Co-founded the computational lab facility to aid Pulse Detonation Engine's experimental research facility at Punjab Engineering college.
Used an open-source Deflagration to Detonation (DDT) solver, ddtFOAM, to numerically analyze DDT phenomenon inside a detonation tube filled with H2-air fuel mixture.
Modeled detonation tube with different combinations of DDT enhancement devices.
Solved 2-D compressible RANS equation to evaluate the impact of blockage percentage, blockage distance, and blockage efficacy offered by DDT devices.
Implemented parallelization to reduce the run time of the simulation by 2 days.
Presented the research at NCICEC 2019, India and 2020 IEEE Aerospace Conference, USA.
Published the research in Springer and IEEE Digital Xplore Library.
