Course abstract
The aim of this course is to introduce the transport phenomena of microparticles like viscous drops, microorganisms, rigid colloids, soft particles involve in miro- and nano-fluidics. The course provides basic understanding of particular solutions of Navier-Stokes equations, application of Stokes stream function, introduction to governing equations of porous media and electro-hydrodynamics. Subsequently, glimpses of important applications like migration of viscous drops under external gradients, active motion of particles that model swimming microorganisms will be provided. Electrically driven flow in micro- and nano-scale will be introduced. Motion of charged colloids, soft particles mimicking bacteria, humic substances, under electric field in electrolyte or gel medium will be modelled. Numerical techniques to solve the equations governing the advection-diffusion transport will be introduced. The course will be supplemented with assignments on simpler problems related to transport phenomena.
Course Instructor
Prof. S Bhattacharyya
S. Bhattacharyya is a senior Professor of Mathematics at IIT Kharagpur working in the area of Computational Fluid Dynamics and Microfluidics Modelling. He has published more than eightyfive research papers in highly reputed international journals. He has completed several research projects sponsored by the DST, SERB and CSIR and has received several awards and fellowships for research collaboration in USA, UK and Germany, which includes the BOYSCAST, DST fellowship, EPSRC, UK fellowship, Max-Planck fellowship, Germany, DARPA, USA etc.More info
Prof. G. P. Raja Sekhar
G P Raja Sekhar is a Professor of Mathematics at IIT Kharagpur working in the area of Viscous flows and flow through porous media. He has published more than 50 publications in reputed international journals. He has completed several research projects sponsored by DST, CSIR. He has received INSA Young Scientist Medal, INSA-Royal Society fellowship, JSPS Post Doctoral Fellowship and Alexander von Humboldt Fellowship for Experienced Researchers. He has contributed one NPTEL video course on Numerical Solutions of ODE and PDE.More info
Teaching Assistant(s)
Course Duration : Jan-Mar 2017
View Course
Syllabus
Enrollment : 01-Jan-2017 to 23-Jan-2017
Exam registration : 30-Jan-2017 to 27-Feb-2017
Exam Date : 26-Mar-2017
Enrolled
287
Registered
4
Certificate Eligible
2
Certified Category Count
Gold
0
Elite
0
Successfully completed
2
Participation
1
Success
.jpg)
Category : Successfully Completed
Elite
.jpg)
Category : Elite
Gold
.jpg)
Category : Gold
Legend
>=90 - Elite + Gold
60-89 - Elite
40-59 - Successfully Completed
<40 - No Certificate
Final Score Calculation Logic
- Assignment Score = Average of best 6 out of 8 assignments.
- Final Score(Score on Certificate)= 75% of Exam Score + 25% of Assignment Score.
Exam score
Final score