Academic Calendar - Fisheries and Marine Institute - Memorial ...
Academic Calendar - Fisheries and Marine Institute - Memorial ...
Academic Calendar - Fisheries and Marine Institute - Memorial ...
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COURSE DESCRIPTIONS<br />
ENGR 2104 (Blueprint Reading)<br />
This course is designed to develop the skills necessary for the<br />
student to interpret working drawings <strong>and</strong> prints common to<br />
industry.<br />
Basic Fundamentals; Sketching; Notes <strong>and</strong> Specifications;<br />
Dimensions; Bill of Materials; Sections; Working Drawings;<br />
Abbreviations <strong>and</strong> Symbols; Production <strong>and</strong> Processes; Welding<br />
Symbols; Piping Drawings; Electrical Drawings; Hydraulic<br />
Drawings; Fasteners<br />
Lectures - 40 hours<br />
ENGR 3100 (Blueprint Reading)<br />
This course is designed to develop the skills necessary for the<br />
student to interpret working drawings <strong>and</strong> prints common to<br />
industry.<br />
Basic Fundamentals; Sketching; Notes <strong>and</strong> Specifications;<br />
Dimensions; Bill of Materials; Sections; Working Drawings;<br />
Abbreviations <strong>and</strong> Symbols; Production <strong>and</strong> Processes; Welding<br />
Symbols; Piping Drawings; Electrical Drawings <strong>and</strong> Hydraulic<br />
Drawings<br />
Lectures - 40 hours<br />
ENSY 1101 (Prime Movers & Auxiliary Power<br />
Plants)<br />
This course is designed to provide the students with the<br />
engineering knowledge needed to participate in the design of<br />
ship power plants <strong>and</strong> systems.<br />
Ship Power Plants; <strong>Marine</strong> Diesel Engines; <strong>Marine</strong> Gas Turbines;<br />
<strong>Marine</strong> Steam Generators; <strong>Marine</strong> Steam Turbines<br />
Duration - 13 weeks<br />
Lectures - 3 hours/week = 39 hours total<br />
ENSY 1200 (Auxiliary Components)<br />
This is an introductory course designed to give students a<br />
knowledge <strong>and</strong> underst<strong>and</strong>ing of the components required to<br />
design <strong>and</strong> construct the auxiliary piping systems of ships <strong>and</strong><br />
offshore platforms.<br />
<strong>Marine</strong> Materials; Piping for <strong>Marine</strong> Application; Valves; Strainers<br />
<strong>and</strong> Steam Traps; Piping Supports <strong>and</strong> Expansion Joints;<br />
Vibration Isolators; Pipe Insulation; Heat Exchangers; Piping<br />
Arrangement Drafting.<br />
Prerequisite - ENGR 1100 (Engineering Graphics)<br />
Duration - 5 weeks<br />
Lectures - 6 hours/week<br />
Laboratories - 4 hours/week<br />
ENSY 1201 (Ship Types And Systems)<br />
This is an introductory course designed to provide students with<br />
engineering knowledge about ship types.<br />
Vessel; Propulsion Systems; Prime Movers; Pumping <strong>and</strong> Piping<br />
Systems; Control Systems; <strong>Marine</strong> Engineering Drawing<br />
Prerequisite - ENGR 1100 (Engineering Graphics)<br />
Duration - 5 weeks<br />
ENSY 1202 (Introduction to <strong>Marine</strong> Engineering<br />
Systems Design)<br />
This is an introductory course designed to provide students with<br />
practical knowledge of the ship’s environment, ship terminology<br />
<strong>and</strong> various aspects of <strong>Marine</strong> Engineering Systems Design.<br />
The Ship’s Environment; Ship Terminology; Hull Form; Pumps;<br />
Pumping <strong>and</strong> Piping Systems; Piping for <strong>Marine</strong> Applications;<br />
Valves<br />
Co-requisite - Engineering Graphics 1103<br />
Duration - 13 weeks<br />
Lectures - 3 hours/week = 39 hours total<br />
Laboratories - 1 hour/week = 13 hours total<br />
ENSY 2000 (Ship Engineering Design Process)<br />
This course sets the methodology for the development of the<br />
student’s engineering design project. At the same time it offers an<br />
opportunity to assimilate some economic aspects by preparing an<br />
owner specification in conjunction with an economic study.<br />
Analysis <strong>and</strong> Response to Request For Proposal; Indexing <strong>and</strong><br />
Scheduling; Estimating Ship Construction Costs <strong>and</strong> Life Cycle<br />
Costing; Design Package Documentation; Relationship of Auxiliary<br />
Systems to Vessel Type; Quality Control in Shipbuilding<br />
Prerequisites - ENSY 1202 (Introduction to <strong>Marine</strong> Engineering<br />
Systems Design)<br />
Co-Requisite - CMSK 1201 (Communication at Work)<br />
Duration - 6 weeks<br />
Lectures - 6 hours/week = 36 hours total<br />
Laboratories - 2 hours/week = 12 hours total<br />
ENSY 2102 (Propulsion Technology)<br />
This course is designed to provide the students of the <strong>Marine</strong><br />
Engineering Systems Design program with the engineering<br />
knowledge needed to participate in the professional process of<br />
ship propulsion systems design.<br />
Ship Propulsion Units Geometry <strong>and</strong> Function; Propulsion<br />
Shafting Design <strong>and</strong> Arrangement; Propulsion Shafting<br />
Components Design <strong>and</strong> Selection; Propellers; Thrusters;<br />
Reduction Gears <strong>and</strong> Other Transmission Systems; Electric<br />
Propulsion Motors; Ship Propulsion Shafting Vibration;<br />
Installation Procedures <strong>and</strong> Testing<br />
Prerequisites - ENSY 1202 (Introduction to <strong>Marine</strong> Engineering<br />
Systems Design): NARC 1102 (Ship Structural Geometry)<br />
Duration - 13 weeks<br />
Lectures - 3 hours/week<br />
Laboratories - 2 hours/week<br />
Introduction to Modern Ship Concept; Ship Terminology;<br />
Materials Used in Ship Construction; Commercial Ships; Special<br />
Purpose Ships; Dynamically Supported Vessels; General<br />
Arrangement Drawing; Ship Operations Onboard M.I. Training<br />
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