowledge, General V
This is the fifth and final in the series of practical marine engineering courses that introduces the learner to the equipment and systems found in almost every sea-going vessel. The detailed theoretical aspects of this subject matter will come about with high level of experience with different types of vessels. This course continues with the introduction to deck machinery and the selection of materials in construction of equipment, design characteristics, design characteristics of bearings, and shipboard automatic control systems.

MENG 3532 - Engineering Knowledge, Steam II
This is the continuation of practical marine steam engineering knowledge courses that introduces the learner to the equipment and systems found in almost every sea-going vessel with steam plant. The detailed theoretical aspects of this subject matter will come about with high level of experience with different types of vessels. The course starts with marine boiler fundamentals, construction of marine boilers, operational principles of marine boilers, marine boiler fuel atomization and combustion, and marine boiler mountings and steam distribution. The course continues with marine boiler mountings and steam distribution, marine boiler shutdown, boiler and associated auxiliaries and steam systems, and auxiliary (steam turbine) prime movers and associated systems.

MENG 3541 - Refrigeration and Air Conditioning I
Course content includes the fundamentals of refrigeration cycles, system components, common refrigerants, theory of operation and preventive maintenance techniques as they apply in the marine industry. In addition, learners will be able to apply the basic theories and principles of refrigeration and air-conditioning appropriate to ship using schematics, perform fault diagnostics and troubleshoot typical process control and system faults, numerate the different category of refrigerants and procedurally charge and recover refrigerants in accordance with the requirements and apply safety precautions and workshop management during operation.

MENG 3613 - Marine Electrotechnology III
This course focuses on the topics of electrical system fault location and protection in electrical system, monitor systems, automatic control system, protective devices, and electrical and electronic diagrams. Properties of component parts of fault-protection devices will be discussed, current-protection relay, buss-bar and reverse power protection. Understanding fault protection is important for having the skills and knowledge to identify elements which could cause damage to electric/electronic systems. In the electrical system fault location section various testers such as the continuity tester, multi-tester, and clamp tester will be introduced, identified and tested. Advanced automatic control system used for the main engine, the power generation and distribution, and the auxiliary machinery will also be introduced and discussed throughout this course.

MENG 3622 - Automation, Control and Instrumentation II
The topics covered in this course includes various automatic controls, ON-OFF control, sequential control, PID control, measurement of process, transmission of signals and manipulating elements. Proportional Integral Derivative (PID) control is a major topic focus in this course because it is the most commonly type of modern electronic control systems. The measurement of process on temperature, level, flow, pressure and various general measurement processes will be discussed and their applications in different equipment instrumentation onboard of the ship. The feedback loop (both negative and positive) will be considered, gain calculations and their application in various control technologies. Manipulating elements such as the final controller, various different valves (pneumatic valve, hydraulic valve, butterfly valves, etc…) and various servomotor in single phase and in three phase AC will also be discussed.

MMGT 2408 - Leadership and Teamwork Skills I
This course is intended to provide the learner with the knowledge, skill and understanding of leadership and teamwork at the operational level on board a ship. The learner will be introduced to related international maritime conventions, recommendations and national legislation as well as strategies for effective workload and resource management. Opportunity will be provided for the learner to apply decision-making techniques and elements of leadership and teamwork in a simulated environment.

PORT 510 - Sea Time Preparation and Reporting I
Sea Service Preparation and Reporting courses are intended to manage learner expectations and standards related to sea service training for navigation and engineering officers. This first course in the series provides basic information about the cadet process and requirements for completing training and sea service in the first year. It will include learning about the various documentation and certification requirements to undertake their first placement, an introduction to Nautical Institute’s industry partners, and the development of a professional portfolio and resume.

PORT 520 - Sea Time Preparation and Reporting II
Sea Service Preparation and Reporting courses are intended to manage learner expectations and standards related to sea service training for navigation and engineering officers. This second course in the series is intended to prepare learners for the upcoming first sea service placement. The focus will be on clarifying expectations and standards, strengthening learners’ abilities in the application process, and understanding the challenges and opportunities of extensive life onboard a vessel.

PORT 540 - Sea Time Preparation and Reporting III
Sea Service Preparation and Reporting courses are intended to manage learner expectations and standards related to sea service training for navigation and engineering officers. This third course in the series is intended to help the learner reflect on their first sea service experience, to track progress towards certification requirements and to prepare for future sea service placements.

PORT 570 - Sea Time Preparation and Reporting IV
Sea Service Preparation and Reporting courses are intended to manage learner expectations and standards related to sea service training for navigation and engineering officers. This fourth course in the series is intended to help the learner reflect on their past sea service experiences, to track progress towards certification requirements and to develop good habits and practices of maintaining activity logs and a current portfolio.

SAFE 1020 - Introduction to Confined Space
The learner is introduced to the basic requirements and procedures involved with confined spaces. The definition and associated hazards of confined space are discussed as well as methods of confined space rescue. The course material is to be infused throughout the curriculum and may be delivered in the classroom, shop or other opportunity as designed and developed by the instructor.

SAFE 1021 - Introduction to Hazard Identification
The learners are introduced to the types of hazards encountered in workplaces and the approach that should be followed when recommending and implementing appropriate controls. Two key elements of Hazard Identification are addressed: Hazard Assessment and Inspection. The Nova Scotia Occupational Health and Safety Act is discussed. The course material is to be infused throughout the curriculum and may be delivered in the classroom, shop or other opportunity as designed and developed by the instructor.

SAFE 1023 - Introduction to Lock-out Tag Out
Lock-out Tag Out introduces the learner to the hazards related to energized systems and procedures to ensure worker safety. Related legislation and risk management is discussed and the learner is exposed to the various types of lock-out devices. The course material is to be infused throughout the curriculum and may be delivered in the classroom, shop or other opportunity as designed and developed by the instructor.

SAFE 1024 - Introduction to Respiratory Protection
The learner is introduced to the potential of atmospheric hazards in the workplace and the available personal protection and control methods to maintain a safe work environment. Discussion includes identification and testing for atmospheric hazards and workplace respiratory programs. The learner will be given the opportunity to select, use and maintain respiratory equipment. The course material is to be infused throughout the curriculum and may be delivered in the classroom, shop or other opportunity as designed and developed by the instructor.

SAFE 1025 - Certified Fall Arrest and Protection
This course provides participants with an understanding of the hazards associated with working from heights and compliance with Workplace Health and Safety Regulations (2013). Throughout the course, participants will gain experience in the donning of a harness, an overview and presentation of system components involved when working from heights and learn how to complete a fall calculation and emergency procedures.

SAFE 1031 - H2S Alive
This course is an industry recognized and industry certified course that meets the standard set by the H2S Examination and Certification Committee. It is delivered under the Competency-based model of instruction. Learners must satisfactorily complete a written test and demonstrate skills taught. Successful participants are certified by ENFORM.

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