BTech Aeronautical Engineering

aeronautical engineering

BTech Aeronautical Engineering

BTech Aeronautical Engineering is an exciting, demanding and dynamic career for any engineering aspriant having taste in space and air. This is one of the best engineering branch to plan career in space engineering, aviation industry, drone technology, etc. BTech in Aeronautical engineering can be classified into two categories: Aeronautical engineering with aircraft or spacecraft specialisation. In other words, aerospace engineers who work with aircrafts are called aeronautical engineers and those working with spacecrafts are called aerospace engineers.

Aerospace engineers design, develop and test aircraft, spacecraft and missiles, and supervise ere manufacture of these products. For instance, they actually design and manufacture machines that are incredibly complex. They may work with technology relating to aviation, defence systems, and space exploration. In addition, all these put together offers them a bright career after BTech Aeronautical Engineering with a broader prespective.

Academic Qualifications in the career of Aeronautical Engineer

A BTech Aeronautical Engineering or Aerospace Engineering is required for advancement in your career you can pursue M.Tech. or Ph.D. in aeronautics. Most of the institutions will have laboratories available for  academic and research projects. Some of the labs are

  • High Speed and Low Speed Aerodynamics Lab,
  • Propulsion Lab, Combustion Lab,
  • Flame Dynamics Lab, Structures Lab,
  • Flight Lab, Aeromodelling Lab and even an
  • Autonomous Helicopter Lab.

Career after BTech Aeronautical Engineering

Aeronautical engineering is one of the popular career options for those who wish a career in the aviation industry. This include manufacturing, design of airplanes, spacecraft, satellite, jumbo jets, missiles, etc. Abover all, this branch in engineering offers exciting careers related with space and air. Aeronautical Engineers learn all the technical specifications, design, prototyping and testing and building mechanisms behind all the flying bodies. This includes all the recent technologies like drone and unmanned aerial vehicles. These technologies are being utilized in most of the sectors including defense. In addition, aeronautical engineering branch deals with aerodynamic and mechanical aspects of those machines and systems. This discipline covers navigation systems, radars and several other communication networks.

Aeronautical engineers work in manufacturing units, space stations etc. Their work however, mainly involves design and devel of aircraft parts, testing new aerodynamic aviation system, quality management and high improvement of vehicles and maintenance. The industry involves locomotives and swift water transportation; like speed boats, hovercrafts, etc. In addition to all these, it includes huge super mega structures like skyscrapers.

Job after BTech Aeronautical Engineering

Aeronautical engineering may lead to jobs with space research organizations like NASA and Indian Space Research Organisation (ISRO) or with large aviation companies like Boeing and Airbus. Similarly, so of the government organizations offering employment are DRDO (Defense Research and Development Organisation), CAD (Civil Aviation Department), NAL (National Aeronautics Ltd) and HAL (Hindustan Aeronautics Limited). The field is highly dynamic and exciting. Therefor, this branch is one of the favorites of engineering aspirants for the interesting projects that it offers.

Skills learned in BTech Aeronautical Engineering

In addition to the theoretical knowledge, employers expect you to have deep Knowledge of aerodynamics, propulsion, navigation, electronics, physics, thermodynamics, environment, metallurgy, acoustics, etc.

Career Opportunities after BTech Aeronautical Engineering

As a conclusion, service of Aeronautical engineers is a necessity in everyday life.

  • Aviation Industry — private and public airlines. The airline industry needs qualified technical engineers to develop and maintain their growing fleet of aircrafts.
  • Satellite and space research organizations
  • Indian Space Research Organisation (ISRO)
  • Defence Research and Development Organisation (DRDO)
  • Hindustan Aeronautics Ltd (HAL)
  • National Aeronautics Labs (NAL), etc.
  • Defence- Military, Air Force, DRDO
  • Automobile and fast moving locomotive industries- superfast train/ sky buses.

A trainee Aerospace Engineer gets approx. Rs 25,000 or more per month in an airline Organisations like research, aircraft development and manufacturing and others. After you gain experience of a couple of years your pay can go up to Rs 80,000 a month or more plus benefits as per government rules.

Specializations in Aerospace / BTech Aeronautical Engineering

Five broad areas in which it offers specialization are Aerodynamics, Control and Guidance, Propulsion, Structures, and Systems Engineering.  Right now, major work is going on in the areas of Air Breathing Propulsion, Aerospace Control Systems, Aero-Servo-Elasticity, Aerothermo-Mechanics, Composites, Computational Fluid Dynamics, Industrial Aerodynamics, Non-destructive testing and Wind Energy.

Organizations like AICTE, ADA, ARDB, DST, ISRO, and MHRD sponsor many of the research projects.

Research at IIT Kharaghpur

The Aerodynamics and Fluid mechanics research group at IIT Kharagpur explores a diverse range of topics with a variety of approaches. Numerical work includes development of high accuracy numerical schemes for incompressible and compressible flow using higher order and compact schemes. Experimental work involves use of wind tunnels, water tank, etc accompanied by measurement instruments like PIV, flow visualization techniques, high precision load cells and balances & pressure scanners to investigate various flow problems like fixed and flapping wings, train models, bluff bodies, sub boundary layer vortex generators in supersonic flow etc.

Research in Career after BTech Aeronautical Engineering

DNS and LES of compressible nozzle and diffuser flows, active and passive control of jets in various configurations, jet aeroacoustics, bluff body flow control, fixed and flapping wing aerodynamics, high enthalpy flows, Lagrangian coherent structures, aerodynamic study of high speed train configurations, multiphase flow simulations in hybrid rocket combustors, shock wave boundary layer interactions, RCS jet in supersonic cross flow and chaff cloud aerodynamics.

DNS and LES of compressible nozzle and diffuser flows, active and passive control of jets in various configurations, jet aeroacoustics, bluff body flow control, fixed and flapping wing aerodynamics, high enthalpy flows, Lagrangian coherent structures, aerodynamic study of high speed train configurations, multiphase flow simulations in hybrid rocket combustors, shock wave boundary layer interactions, RCS jet in supersonic cross flow and chaff cloud aerodynamics.

Some activities in reasearch

Direct Numerical Simulation (DNS) and Large-eddy Simulation (LES) of compressible turbulent flow in nozzles & diffusers, LES of shock-turbulence interaction in supersonic pipe & diffuser flows, prediction of flow transition for hypersonic flows, experimental studies on controlled shock-boundary layer interactions in hypersonic intake, slosh dynamics and fluid structure interaction, experimental investigation of low aspect ratio rigid wing executing main flapping, pitch and heave motions, bio-inspired drag reduction of low Reynolds number flyers, investigation on the distribution of absorbed energy after a laser induced breakdown in quiescent air, and aerodynamic design of traction rolling stock with speed potentials of 250 km/h upgradeable up to 350 km/h.

Look for Career in Aerospace Engineering

Author: Admin

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