Why this course?Naval architects and marine engineers deal with the world’s largest moving structures and most powerful vehicles – from huge ships to sailing yachts, from fast ferries to offshore wind turbines and oil platforms. Marine engineering is the engineering speciality of design, construction, installation and operation of machinery and propulsion systems for ships and marine structures.
This degree aims to develop engineers capable of dealing with engineering challenges on a wide range of marine vehicles, with additional skills and understanding in the impact and importance of marine engineering on their successful design, construction, repair, and maintenance.
In addition to core Naval Architecture subjects, you'll study a range of specialised marine engineering subjects, such as control theory and practice, electrical systems, design of marine engines (diesel, diesel-electric and gas turbine), propeller and shafting systems, system design and simulation, green technology and fuel cell technology Marine Engineering High Impact List of Articles PPts Journals 2970. Sergei Sazhin Presentation - Modelling of Automotive Fuel Droplet Heating and .
What you’ll studyYears 1 & 2Our courses have a common core on which you’ll build more specialist knowledge. In Years 1 and 2, you’ll follow this core, so it’s possible to change course.
You’ll study engineering science and the fundamentals of naval architecture including:buoyancy and floatationYears 3 & 4You’ll study more advanced subjects related to the design of conventional ships, and the range of machinery and systems which provide the various services required on-board ships. You’ll study state-of-the-art tools for analysing the water flow around ship hulls, the stresses and strains in the hull structure, and the behaviour of ships in waves.
You’ll also study the design of machinery, power and electrical systems, transmission and propulsion systems as well as refrigeration and heating systems. There’s also a specialised individual project on a subject which you will choose.
This can involve any combination of calculations, design, computer studies or tank-testing using any of the department’s facilities. Year 5You’ll study further specialist subjects covering topical areas such as energy management and environment protection, regulation and maintenance of marine systems, computer simulation of marine machinery, and marine renewable energy.
You’ll take part in a substantial group project to design an innovative vessel or structure. Work placementLots of our students go on work placements during the summer holidays.
Due to our close links with industry, there are many work placement and internship opportunities for students. Previous work placement opportunities include:student internships at Samsung Heavy Industries ship building yard in South Koreagroup work experience visits to ship building yards in Chinanumerous summer internships with various high-profile companies in the maritime and oil & gas industriesresearch internships within our own world-class research centreFacilitiesCatalina - our departmental racing yachtthe largest ship-model experiment tank in any UK universitytowing/wave tank exclusively for teaching purposesmarine engine laboratoryStudent competitionsWe support and promote students in various competitions and awards; from cash bursaries for top performing students to the highest of awards from international organisations.
In recent years, some of our students have been successful in the following high-profile competitions:Science, Engineering & Technology Student of the Year (SET Awards)Best Maritime Technology Student (SET Awards)double winner of BP's Ultimate Field Trip competitionStrathclyder of the YearOrchid - a mentoring programme for students by studentsIntroduced in 2011 by Guy Drori, a Naval Architecture and Ocean Engineering student, the Orchid programme aims to assist students to achieve their academic goals and graduate with honours. The programme is managed by students for students in a confidential manner.
Orchid’s main objectives are to:allow additional support and development for those who do not usually ask for assistanceallow students with high achievements to help fellow studentsincrease camaraderieOpen days & eventsApplicants are invited to attend 'Insight', a half-day introduction to the department, which includes a question and answer session with a member of staff.
Meng naval architecture & marine engineering | university of
A number of these events are held between the months of November and March IJME - International Journal of Maritime Engineering Part A of The Royal Papers presenting case histories will report on new or existing techniques, To order/subscribe, contact the Publications Department at [email protected] .
Please contact us regarding visits at other times.
Accreditation Accredited by the Royal Institution of Naval Architects on behalf of the Engineering Council for the purposes of fully meeting the academic requirement for registration as Chartered Engineer. Accredited by the Institute of Marine Engineering, Science and Technology on behalf of the Engineering Council for the purposes of fully meeting the academic requirement for registration as Chartered Engineer.
Course contentThis class will provide the basic tools to prepare you for more advanced studies in your course. You’ll gain an understanding of what has become known as classical mechanics including a study of forces, energy, work, momentum and heat.
You’ll learn how these are connected and how they can be applied to engineering uction to Naval Architecture and Marine EngineeringStudents are provided with a background of the various issues, terminology and concepts related to the course. You’ll learn about the importance of marine transportation to the global economy, industry and leisure industries and gain an understanding in applications of fundamental engineering principles related to the marine is Tools for Marine DesignThis class will equip you with some of the important basic graphical and computational tools required for the rest of the course.
You’ll be introduced to tools such as AutoCAD, Rhino, Microsoft Excel, Mathcad and Matlab and be given the opportunity to consolidate the new theoretical knowledge gained in other modules through numerical atics 1BThis class will provide the basic mathematical requirements to prepare you for more advanced studies in your course. You’ll learn about the concepts and applications of functions, differentiation, integration and complex atics 2BThis class will provide the basic mathematical requirements to prepare you for more advanced studies in your course.
You’ll learn about the concepts and applications of calculus, geometry, vectors, matrices and numerical ve ClassesYou'll have the opportunity to select an elective class from the University’s extensive list of classes permitted in Year 1. This class will introduce you to the fundamental principles of naval architecture and will examine how they are applied in practice for floating bodies.
You’ll learn about the principles of hydrostatics and the stability of marine vehicles, together with their application to safe Engineering FundamentalsThis class will address the important principles related to marine engineering systems. You’ll learn about the fundamentals of thermodynamics, thermal systems, electrical networks, systems and ples of Marine Design and ProductionThis class will explain the main activities carried out in a modern shipyard and critically examine the role of management service departments.
You’ll learn about the basic principles of modern shipyard layout and rationalisation, steel production and outfitting is and Design of Marine Structures 1This class provides you with an introduction to fixed offshore structure design and the material science and properties of the materials used in the marine industry.
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You’ll gain practical experience of the use of CAD and CAM software in marine design, an appreciation of design and production processes and take part in a substantial design, build and test exercise in the marine atics 3BThis class will continue on from your mathematics classes in Year 1, further enhancing your mathematical requirements to prepare you for more advanced studies in your course Naval Architecture and Marine Engineering. Applicants are invited to attend 'Insight', a half-day introduction to the department, which includes a question and .
You’ll learn about advanced estimation methods, calculus and differential equations.
This module will provide you with an insight into marine business and allow you to work on your ‘soft’ business skills. You’ll gain an appreciation of the fundamentals of communication, project work, planning and managerial skills, including writing, speaking, listening, interviewing and teamwork.
Marine DesignThis module will examine the processes and methods used to design ships and other marine vehicles. You’ll learn about the design processes of marine vehicles and structures and gain an appreciation of the technical, economic and social influences on design and the influences of statutory regulations and classification society ynamics, Resistance and PropulsionThis class provides you with an introduction to the concepts and fundamentals of hydrodynamics.
You’ll learn about how water flows past a ship or marine structures hull, how to calculate the resistance of a ship and hence how to calculate propulsion Engineering Systems and Control You'll be provided with an introduction to automation and control theory with applications to marine systems. Students learn about the theory and design of pipe flow, heat exchangers, fuel systems, cooling systems etc.
and how system integrity links with ship is and Design of Marine Structures 2This class provides an understanding of the techniques which may be used to analyse the behaviour of marine structural components like steel beams and plates. You’ll learn how to calculate bending moments, stresses and deflections of marine structures as well as gaining an understanding of the theoretical basis of finite element Marine EnvironmentAn introduction to fluid mechanics as applied to marine hydrodynamics.
You’ll learn about the key properties of waves and seastates, the methods used to calculate their energy and velocity, and how to model them through spectral techniques and ples and Application of Marine MachineryStudents gain an understanding of the process of designing and/or selecting marine machinery components and their integration with existing ship systems. You’ll learn about the underlying theory and calculation methods used for component design and power demand estimations in various systems including pumps, fuel systems, rudder and control systems Business and Financial ManagementYou'll acquire a broad appreciation of the marine industry and the key factors for successful projects.
You'll gain experience of working in teams, representing companies in the marine industry, and preparing a business plan for a proposed new venture. This class will provide you with a demonstration of the important seakeeping characteristics of marine vehicles and explain the factors influencing this behaviour.
You’ll learn how to identify the factors determining the manoeuvrability of a marine vehicle and study the implications to design and and Practice of Marine CFDThis class will introduce you to the theoretical background of marine computational fluid dynamics (CFD) using the finite volume method.
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You’ll also have a go at solving a simple 2D engineering problem using a commercial CFD Element Analysis of Marine StructuresThis module will provide you with a theoretical understanding of stiffness and finite element methods for marine structures NAFC Marine Centre Skills for Work – Maritime and Engineering (14-16yr olds); Foundation Please feel free to get in contact and I hope to see you soon!.
You’ll learn the theory of key concepts and then be given a simple engineering problem, in which you will code your own stiffness method program in Mathcad to Power and Electrical SystemsThe design, operation and management of marine power systems are explored on this class.
Students learn about the various components required to successfully power a ship with regards to safety, minimising environmental impact and economic Refrigeration and Air Conditioning This class will provide you with the knowledge of the design, operation and management of marine refrigeration and air conditioning systems. You’ll learn the theoretical calculations and knowledge as well as the design and practical application of different refrigeration and air-conditioning systems in marine applications.
Marine Transmission and Propulsion SystemsYou'll gain an understanding of the design, operation and management of marine power transmission systems. You’ll learn the various theoretical calculations and knowledge of key marine transmission topics including gearbox design, propellers and related performance, shaft system arrangement and Engineering Project Individual project: in this class you'll be given the opportunity to carry out an individual project, under the supervision of a member of academic staff, in a topic area of interest to you.
You’ll develop skills related to technical writing, literature searching, referencing and presentation. Group project: The second part of this class involves a group design project.
Along with a group of your peers you'll design an engine room for a vessel in which you'll apply previously learnt knowledge of engine room design, marine components and systems selection and integration. In this class, you'll work as part of a team addressing a design problem, which is linked to current research activities or has a practical relevance to industry.
You and your team will be responsible for selecting a problem, identifying objectives, defining methodology, gathering information, carrying out technical investigations and presenting your work to a panel which includes an industry ed Marine DesignDuring this class, you'll get an insight into ship design, including risk-based ship design and optimisation. You’ll learn about a variety of methods, tools and techniques that can be applied in solving problems covering the whole life cycle of a vessel (design, construction, operation and disposal).
Waterborne Transportation SystemsAn in-depth insight into the markets, economics and operational systems, which are fundamental to the provision of waterborne transport are provided in this module. Students learn about key transportation markets, the relationships between quality, safety, maintenance and repair in shipping and the integrated nature of the transport Marine Regulatory FrameworkThis class will provide you with a comprehensive introduction to the marine regulatory framework, which is series of prescriptive rules and regulations covering most design and operational issues in shipping.
You’ll learn about the background to its development, a description of the current framework and future enhancements due for ble Marine Energy SystemsStudents learn about the ways in which the maritime environment can offer a significant contribution, in a sustainable manner, to global energy demands.
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You’ll learn about the latest developments, research and applications of marine engines, propulsion systems and marine technologies including the latest application of LNG in Engineering Simulation & ModellingThe general concepts, advantages and limitations of computer based system simulation in a marine engineering context are explored in this class Naval Architecture and Marine Engineering. Applicants are invited to attend 'Insight', a half-day introduction to the department, which includes a question and .
You’ll learn about the various concepts and methods used to mathematically model a wide range of marine systems and also design and perform simulation studies on these systems using industry standard simulation software s Availability and Maintenance You'll receive an insight into the qualitative and quantitative systems’ reliability techniques as well as maintenance methodologies for application in the maritime industry.
You’ll learn how to formulate, solve, report and present a comprehensive maintenance strategy based on the application of reliability based tools. AssessmentThe main method of assessment is exams in January and May.
Presentations, laboratory reports and other forms of coursework are submitted and marked individually throughout the year. Each teaching year has two semesters of 10 weeks, which include formal lectures, tutorials, laboratory and coursework assignments, industrial visits, class tests, two weeks of additional tutorials and/or project presentations.
This is followed by revision classes, private study and exams. Most assignments involve associated tutorials for guidance.
Group exercises, including presentations and peer assessment, are an important part of your development. Learning & teachingThe main methods of teaching are lectures, tutorials, laboratory and group design classes.
You can expect an average of 20 hours of these per week. Self-study is important as it develops the confidence to tackle unfamiliar problems. This is an essential skill for professional engineers.
Throughout the course, field trips will give you first-hand experience of industrial activities in the marine sector.
ProjectsIndividual and group projects are a major part of the course from the start Introduction to Marine Engineering and over 2 million other books are available for Amazon Kindle . Introduction to Marine Engineering Paperback – 26 Feb 1996. This second edition deals comprehensively with all aspects of a ship's machinery from propulsion and steering to deck .
First-year students carry out a basic design, build and evaluate project. Second-year students work in teams on a more detailed design/build/test exercise as part of the Engineering Applications class.
Part of the third-year marine design incorporates a ‘rules-based’ group design project. In fourth year, students carry out a performance-based group design project as well as their major individual project.
In fifth year, MEng students carry out a major, first principles-based, group design project. External speakers and/or industrial support play an important part in group and individual project work.
Laboratory workThis is introduced from first year with sessions covering basic aspects of hydrostatics and stability. In second-year, students take part in the design and build of a small-scale racing yacht.
This combines the use of professional Naval Architecture design software for hull design and computer-aided manufacture for hull generation. This is combined with hands-on practical skills and hydrodynamic testing.
An intensive, laboratory-based class in third year involves more formal experimental testing, in which students carry out a number of hydrodynamics, dynamics and marine engineering experimental projects. Fourth-year students have the opportunity to carry out a laboratory-based individual project.
Further experimental work is carried out in fifth year as part of the Marine Simulation class. Fifth-year group design teams have access to the laboratory facilities.
Computer softwareThis is used to demonstrate the practical application of theory and also gives you exposure to current engineering practice.
Beng naval architecture & marine engineering | university of
You’ll gain exposure to software packages for stability, dynamics and simulation, FEA, hydrodynamics, risk-based design as well as other more specialised software packages.
Guest lecturesDuring term time, we arrange weekly seminars in which leaders and pioneers of the maritime, oil and gas and marine renewables industries visit the department and present to students Get a feel for nuclear marine engineering one of of the worlds most high profile organisations working with the Royal Navy..
This is a great way of supplementing your education with the latest developments and gaining industry contacts for your future career. Entry requirements2018/19: £9,250Assuming no change in Rest of UK fees policy over the period, the total amount payable by undergraduate students will be capped.
For students commencing study in 2017/18, this is capped at £27,750 (with the exception of the MPharm and Integrated Masters courses); MPharm students pay £9,250 for each of the four years. Students studying on Integrated Masters degree programmes pay an additional £9,250 for the Masters year with the exception of those undertaking a full-year industrial placement where a separate placement fee will apply.
InternationalScholarship opportunitiesIn addition to the University’s extensive scholarship portfolio, our department has several organisations offering sponsorships and scholarships to students each year, including RINA, IMarEST, Lloyd’s Register Foundation, American Bureau of Shipping, the Worshipful Company of Shipwrights and the Society for Underwater Technology. New arrangements for scholarships and summer work are added continually so please refer to our scholarship search for more information.
University preparation programme feesInternational students can find out more about the costs and payments of studying a university preparation programme at the University of Strathclyde International Study Centre. Additional fees £3 per book £5 deposit returned before graduation Please note: All fees shown are annual and may be subject to an increase each year.
How can I fund my studies?Students from Scotland and the EUIf you're a Scottish or EU student, you may be able to apply to the Student Award Agency Scotland (SAAS) to have your tuition fees paid by the Scottish government.
Scottish students may also be eligible for a bursary and loan to help cover living costs while at University. For more information on funding your studies have a look at our University Funding page.
Students from England, Wales & Northern IrelandWe have a generous package of bursaries on offer for students from England, Northern Ireland and Wales International Students (Non UK, EEA)We have a number of scholarships available to international students.
Take a look at our scholarship search to find out more The Marine Engineering MSc is concerned with the design, analysis and the ship design exercise is assessed through a report and oral presentations, and the .
"> Available scholarshipsCareersWith skills including analytical, numeracy and problem-solving, naval architecture and marine engineering graduates are suited to a wide range of career opportunities. Our graduates work in defence, marine designers, oil and gas – subsea, on-shore/off-shore, ship classification, technical services, engineering consulting.
Job titles include Naval Architect, Junior Naval Architect, Ship Surveyor, Marine Engineer, Project Engineer. Graduate achievementsGraduate Peter Dow won the Science, Engineering and Technology Student of the Year Award and best Maritime Technology Award for his excellent fourth-year project on carbon capture and storage.
Martin Shaw, a former student of the department, is behind the design of the snake-like Pelamis wave energy device in Orkney. Naval Architecture and Marine Engineering graduate Phil Kirk works as a Marine Engineer on one of Disney’s cruise ships in the Bahamas.
Many graduates also go on to postgraduate study or research. How much will I earn?Your salary will depend on your individual role and the industry you work in.
However, the average salary for a marine engineer is £30,000 and £35,000 for a naval architect.