From HOD's Desk

The Aerospace Engineering Department is more than 40 years old. Till 1991, it was known as Aeronautical Engineering Department. The name change was accompanied by addition of topics relating to spacecraft in the UG curriculum; some members of the faculty had been conducting research and guiding PG students in this area even before formal alteration of the name in 1991. In matters of teaching, research & development, the department has always tried to strike a balance between hardware development and experiments on one hand, and theory and computational aspects on the other.

The faculty strength currently is 20.5.We share one faculty member with Mechanical Engineering Department, although his parent Department is Aerospace Engineering. The department has 202 UG Students (including those pursuing Dual Degree), 64 M.Tech students and 42 Ph.D students. The department has the following laboratories with a clear focus on teaching and research :-

  1. High Speed and Low Speed Aerodynamics Lab
  2. Propulsion Lab
  3. Combustion Lab
  4. Flame Dynamics Lab
  5. Structures Lab
  6. Flight Lab
  7. Aeromodelling Lab
  8. Computational Fluid Dynamics Lab
  9. Structural Analysis Lab
  10. Unsteady Aerodynamics Lab
  11. Design Lab
  12. Autonomous Helicopter Lab
  13. Micro Air Vehicle Lab

The faculty of the department were instrumental in establishing the National Tunnel Facility (NWTF), which now forms a separate section.

Various consultancy and sponsored research and development projects funded by agencies such as, Aeronautics R & D Board, Indian Space Research Organization, Aeronautical Development Agency, Department of Science & Technology, Hindustan Aeronautics Ltd., Delhi Metro Railways Corporation, NAL, Indo-French Centre for the Promotion of Advanced Research (IFCPAR),, TERI, PCRA, DRDO etc., have been undertaken by the Department. The major contributions of the faculty are in the design and development of high speed and low speed wind tunnels, flow measurements using hotwire and laser Doppler anemometry, PIV, reacting flow, CFD, industrial and wind energy aerodynamics, CFD including subsonic, transonic, supersonic and hypersonic flow computations, supersonic/ hypersonic similitude, unsteady aerodynamic modeling and parametric estimation techniques; satellite dynamics; (analysis and development of software in the areas of thermal problems in rocket propulsion) and flow through turbo-machines, structural dynamics, random vibration analysis, design and optimization of fibre reinforced composite structures for static, dynamic and random loading; adaptive finite element analysis; smart structures; multi scale modeling; damage in composite structures; behavior of adhesive joints; helicopter dynamics, aeroelasticity; wind turbines; modeling of advanced materials; micro/mini air vehicles, autonomous helicopter and insect flight.