M.Tech. in Aerospace Propulsion is a 2- year full- time course divided into 4 semesters, with each semester lasting a period of 6 months. Aerospace propulsion devices embody some of the most advanced technologies, ranging from materials, fluid control, heat transfer and combustion. In order to maximize the performance, sophisticated testing and computer simulation tools are developed and used.
Aerospace propulsion comprehensively covers the mechanics and thermal-fluid aspects of aerospace propulsion, starting from the fundamental principles, and covering applications to gas-turbine and space propulsion systems. It presents modern analytical methods using MATLAB and other advanced software and includes essential elements of both gas turbine and rocket propulsion systems.
Gas turbine coverage includes thermodynamic analyses, turbine components, diffusers, compressors, turbines, nozzles, compressor-turbine matching, combustors and afterburners. Rocket coverage includes chemical rockets, electrical rockets, nuclear and solar sail.
Propulsion usually refers to the engine technology which supplies the energy needed to get an aircraft from the end of a runway into the air and keep it there. In the design, production and in- service support of propulsion systems, components of engineering, manufacturing and management disciplines are involved.
The average annual course fee in India ranges anywhere between INR 10,000 and 4 lacs, depending upon the institute offering the course. The average annual starting salary offered in India to successful postgraduates of the course ranges between INR 4 and 14 lacs, depending upon the candidate’s expertise in the field.
Top Colleges for Master of Technology [M.Tech] (Aerospace Propulsion)
M.Tech. in Aerospace Propulsion: Course Highlights
Listed below are some of the major highlights of the course.
|Course Level||Post Graduate|
|Examination Type||Semester System|
|Eligibility||Bachelor’s degree or any equivalent degree|
|Admission Process||Counselling after taking entrance examination|
|Course Fee||INR 10,000 to 4 lacs|
|Average Starting Salary||INR 4 to 15 lacs|
M.Tech. in Aerospace Propulsion: What is it About?
Aerospace is a sophisticated and interdisciplinary specialization involving leading- edge technology. Aerospace Engineers find lucrative employment opportunities in areas of design, manufacture and maintenance, R&D industries, teaching institutions and Regulatory bodies. The curriculum includes design and manufacturing of aircraft and spacecraft including launch vehicles, advances in materials and manufacturing technologies, concurrent engineering, and computerized software tools.
Top Institutes Offering M.Tech. in Aerospace Propulsion
Some of the top institutes offering the course in the country with the corresponding locations and fees charged by the respective colleges are listed below.
|COLLEGE NAME||CITY||AVERAGE ANNUAL FEE IN INR|
|Institute of aeronautical engineering||Hyderabad||INR 57,000|
Eligibility for M.Tech. in Aerospace Propulsion
Listed below are the criteria of eligibility needed to be met for admission to the course:
- Higher & Senior Secondary qualification with a minimum aggregate score of 60%.
- B. Tech/ BE in Aerospace/ Aeronautical/ Avionics / CSE / ECE/ MECH/ EEE / EIE with a minimum aggregate score of 60%.
M.Tech. in Aerospace Propulsion: Admission Process
For admission to the M. Tech. program, aspiring candidates with B.E./ B.Tech. degree in Aerospace/ Aeronautical/ Mechanical/ Automobile/ Production/ Civil/ Chemical/ Naval Architecture/ Electrical/ Electronics/ Electronics and Communication/ Metallurgy/ Metallurgy and Material Science/ Instrumentation/ Mechatronics, or a 4- year B.Sc. degree in Physics or Mathematics, or M.Sc. degree in Physics or Mathematics or Engineering Physics may appear for the GATE.
Candidates are admitted to the course based on their GATE score.
M.Tech. in Aerospace Propulsion: Career Prospects
For an Aerospace Engineer, employment opportunities abound in the field of Aeronautical Engineering, such as Airlines, Air Force, Corporate Research Companies, Defence Ministry, Helicopter Companies, Aviation Companies, NASA, and many others.
Increasing popularity of air travel and space exploration require expertise in design and maintenance aircrafts in departments of flight mechanics, guidance, navigation, tracking and control of launch vehicles, missiles, aircraft, mini aerial vehicles (MAV), integrated navigation systems, airborne and space borne sensors and precision tracking systems, Hardware in Loop Simulation, Cooperative missions for MAVs.
Some of the popular professional avenues open to such postgraduates are listed below with the corresponding salaries offered for the respective positions.
|JOB POSITION||JOB DESCRIPTION||AVERAGE ANNUAL SALARY IN INR|
|Aerospace Technical Manager||Aerospace technical managers innovate by developing the products and services of tomorrow. Altran works alongside its clients on every link in the value chain of their project, from conception to industrialization.||10,00,000|
|Aerospace Design Engineer||Aerospace Design Engineers are responsible for using advanced education and experience in mechanical, electrical, materials, and computer engineering disciplines to plan and construct spacecraft and aircraft.||8,00,000|
|Aerospace Tech Writer||Aerospace Tech Writers are responsible for developing and maintaining interpretation of engineering drawings and reports, and generating maintenance instructions from them. Thorough knowledge of standard maintenance practices, care, and precautions while working on aircraft are an absolute must.||4,00,000|
|Aerospace Domain Expert||Aerospace Domain Expert is an authority in a particular area or topic, responsible for expert systems software development and assessment.||8,16,000|
|Project Manager||Project Managers are responsible for planning, budgeting, overseeing and documenting all aspects of a specific project. They may work closely with upper management to make sure that the scope and direction of each project is on schedule, as well as other departments for support. They may work by themselves, or be in charge of a team to get the job done. They work in a variety of fields, from technical/ IT to Human Resources, advertising/ marketing, construction, and more.||14,00,000|
M.Tech. in Aerospace Propulsion: Syllabus and Course Description
A semester - wise breakup of the course’s syllabus is tabulated below.
|Mathematical methods in aerospace engineering|
|Elements of aerospace|
|Atmospheric flight mechanics|
|Flight dynamics and control|
|Aerodynamics and flight mechanics lab|
|Aerospace vehicle design|
|Project phase I|
|Project phase II|
|Turbulence in fluid flow|
|Advanced computational fluid dynamics|
|Navigation guidance and control|
|Optimal control theory|
|Space mission design|
|Multi-disciplinary design optimization|