Lattice Boltzmann and Immersed Boundary Method for Fluid-Solid Interactions

  • 2019-12-09
  • 書報討論

Topic : Lattice Boltzmann and Immersed  Boundary Method for Fluid-Solid Interactions
Speaker :  
Dr. Sunil Manohar Dash
Assistant Professor, Aerospace Engineering,
Indian Institute of Technology (IIT) Kharagpur


Date & Location : 

2019/12/12 (Thu) 3:30 pm - 5:20 pm
Engineering 5 Building B1 International Conference Hall (工程五館 B1 國際會議廳)

Abstract : 
A flexible forcing immersed boundary lattice Boltzmann model (IB LBM) will be introduced in this talk In the conventional IB LBM scheme, explicit formulation of the force density term may not guarantee the exact satisfaction of the no slip velocity or no jump temperature boundary conditions The unsatisfied boundary conditions may lead to the non physical solutions such as, streamline and isotherm penetration into the solid boundary that further  ompromises the dynamic forces experienced by the solid from its surrounding fluid regime In this research an implicit approach is followed where the force density term is obtained using a unique formulation with single Lagrangian velocity correction term (or a single Lagrangian temperature correction term, in case of thermal flow) operated in flexible number of forcing steps With mathematical simplicity the proposed formulation removes the above identified defects and found to be computationally efficient The proposed algorithm is further extended for three dimension flow studies and is validated with several bench mark test cases comprising of both 2 D and 3 D stationary and  oving boundary flow scenarios Finally, few experiments are conducted to support the numerical observations.
Speaker Profile :
Dr. Sunil Manohar Dash is an Assistant Professor, in the Aerospace Engineering Department, at Indian Institute of Technology ( Kharagpur India Prior to this position he has worked as, a Research Fellow in the International Design Center, at SUTD MIT Alliance, Singapore and in the Mechanical Engineering Department at National University of Singapore, Singapore He earned his Ph D Degree from National University of Singapore, Singapore in 2014 and B Tech degree in Mechanical Engineering from National Institute of Technology ( Rourkela, India in 2009 He has received a silver medal from the former president of India, Dr A P J Abdul Kalam and a gold medal from the Institution of Engineers India ( for his excellent performance in his undergraduate studies He has published more than 20 international journal and conference papers His current research interests are in the field of flapping aerodynamics, active flow separation control using biomimetic design and experimental and computational fluid mechanics His previous research experiences include numerical solver development using lattice Boltzmann scheme for fluid solid interaction problems, natural convection in complex cavities, particle sedimentation problems.