This code simulates the fluid-structure-interaction of a moving body, e.g. a pitching-plungig elliptic foil or an oscillating cylinder cylinder, subjected to a uniform inflow.
Use the make file for compilation. Enter make in the terminal to compile the source codes finally generating run_executable.out. Next, take hint from the jobscripts (openmp.cmd or openmpscript.sh) provided to run the executable on a cluster or a local system.
@article{majumdar2020capturing,
title={Capturing the dynamical transitions in the flow-field of a flapping foil using Immersed Boundary Method},
author={Majumdar, Dipanjan and Bose, Chandan and Sarkar, Sunetra},
journal={Journal of Fluids and Structures},
volume={95},
pages={102999},
year={2020},
publisher={Elsevier}
}
@article{shahperformance,
title={Performance Enhancement of an Immersed Boundary Method Based FSI Solver Using OpenMP},
author={Shah, Chhote Lal and Majumdar, Dipanjan and Sarkar, Sunetra}
}
@inproceedings{majumdar2020nonlinear,
title={Nonlinear fluid-elastic behavior of a flapping wing with low-order chord-wise flexibility},
author={Majumdar, Dipanjan and Bose, Chandan and Sarkar, Sunetra},
booktitle={ASME International Mechanical Engineering Congress and Exposition},
volume={84546},
pages={V07AT07A028},
year={2020},
organization={American Society of Mechanical Engineers}
}
@article{majumdar2023passive,
title={Passive dynamics regulates aperiodic transitions in flapping wing systems},
author={Majumdar, Dipanjan and Ravi, Sridhar and Sarkar, Sunetra},
journal={PNAS nexus},
volume={2},
number={4},
pages={pgad086},
year={2023},
publisher={Oxford University Press US}
}
@phdthesis{majumdar2022thesis,
title={Investigating the Transitional Dynamics in the Flow-Field Past a Flapping Foil using Immersed Boundary Method},
author={Majumdar, Dipanjan},
year={2022},
school={Indian Institute of Technology Madras, Chennai, India}
}