Saturday, December 4, 2010

Naval Architecture & Marine Engineering PHD Program Overviews

A Doctor of Philosophy, or Ph.D., in Naval Engineering allows students to gain an advanced education in the design and construction of boat systems and structures. A Ph.D. in the field often involves years of intensive, individualized research into a particular aspect of naval architecture.

Doctor of Philosophy in Naval Architecture and Marine Engineering

Ph.D. programs in naval architecture and marine engineering are designed for students who are proficient in engineering and applied mechanics, and who are interested in studying the design of boating structures. Most doctoral programs available in the field of naval architecture allow students to design their own coursework and programs of study. Students can choose a concentration from such areas as naval hydrodynamics, marine systems design, coastal processes, marine design, marine structures, offshore engineering or marine systems management.

Before students embark upon research in a particular area of the naval architecture field, they must run their proposed course of study by a university committee and have it approved. They then spend a designated minimum number of credit hours researching and writing a Ph.D. dissertation that explores or advances theories in a particular subject of marine science study. Some Ph.D. programs also require that students pass an examination on more broad concepts in the field, such as general mechanics or engineering.

Educational Prerequisites

A Ph.D. is the most advanced degree level available in the field of naval architecture and marine engineering. Before a student can enroll in a Ph.D. course of study, he or she must complete a bachelor's and a master's degree program in mechanical engineering, physics, mathematics, civil engineering or aerospace. Many prospective doctoral students must also complete qualifying examinations before enrolling.

Program Coursework

There are no set series of courses in a Ph.D. program in naval architecture and marine engineering. Students are allowed to select their own course of study and research based upon their interests and aspirations in the field. Some areas of study or individualized courses might include the following:

  • Hydrostatic stability
  • Vessel arrangements
  • Hull geometry
  • Boating structures and design
  • Marine power systems
  • Structural mechanics
  • Marine dynamics
  • Ship production

Employment Outlook and Salary Info

A naval architect or marine engineer is responsible for researching, conceiving and designing new and advanced boating systems and production platforms. Graduates of a Ph.D. program in the field focus heavily on the research aspects of the industry, and they often receive research positions in academic or naval associations. According to the U.S. Bureau of Labor Statistics, the median annual wage for a naval architect or marine engineer was about $74,330 in 2009 (www.bls.gov).


Colleges offering Naval Architecture & Marine Engineering Courses

Institute of Shipbuilding Technology,Goa

Institute of Shipbuilding Technology, Goa (ISBT) was established by Society for Industrial & Technical Education of Goa (SITEG) (formerly know as Shipbuilding Industry Society of Goa (SIG)) in the year 1981. Perhaps ISBT is the only institute in India to be established and managed by a group of Industries. Requirement of highly specialized trained manpower by the Shipbuilding / Barge building, repair and allied industries forced the industries in this business to come together under the banner of “Shipbuilding Industry Society of Goa” and established the Institute. Main objective of SITEG is to provide industry with well trained technical manpower to suit their requirements, and conduct retraining programmes for existing workforce.



INSTITUTE OF SHIPBULDING TECHNOLOGY,GOA ( ISBT)


ISBT is a government aided institute receiving grants from Government of Goa, under the Grant-in-aid pattern. Establishment of ISBT is approved by All India Council for Technical Education, New Delhi.

First course to be introduced at ISBT, was Diploma programme in Shipbuilding Engineering in August 1981. This course till today is considered as a unique course to be offered only by ISBT. It is a sandwich type of course with compulsory industrial training of one year at shipyards located in Goa and in neighbouring states. This course is now accepted as entry qualification for Engineer Officers by Directorate General of Shipping, Govt. of India.

Having achieved reasonable success in offering need based Diploma programmes, ISBT introduced Diploma in Mechanical Engineering with specialization in Material Handling Technology/Heat Power Engineering (now as Diploma in Mechanical Engineering) from the academic year 1990-91 and Diploma programme in Electronics Engineering with specialisation in Marine Electronics from the year 1995-96 (now renamed as Diploma in Electronics & Communication).

After the meaningful implementation of World Bank Project, under which this Institute was covered, Institute has well equipped laboratories for all its three departments, a centralized Computer Centre, an air-conditioned Self Learning Centre with attached Audio-Visual Room and other state of art facility for facilitating the teaching-learning process. An investment of around Rs.6.50 crores has gone into development of infrastructure at ISBT under the World Bank Assisted Project.

ISBT, being managed by Industries, enjoys certain advantage as compared to other institutes managed by Govt. or other Societies. To name a few:

1. Easy access to industries for staff and students.

2. Experienced Industrial personnel as Visiting faculty/Guest faculty.

3. Participation of Industry in development of curriculum, infrastructure development, students

assessment, etc..

4. Industry like approaches in all the functional areas of the institute.

5. Efficient utilization of all infrastructure of ISBT.

6. Business like approach in its management.

Academics - Programmes at ISBT

Presently ISBT offers following Diploma Programmes:

Sr.No.

Title

Intake

Duration

01

Diploma in Shipbuilding Engineering
(sandwich type course incorporating Industrial Training)

40

4 Yrs.

02

Diploma in Mechanical Engineering

40

3 Yrs.

03

Diploma in Electronics and Communication Engineering

30

3 Yrs.


Admission - Entry to ISBT

Selection of candidates for admission is done centrally by the office of the Directorate of Technical Education, Govt, of Goa. Application Form and Prospectus are issued by them during the month of May.

Eligibility

Eligibility conditions prescribed for admissions:

  1. Candidate should be citizen of India.

  2. Passed SSCE or its equivalent with Science, Mathematics and English in one and same sitting.

  3. Passed from the schools of Goa only. *

  4. Secured minimum 50% marks in aggregate of Science and Mathematics at SSCE (40% marks for SC/ST/OBC).

  5. Resident of State of Goa continuously for minimum 10 years immediately preceding the month of receipt of Application with Admission Rule relaxed for certain categories.

  6. Candidates coming with higher qualification are eligible for exemption in few courses as per the rules of Board of Technical Examinations.

* Apart from the above , certain number of seats are reserved for special category as per the norms laid down in the prospectus.

Special Features

Some of the special features of ISBT are:

  • ISBT being established and run by Shipbuilding Industry Society of Goa, has a good liason with Industries in Goa and hence provides students easy access to industries for Project Work, Short Term/Long Term Training, etc.

  • ISBT provides a very dynamic Teaching Learning environment.

  • Easy access to laboratories, computer center, etc. beyond normal practical hours for additional

knowledge and skill development.

  • Project Work carried out by students is rated very high.

  • ISBT has young, dynamic, energetic, well-qualified and trained staff.

  • Self Learning Center works beyond normal working hours of institute and on Saturday to facilitate students Self Learning.

  • At ISBT all activities are student centered.

  • ISBT believes in Personality Development through knowledge and values.



Softwares for Naval Architect - Paramarine

Paramarine is an integrated ship design system, which provides the full range of naval architecture calculations for operation and through-life ship management. The companion product, Seagoing, is used to manage the current ship condition and provide guidance when the ship is damaged. Seagoing is installed on most major RN ships.

Paramarine integrates practical naval architectural design and engineering alongside military specific calculations. A unique design concept design framework facilitates the flexible review of capability and configuration for both ships and submarines. Balanced designs can be reviewed by the software to identify sources of cost and ease of production.

FUNCTIONALITY

Paramarine provides the following functionality:

  • Surface and Solid Modelling
  • Advanced Hullform Generation
  • Stability (V-Lines, Carpet Plots, Red-Risk, Damage Templates)
  • Submarine Stability (including Trim and Inclining)
  • Launching
  • Docking (Dock block loading)
  • Seakeeping (PAT or Proteus)
  • Powering
  • Endurance
  • Manoeuvring (Ship, Trimaran and Submarine)
  • Mercantile, Warship and Submarine Criteria
  • Structural Design
  • NS94D Ultimate Strength analysis
  • Bulkhead Collapse
  • Crack Propagation
  • Design for Production
  • Submarine Pressure Hull analysis
  • Early Stage Design
  • Radar Cross Section.
QinetiQ GRC are the developers of the ParamarineTM suite of software products. This product suite includes:

• Paramarine
• Paramarine SeaWeigh
• Seagoing Paramarine for Ships and Submarines


Paramarine is the worlds only fully integrated Naval Architecture Design and Analysis product that can handle the complexities of ship and submarine design. Its advanced design capabilities are built upon the Siemens PLM ParasolidTM solid modelling capability, which provides much of the geometric detail required to enable the accurate analytical capabilities – as well as providing excellent geometric exchange with other CAD and CAE systems.

Paramarine SeaWeigh and Seagoing Paramarine, the on-board loading computer variants of Paramarine. These products use the same ship or submarine model and analysis techniques ensuring total compatibility between the systems.

The Paramarine product suite therefore enables rapid concept design and development, eliminating costly data transfer between numerous analysis products. The analytical capabilities provided within Paramarine are fully validated by independent third parties.

You will save time, money and understand your technical risks early in the design process through your use of Paramarine.

Various Modules

Stability and Hydrostatics
The stability and hydrostatics analysis modules are used in the intact and damaged conditions to assess the stability of designs against UK, US and Australian Military as well as UK and International Mercantile Standards. This module has been validated by the UK MoD Naval Authority for Ship Stability and is a core analysis capability within Paramarine and its on-board variants, Seagoing Paramarine and Paramarine SeaWeigh. The sophisticated 3D solid modelling techniques utilised by Paramarine provide the high accuracy required for assessing submarine stability, where complex geometries are often involved.

Powering and Endurance
The Powering and Endurance modules utilise a number of in-built powering series to provide highly accurate powering predictions for a given design. When combined with a mission profile, propulsion system components and energy provision, the endurance for a given design can be determined. This allows the design team to optimise their concepts to maximise endurance, minimise fuel consumption and emissions or trade off different propulsion system options.

Structural Analysis
The extensively validated structural analysis modules utilise capability developed by QinetiQ's Maritime Practice. This capability allows the assessment of the structural capability of ships and submarines in both the intact and damaged conditions. Naval Architects and Design Authorities can assess and optimise longitudinal strength, critical sections, bulkhead collapse, crack growth and residual strength as the design evolves against UK Standards. The allied structural desktop toolkit provides a rapid approach for the definition of plate and scantlings using UK and other classification society rules.

Early Stage Design
The Early Stage Design module is based upon the Functional Building Block Approach developed by UCL.

This module allows the designer to build the concept based upon the various functional requirements placed upon the ship or submarine. The designer is able to specify requirements for weight, volume, power, manning, payload and so on to assess the supply provided within their design. The automatic auditing capability provides the designer with the ability to continually assess the balance of the design and to perform trade-off's for different configurations.

Above Water Vulnerability
This module provides the designer with the ability to assess the vulnerability of a given concept to attack. The user can assess, for a given configuration and threat, the effects of a blast on the integrity of its various systems.

Radar Cross Section Analysis
This module allows a non-expert designer to rapidly identify and correct any design features that result in undesirable radar cross section signature. This is achieved through the provision of polar plots as well as a visual representation via bitmaps or movies which highlight areas of high return for any elevation or polar position.

Advanced Hull Form Generation
Our advanced hull form generation capability utilises state-of-the-art XT Technology, where high quality surfaces can be created from a minimum of bounding and internal curves. A number of sophisticated mathematical techniques are available to provide the basis for the user to create industry standard NURBS surfaces. These are used to develop hull forms, superstructure and appendages. Paramarine provides a wide range of curvature analysis and diagnostic tools to allow the design team to refine their hull forms to their required standards.

Design for Production
This module allows the development of a cost of production for the design based upon the engineering work necessary to build the design, by combining the cost of labour and materials involved in the construction. It allows the design team to assess the merits of different production strategies, as well as trading off different system options. This unique capability provides an alternative to established weight based costing techniques which are dependent on historical data that may not be applicable to today's innovative design and construction techniques.

Manoeuvring
Paramarine provides manoeuvring analysis for ships and submarines. The surface ship module can assess monohull and trimaran manoeuvring for standard and user defined manoeuvres and can also include autopilot inputs. The submarine module is a coefficient based approach for the analysis of underwater manoeuvres.

The FORAN interface
This provides a two-way data transfer capability between Paramarine and Sener’s ship production system, FORAN. The advanced transfer involves Paramarine providing the vessel’s external envelope and internal spatial arrangement (through the subdivided hull) to Sener's FORAN system for production detailing.