Profile-ID : 50939

  • Dr. Arunn Narasimhan

  • Professor
  • Indian Institute of Technology, Madras
Publications 1993 - 2018

Publications

  • 56
    Journal Articles
  • 2
    In Proceedings
  • 1
    Book
  • 7
    Inproceedings
  • 4
    Chapter
  • 2
    Conference Paper
  • 2
    Review
  • 56
  • 3
  • 2

Citations / H-Index

656 Citations
15 h-index

Google Scholar

Co-author Network


Expertise

Mechanical Engineering

Convection Heat Transfer, Heat Transfer and Fluid Flow in Porous Media, Heat Transfer and Fluid Flow in Biological Systems.

Personal Information

Dr. Arunn Narasimhan

Male
Department of Mechanical Engineering Indian Institute Of Technology, Madras, Tamil Nadu, India
India,Tamil Nadu,Chennai - 600036


Experience

  • Professor

    Indian Institute of Technology, Madras,Chennai


Qualification

  • Ph.D.

    Southern Methodist University, Dallas, TX, USA


Honours and Awards

2015

Fellowship

Indian National Academy of Engineering

2015

Fellowship

Indian National Academy of Engineering

Read Less

Doctoral Theses Guided

2011

Bio-heat transfer modeling and analysis of laser surgical process in human eye .

Kaushal Kumar Jha, Indian Institute of Technology Madras

2010

Single and two phase convection in mono and bi-disperse porous media .

Bijam Venkata Krishna Reddy, Indian Institute of Technology Madras

2011

Bio-heat transfer modeling and analysis of laser surgical process in human eye .

Kaushal Kumar Jha, Indian Institute of Technology Madras

2010

Single and two phase convection in mono and bi-disperse porous media .

Bijam Venkata Krishna Reddy, Indian Institute of Technology Madras

Read Less

Research Projects

Modeling Temperature-dependent Viscosity Effects in Flow through Non-isothermal Porous Media

Funding Agency : 0

Experimental Determination of Permeability and Form Coefficient of Porous inserts under Non-slug Flow with Non-Darcy Model

Funding Agency : 0

Experimental Determination of Interface Stress-jump Coefficient in a Partially Filled Porous Medium Channel

Funding Agency : 0

Read More

Modeling Temperature-dependent Viscosity Effects in Flow through Non-isothermal Porous Media

Funding Agency : 0

Experimental Determination of Permeability and Form Coefficient of Porous inserts under Non-slug Flow with Non-Darcy Model

Funding Agency : 0

Experimental Determination of Interface Stress-jump Coefficient in a Partially Filled Porous Medium Channel

Funding Agency : 0

Convection in Bi-Disperse Porous Media

Funding Agency : 0

Experiments and Modeling of Two-phase Natural Convection Flows in Heat Generating Porous Media using Local Non-thermal Equilibrium Model

Funding Agency : 0

Porous Medium Approach to Near Compact Heat Exchanger Models: Experimental Determination of Heat Transfer and Hydraulic Parameters

Funding Agency : 0

Heat Transfer Enhancement in Near Compact Heat Exchanger using Tube-to-tube Porous Interconnections

Funding Agency : 0

Natural Convection in Near-Porous Medium Enclosures

Funding Agency : 0

Transient Heat Transfer Model of Human Eye undergoing Laser Surgery

Funding Agency : 0

Porous medium modeling of Trans-scleral drug delivery

Funding Agency : 0

Blood Flow Analysis in Fontan Process of Heart By-pass

Funding Agency : 0

Red Blood Cell Shape and Interaction with Blood Flow in Capillaries

Funding Agency : 0

Genetic Algorithm based Thermal Design Improvement of PCM based Composite Heat Sinks for Cooling Electronics

Funding Agency : 0

Optimization of PCM based Thermal Energy Storage Devices

Funding Agency : 0

Improved Design and Experimental verification of PCM based Composite Heat Sinks for Cooling Electronics

Funding Agency : 0

Inverse Heat Transfer Technique for Surface Temperature Minimization of Disc Heaters used in Microlithography

Funding Agency : 0

Heat Transfer Modeling of Manufacturing Processes in Microlithography

Funding Agency : 0

Natural Convection in Enclosures with Distributed Solid Blocks

Funding Agency : 0

Heat Transfer Enhancement in Natural Convection using Adiabatic Blocks

Funding Agency : 0

Read Less