Academic Calendar - Fisheries and Marine Institute - Memorial ...

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COURSE DESCRIPTIONS ENGR 2104 (Blueprint Reading) This course is designed to develop the skills necessary for the student to interpret working drawings and prints common to industry. Basic Fundamentals; Sketching; Notes and Specifications; Dimensions; Bill of Materials; Sections; Working Drawings; Abbreviations and Symbols; Production and Processes; Welding Symbols; Piping Drawings; Electrical Drawings; Hydraulic Drawings; Fasteners Lectures - 40 hours ENGR 3100 (Blueprint Reading) This course is designed to develop the skills necessary for the student to interpret working drawings and prints common to industry. Basic Fundamentals; Sketching; Notes and Specifications; Dimensions; Bill of Materials; Sections; Working Drawings; Abbreviations and Symbols; Production and Processes; Welding Symbols; Piping Drawings; Electrical Drawings and Hydraulic Drawings Lectures - 40 hours ENSY 1101 (Prime Movers & Auxiliary Power Plants) This course is designed to provide the students with the engineering knowledge needed to participate in the design of ship power plants and systems. Ship Power Plants; Marine Diesel Engines; Marine Gas Turbines; Marine Steam Generators; Marine Steam Turbines Duration - 13 weeks Lectures - 3 hours/week = 39 hours total ENSY 1200 (Auxiliary Components) This is an introductory course designed to give students a knowledge and understanding of the components required to design and construct the auxiliary piping systems of ships and offshore platforms. Marine Materials; Piping for Marine Application; Valves; Strainers and Steam Traps; Piping Supports and Expansion Joints; Vibration Isolators; Pipe Insulation; Heat Exchangers; Piping Arrangement Drafting. Prerequisite - ENGR 1100 (Engineering Graphics) Duration - 5 weeks Lectures - 6 hours/week Laboratories - 4 hours/week ENSY 1201 (Ship Types And Systems) This is an introductory course designed to provide students with engineering knowledge about ship types. Vessel; Propulsion Systems; Prime Movers; Pumping and Piping Systems; Control Systems; Marine Engineering Drawing Prerequisite - ENGR 1100 (Engineering Graphics) Duration - 5 weeks ENSY 1202 (Introduction to Marine Engineering Systems Design) This is an introductory course designed to provide students with practical knowledge of the ship’s environment, ship terminology and various aspects of Marine Engineering Systems Design. The Ship’s Environment; Ship Terminology; Hull Form; Pumps; Pumping and Piping Systems; Piping for Marine Applications; Valves Co-requisite - Engineering Graphics 1103 Duration - 13 weeks Lectures - 3 hours/week = 39 hours total Laboratories - 1 hour/week = 13 hours total ENSY 2000 (Ship Engineering Design Process) This course sets the methodology for the development of the student’s engineering design project. At the same time it offers an opportunity to assimilate some economic aspects by preparing an owner specification in conjunction with an economic study. Analysis and Response to Request For Proposal; Indexing and Scheduling; Estimating Ship Construction Costs and Life Cycle Costing; Design Package Documentation; Relationship of Auxiliary Systems to Vessel Type; Quality Control in Shipbuilding Prerequisites - ENSY 1202 (Introduction to Marine Engineering Systems Design) Co-Requisite - CMSK 1201 (Communication at Work) Duration - 6 weeks Lectures - 6 hours/week = 36 hours total Laboratories - 2 hours/week = 12 hours total ENSY 2102 (Propulsion Technology) This course is designed to provide the students of the Marine Engineering Systems Design program with the engineering knowledge needed to participate in the professional process of ship propulsion systems design. Ship Propulsion Units Geometry and Function; Propulsion Shafting Design and Arrangement; Propulsion Shafting Components Design and Selection; Propellers; Thrusters; Reduction Gears and Other Transmission Systems; Electric Propulsion Motors; Ship Propulsion Shafting Vibration; Installation Procedures and Testing Prerequisites - ENSY 1202 (Introduction to Marine Engineering Systems Design): NARC 1102 (Ship Structural Geometry) Duration - 13 weeks Lectures - 3 hours/week Laboratories - 2 hours/week Introduction to Modern Ship Concept; Ship Terminology; Materials Used in Ship Construction; Commercial Ships; Special Purpose Ships; Dynamically Supported Vessels; General Arrangement Drawing; Ship Operations Onboard M.I. Training 156
COURSE DESCRIPTIONS ENSY 2103 (Power and Resistance Technology) This course introduces students to the concepts associated with ship movement and resistance. The course prepares students to perform calculations associated with propulsion and propeller selection. Introduction to Ship Resistance; Ship Friction Resistance; Wave Making Resistance; Other Ship Resistance Components; Similarity and Model Testing; Ship Power and Propulsion; Screw Propellers; Propeller Ship Interaction; Propeller Series; Propeller Cavitation Prerequisites - Math 1101 (Introduction to Calculus); Flds 2100 (Fluid Mechanics) Duration - 13 weeks Lectures - 3 hours/week = 39 hours Laboratories - 2 hours/week every week for 13 weeks = 26 hours _ 65 hours total ENSY 2200 (Auxiliary Systems I) This is a technical course structured to give students the necessary knowledge of how auxiliary systems must function and the operational criteria which must be considered in order to design a given system. Various permutations are considered depending on vessels types. The end result will be the production by the student of his or her own vessel diagrams for the subject systems. Tank Capacities; Bilge Systems, Ballast Systems; Fire Systems; Sea and Fresh Water Cooling Systems; Fuel Oil Systems Prerequisites - ENSY 1202 (Introduction to MESD); CMSK 1201 ( Technical Communications 2) Duration - 13 weeks Lectures - 3 hours/week Laboratories - 2 hours/week ENSY 2201 (Auxiliary Systems II) This course completes the Auxiliary Systems aspect of the program, permitting the student to assimilate the functions and operating criteria and to apply them to the design of the systems listed below. Production of some systems in diagrammatic form will help in the assimilation of the subject matter. Sanitary Supply and Discharge Systems; Lubricating Oil Systems; Compressed Air Systems; Exhaust Gases Systems and Gas Turbine Intakes; Hull Machinery Systems Prerequisite - ENSY 2200 (Auxilliary Systems I) Duration - 13 weeks Lectures - 3 hours/week Laboratories - 2 hours/week ENSY 2202 (Ship’s Spaces Ventilation) This course is designed to give the students a knowledge and understanding of how to calculate the heat accumulation from all operating equipment, size, select and produce drawings for the ventilation systems of all machinery spaces. All required components will be explained and assimilated. Mechanical and Natural Ventilation; Ventilation Guidelines for Accommodations; Ventilation Guidelines for Control Rooms; Ventilation Guidelines for Machinery Spaces; Marine Ventilation Fans; Low and High Velocity Systems; Heating and Air Conditioning; Ventilation System Drafting Prerequisite - ENSY 1202 (Introduction to Marine Engineering Systems Design); ENSY 2201 (Auxiliary Systems) Duration - 5 weeks Lectures - 6 hours/week Laboratories - 4 hours/week ENSY 3000 (Cold Environment Design) This is a technical course structured to give students comprehensive information and detailed knowledge of how the cold environment of the Arctic and Sub-Arctic impact on the design of ship operating in these regions. In addition, the students will learn how the engineer must apply the lessons learned in the past and use innovative ideas and techniques to design ice operating ship propulsion systems, auxiliary systems and equipment that are actually working in the cold environment. Ice and Environmental Conditions; Propulsion of Icebreaking Ships; Selection of Propulsion Systems; Propulsion Shafting for Icebreaking Ships; Ship Service, Controls, Instrumentation and Electric Requirements; Cooling Systems for Icebreaking Ships; Icebreaking, Ice Releasing and Roll Stabilization Systems; Steering and Augmentation to Maneuverability in Ice; Protective Measures against the Cold Environment; Cold Design Special Features Prerequisites - ENSY 2102 (Propulsion Technology); ENSY 2201 (Auxilliary Systems) Duration - 5 weeks Lectures - 6 hours/week = 30 hours total Laboratories - 2 hours/week = 10 hours total ENSY 3002 (Offshore Platform Technology) This is a technical course structured to give students a general idea of drilling operations and comprehensive information and details of how offshore platform are designed and how systems are designed and installed. The Auxiliary Systems, Power Plants, Controls, Production Systems, Floating Facility, Off LoadingMethod and Maintenance Vehicles are discussed and assimilated for functions and details. Offshore Environmental Conditions; Type of Offshore Platforms and Operating Methods; Drilling Operations and Components used for Offshore Work; Platform and Auxiliary Systems Utilized both for Unit Operation or for Drilling Work; Sub-Sea Production and Remote Controls; Arctic Offshore Methods; Offshore Platform Protection from Freezing; Project Prerequisites - ENSY 2102 (Propulsion Technology); ENSY 2201 (Auxilliary Systems) Duration - 13 weeks Lectures - 3 hours/week Laboratories - 2 hours/week ENSY 3102 (Propulsion Arrangement Design) This course concentrates on the complete design and layout of ship propulsion systems. Students will learn to complete propulsion train drawings taking into account Shaft Diameters, Propellers, Bearings, Thrust Block, Couplings and Clutches capable of absorbing torsional and vibration forces. 157
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FISHERIES AND MARINE INSTITUTE OF M
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TABLE OF CONTENTS MISSION To foster
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FISHERIES AND MARINE INSTITUTE OVER
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DIARY FOR ACADEMIC YEAR 2013-2014 N
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DIARY FOR ACADEMIC YEAR 2013-2014 M
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DIARY FOR ACADEMIC YEAR 2013-2014 J
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MARINE INSTITUTE GOVERNANCE MARINE
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MARINE INSTITUTE GOVERNANCE ACADEMI
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ADMISSIONS, ACADEMIC POLICIES, AND
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ADMISSION TO THE MARINE INSTITUTE 2
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ACADEMIC POLICIES AND REGULATIONS 3
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ACADEMIC POLICIES AND REGULATIONS N
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ACADEMIC POLICIES AND REGULATIONS i
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ABC’S OF ON-CAMPUS SERVICES BOOKS
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ABC’S OF ON-CAMPUS SERVICES • T
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FEES AND FINANCIAL INFORMATION The
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FEES AND FINANCIAL INFORMATION Stud
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SCHOLARSHIPS AND AWARDS The Marine
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SCHOLARSHIPS AND AWARDS Randy Ember
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SCHOLARSHIPS AND AWARDS a program i
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SCHOLARSHIPS AND AWARDS new matricu
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UNDERGRADUATE DEGREE PROGRAMS DESCR
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Table 1: Bachelor of Maritime Studi
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UNDERGRADUATE DEGREE PROGRAMS WAIVE
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MASTER OF MARINE STUDIES (FISHERIES
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MASTER OF MARINE STUDIES (FISHERIES
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MASTER OF MARITIME MANAGEMENT MSTM
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MASTER OF TECHNOLOGY MANAGEMENT MST
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JOINT DIPLOMA OF TECHNOLOGY/BACHELO
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POST GRADUATE CERTIFICATE - FOOD SA
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POST GRADUATE CERTIFICATE - QUALITY
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ADVANCED DIPLOMA - SUSTAINABLE AQUA
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ADVANCED DIPLOMA - INTEGRATED COAST
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ADVANCED DIPLOMA - WATER QUALITY PR
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DIPLOMA OF TECHNOLOGY - MARINE ENGI
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DIPLOMA OF TECHNOLOGY - MARINE ENVI
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DIPLOMA OF TECHNOLOGY - MARINE ENVI
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DIPLOMA OF TECHNOLOGY - MARINE ENGI
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COURSE DESCRIPTIONS Welding Safety;
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COURSE DESCRIPTIONS Safety - STCW
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COURSE DESCRIPTIONS better prepare
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