\n
Technical Drawing \u2013 interpretation of machinery drawing and marine engineering drawing and design handbooks; technical communication for design; basics of AutoCAD software to make 2D drawings \n
Skills Training \u2013 hands-on training in the safe use and care of common hand tools, power tools, and fasteners found on board ships \n
Introduction to Ship\u2019s Machinery Systems \u2013 understanding the general machinery layout and reading machinery system schematics; systems examined include sea water cooling, compressed air, fresh water, bilge and ballast, lubrication oil, fuel, and sewage \n
Ship Security Officer \u2013 qualifications and duties of Ship Security Officer: security of a ship, implementing and maintaining a ship security plan; liaising with a Company Security Officer and a Port facility Officer; awareness of terrorist threads; obtaining current intelligence and threat assessments \n
Marine First Aid \u2013 applying first aid in the event of an accident or illness on board; immediate action; first aid kits; body structure and function; toxicological hazards aboard ship; examination of the patient; spinal injuries; burns, scalds, and effects of heat and cold; fractures, dislocations, and muscular injuries; medical care of rescued persons, including distress, hypothermia, and cold exposure; radio medical advice; pharmacology; sterilization; cardiac arrest, drowning, and asphyxia; psychological and psychiatric problems; patient assessment \n
Oil and Chemical Tanker Familiarization Training \u2013 basic design of oil and chemical tankers and their cargo handling systems; the hazards involved in the handling and carriage of crude oil, petroleum products, and chemical cargoes \n
Cooperative Training \u2013 integration of academic study with work experience / sea phases conducted with reputable companies \n
Applied Mechanics \u2013 solving applied engineering problems in kinematics, dynamics, power and energy, friction, stress, and strain \n
Automation and Controls \u2013 introduction to basic control engineering, instrumentation systems; temperature, pressure, level, flow, and other general measurement processes \n
Maintenance and Repair of Diesel Engines \u2013 introduction to engine construction and rebuilding; hands-on disassembly and diagnosis of the components of an operational engine; completion of a parts requisition and an engine condition report \n
Naval Architecture \u2013 the effect of hydrostatics related to flotation and ship stability, hull coefficients, and center of pressure; the effect of a change in the ship\u2019s displacement on its center of gravity; load diagram; center of pressure \n
Thermodynamics \u2013 units used to describe the state of a thermodynamic system: pressure, temperature, volume, and energy; hands-on solving of problems requiring the calculation of changes of pressure, temperature, volume, and energy in non-flow thermodynamic processes \n
Propulsion Plant Simulator \u2013 hands-on practice on operating all the machinery in the engine room \n
Leadership and Teamwork \u2013 understanding leadership and teamwork at the operational level on board a ship \n
Advanced Firefighting \u2013 classroom learning and practical training in fire safety; managing and controlling fire situations aboard ships \n
Marine Law \u2013 overview of international and US legislation covering marine safety, pollution prevention, certification, inspections, maintenance, and emergency response \n
Refrigeration and Air Conditioning \u2013 safe operation and maintenance of a shipboard refrigeration and air conditioning plant \n
Dry Docking and Corrosion Control \u2013 preparing, planning, and executing a successful dry docking of a ship; causes of corrosion in the marine environment, and its prevention on the hull and sea water and diesel engine cooling systems \n\n
Master\u2019s Degree in Naval Engineering \u2013 One to Two Year Duration
\nAt the master\u2019s level students can design their program in consultation with a faculty member, to focus on their particular area of interest. Possible concentrations include design, production, and management; dynamics and control; hydrodynamics; marine and offshore structures; marine renewable energy; robotics and autonomy; structural and hydro-acoustics; and yacht design. The program\u2019s culminating requirement is a thesis based on original research.
\n
Doctoral Degree in Naval Engineering \u2013 Five to Six Year Duration
\nThe master\u2019s program involves a lot of taught courses. It emphasizes the transition from pure subject learning to independent research. On the other hand, the doctoral degree is like a very long dissertation project. Ph.D. students have a great deal of independence. They have the benefit of supervision from a faculty advisor and may complete some taught classes, but their focus is on their independent research, on contributing original \u2013 new \u2013 knowledge to the field of naval engineering.
\n
Below are some examples of graduate level courses in naval engineering, as well as a description of each of the concentration/research areas listed above in the master\u2019s degree section. The courses taken by individual master\u2019s degree and Ph.D. candidates will vary, depending on the focus of their thesis or dissertation.
\n
Possible Graduate Level Courses
\n- Ship Production and Industrial Engineering \u2013 build strategy, shipyard layout and equipment, manufacturing techniques, outfitting and painting techniques, material properties, corrosion, welding, fatigue, and composite materials
\n- Business Acumen for Technical Leaders \u2013 managerial accounting, strategy and performance, market evaluation, operations management, negotiations and contract management, business-case building and valuation
\n- Ship Design \u2013 use of advanced design software and databases to design a vessel according to specified criteria
\n- Shipbuilding Internship \u2013 supervised, technical work experience in an approved organization, or participation in a research project with faculty
\n
Possible Research Areas
\n- Design, Production, and Management \u2013 development of new design concepts and new manufacturing methods for ships, platforms, and other marine structures
\n- Dynamics and Control \u2013 design of marine systems that respond to unexpected conditions and events including rough seas, blast events, shocks, and extreme motions and loads
\n- Hydrodynamics \u2013 how to make ships and submarines more effective, efficient, and durable; how to extract usable energy from waves, ocean currents, and wind
\n- Marine and Offshore Structures \u2013 how to make marine structures (ships, submersibles, coastal structures, offshore platforms and plants) stronger, more durable, more reliable, and easier to build; evaluating structural integrity using math-based assessments; optimizing strength and reliability by analyzing fatigue, fracture, dynamic response, and ultimate strength
\n- Marine Renewable Energy \u2013 how to put the ocean\u2019s energy to work as an abundant, clean, renewable source of power; harnessing the hydrokinetic energy of currents and tides
\n- Robotics and Autonomy \u2013 creating robots and vehicles to explore, map, and protect marine environments; developing new transportation technologies including autonomous cargo ships and remote underwater vehicles
\n- Structural and Hydro-Acoustics \u2013 how sound is produced in marine structures and how sound spreads through the ocean; structural acoustics, noise produced by machinery, vibration, and remote sensing; military and environmental applications
\n- Yacht Design \u2013 architectural design of high-performance sailing yachts; aerodynamics, hydrodynamics, stability, structures, and fluid dynamics
", "display_order": 2, "created_at": "2019-08-29T17:56:39.519251-07:00", "updated_at": "2021-12-09T14:22:45.897490-08:00"}, {"degree_id": 95, "page": 1, "title": "Degrees Similar to Naval Engineering", "summary_markdown": "**[Aerospace Engineering](/degrees/aerospace-engineering-degree/)** \r\nAerospace engineering degree programs teach the analytical, computational, and engineering and design skills needed to work in the aerospace industry. Students learn how to apply this knowledge to the manufacturing, testing, and monitoring of civil or commercial aircraft, military aircraft, missiles, rockets, spacecraft, lunar vehicles, and space stations. \r\n\r\n**[Architectural Engineering](/degrees/architectural-engineering-degree/)** \r\nDegree programs in architectural engineering combine architecture and engineering. Their goal is to produce engineers with technical skills in all aspects of building design and construction. Courses, therefore, cover subjects like architectural drawing and design, building construction, lighting and acoustics, energy systems, and fire safety. \r\n\r\n**[Civil Engineering](/degrees/civil-engineering-degree/)** \r\nThis degree field is focused on the processes of design and planning of civil infrastructure like roads, tunnels, bridges, dams, railroads, and airports. In their work, civil engineers are concerned with such things as how much weight a structure can support and the environmental issues presented by construction. The emphasis of civil engineering degree programs is math, statistics, engineering systems and mechanics, building codes, and statistical analysis. \r\n\r\n**[Electrical Engineering](/degrees/electrical-engineering-degree/)** \r\nStudents of electrical engineering learn how to use physics, electronics, and electromagnetism to design devices that are powered by or produce electricity. Most degree programs in the field start with foundational classes in calculus, physics, and chemistry.", "content_markdown": "**Engineering Technology** \r\nEngineering technology programs teach the engineering skills required to assist engineers in their work. Common classes are computers for engineering technology, structural systems, strength of materials, and technical drawing. In addition to aerospace engineering technology, subfields include automotive engineering technology, civil engineering technology, construction engineering technology, electronics engineering technology, mechanical engineering technology, and industrial engineering technology. \r\n\r\n**[Mechanical Engineering](/degrees/mechanical-engineering-degree/)** \r\nStudents of mechanical engineering learn how to research, design, develop, and test mechanical and thermal devices, including tools, sensors, engines, and machines. These devices serve many industries, including the aerospace, medical, energy, and manufacturing sectors. In addition to coursework in engineering and design, degree programs in the field include classes in mathematics, life sciences, and physical sciences. \r\n\r\n**[Petroleum Engineering](/degrees/petroleum-engineering-degree/)** \r\nDegree programs in petroleum engineering teach students how to find and safely and environmentally remove petroleum and natural gas from the earth. \r\n\r\n**[Robotics Engineering](/degrees/robotics-engineering-degree/)** \r\nRobotics engineering is focused on designing robots and robotic systems than can perform duties that humans are either unable or prefer not to perform.", "content_html": "
Engineering Technology
\nEngineering technology programs teach the engineering skills required to assist engineers in their work. Common classes are computers for engineering technology, structural systems, strength of materials, and technical drawing. In addition to aerospace engineering technology, subfields include automotive engineering technology, civil engineering technology, construction engineering technology, electronics engineering technology, mechanical engineering technology, and industrial engineering technology.
\n
Mechanical Engineering
\nStudents of mechanical engineering learn how to research, design, develop, and test mechanical and thermal devices, including tools, sensors, engines, and machines. These devices serve many industries, including the aerospace, medical, energy, and manufacturing sectors. In addition to coursework in engineering and design, degree programs in the field include classes in mathematics, life sciences, and physical sciences.
\n
Petroleum Engineering
\nDegree programs in petroleum engineering teach students how to find and safely and environmentally remove petroleum and natural gas from the earth.
\n
Robotics Engineering
\nRobotics engineering is focused on designing robots and robotic systems than can perform duties that humans are either unable or prefer not to perform.
", "display_order": 3, "created_at": "2019-08-29T17:56:39.521328-07:00", "updated_at": "2021-12-09T14:24:08.767009-08:00"}, {"degree_id": 95, "page": 1, "title": "Skills You’ll Learn", "summary_markdown": "The process of earning a degree in naval engineering leaves students with a notably wide scope skills: \r\n\r\n- Blueprint Reading/Understanding \r\n- Technical / Mechanical \u2013 math and physics; design techniques; working with drawings, models, and CAD software \r\n- Project Management / Leadership \u2013 leading teams; complying with standards and regulations; decision-making \r\n- Communication \u2013 interacting with clients, management, and staff \r\n- Creativity \u2013 developing and improving on solutions \r\n- Critical / Analytical Thinking \u2013 critically analyzing complex problems \r\n- Conflict Resolution \u2013 reconciling differences among team members \r\n- Organization and Time Management \u2013 efficient scheduling and planning \r\n- Attention to Detail \u2013 precise design and implementation \r\n- Problem-Solving \u2013 responding to challenges and issues in a calm and efficient manner \r\n- Visualization \u2013 transforming architectural/aesthetic designs into functional ones", "content_markdown": "", "content_html": "", "display_order": 4, "created_at": "2019-08-29T17:56:39.523472-07:00", "updated_at": "2021-12-09T14:19:03.391722-08:00"}, {"degree_id": 95, "page": 1, "title": "What Can You Do with a Naval Engineering Degree?", "summary_markdown": "Graduates with naval engineering degrees find employment in the various sectors of the field: \r\n\r\n- Classification Societies \u2013 private companies whose mandate is to rate new ships based on predefined technical standards and then to assign the ships a \u2018class\u2019 according to their design \r\n- Marine Suppliers \r\n- Marine Surveying \u2013 marine surveyors inspect all types of ships to determine seaworthiness \r\n- Model Basins \u2013 a model basin is a tank in which ship models are tested by being towed at various speeds \r\n- Offshore Industry \u2013 oil rigs, power generation projects such as offshore wind turbines and tidal power \r\n- Ship and Yacht Design and Building \r\n- Shipping / Cruise Lines / Ferry Services \u2013 on-board naval/marine engineers keep shipping tankers, cruise ships, and ferries operating safely and efficiently \r\n- Shipyards \r\n- Tug and Barge Operations \r\n- US Army Corps of Engineers \r\n- US Navy", "content_markdown": "", "content_html": "", "display_order": 5, "created_at": "2019-08-29T17:56:39.525576-07:00", "updated_at": "2021-12-09T14:19:03.417243-08:00"}], "degree_specializations": []}">