Follow
Dhinakaran Shanmugam
Dhinakaran Shanmugam
Professor, IIT Indore (Mechanical Engineering)
Verified email at iiti.ac.in - Homepage
Title
Cited by
Cited by
Year
Fluid motion around and through a porous cylinder
S Bhattacharyya, S Dhinakaran, A Khalili
Chemical Engineering Science 61 (13), 4451-4461, 2006
2222006
Energy storage systems: A review
J Mitali, S Dhinakaran, AA Mohamad
Energy Storage and Saving 1 (3), 166-216, 2022
2202022
Steady viscoelastic fluid flow between parallel plates under electro-osmotic forces: Phan-Thien–Tanner model
S Dhinakaran, AM Afonso, MA Alves, FT Pinho
Journal of colloid and interface science 344 (2), 513-520, 2010
1212010
Heat transfer from a permeable square cylinder to a flowing fluid
S Dhinakaran, J Ponmozhi
Energy conversion and management 52 (5), 2170-2182, 2011
832011
Performance improvement of a flat-plate solar collector by inserting intermittent porous blocks
K Anirudh, S Dhinakaran
Renewable Energy 145, 428-441, 2020
642020
Effective viscosity of nanofluids—A modified Krieger–Dougherty model based on particle size distribution (PSD) analysis
RD Selvakumar, S Dhinakaran
Journal of molecular liquids 225, 20-27, 2017
642017
Vortex shedding in shear flow past tandem square cylinders in the vicinity of a plane wall
S Bhattacharyya, S Dhinakaran
Journal of Fluids and Structures 24 (3), 400-417, 2008
572008
Steady flow of power-law fluids in a 1: 3 planar sudden expansion
S Dhinakaran, MSN Oliveira, FT Pinho, MA Alves
Journal of Non-Newtonian Fluid Mechanics 198, 48-58, 2013
542013
Forced convective heat transfer of nanofluids around a circular bluff body with the effects of slip velocity using a multi-phase mixture model
RD Selvakumar, S Dhinakaran
International Journal of Heat and Mass Transfer 106, 816-828, 2017
532017
MHD Natural convection around a permeable triangular cylinder inside a square enclosure filled with Al2O3− H2O nanofluid: An LBM study
TR Vijaybabu, S Dhinakaran
International Journal of Mechanical Sciences 153, 500-516, 2019
502019
Numerical study on performance improvement of a flat-plate solar collector filled with porous foam
K Anirudh, S Dhinakaran
Renewable Energy 147, 1704-1717, 2020
462020
Effects of Prandtl number on the forced convection heat transfer from a porous square cylinder
K Anirudh, S Dhinakaran
International Journal of Heat and Mass Transfer 126, 1358-1375, 2018
462018
Influence of buoyancy on vortex shedding and heat transfer from a square cylinder in proximity to a wall
S Bhattacharyya, DK Maiti, S Dhinakaran
Numerical Heat Transfer, Part A: Applications 50 (6), 585-606, 2006
412006
Development of skin-on-a-chip platforms for different utilizations: Factors to be considered
J Ponmozhi, S Dhinakaran, Z Varga-Medveczky, K Fónagy, LA Bors, ...
Micromachines 12 (3), 294, 2021
382021
LBM simulation of unsteady flow and heat transfer from a diamond-shaped porous cylinder
TR Vijaybabu, K Anirudh, S Dhinakaran
International Journal of Heat and Mass Transfer 120, 267-283, 2018
382018
Mixed convective heat transfer from a permeable square cylinder: A lattice Boltzmann analysis
TR Vijaybabu, K Anirudh, S Dhinakaran
International Journal of Heat and Mass Transfer 115, 854-870, 2017
352017
On the onset of vortex shedding past a two-dimensional porous square cylinder
K Anirudh, S Dhinakaran
Journal of Wind Engineering and Industrial Aerodynamics 179, 200-214, 2018
322018
A multi-level homogenization model for thermal conductivity of nanofluids based on particle size distribution (PSD) analysis
RD Selvakumar, S Dhinakaran
Powder Technology 301, 310-317, 2016
322016
Nanofluid flow and heat transfer around a circular cylinder: a study on effects of uncertainties in effective properties
RD Selvakumar, S Dhinakaran
Journal of Molecular Liquids 223, 572-588, 2016
292016
Heat transport from a bluff body near a moving wall at Re= 100
S Dhinakaran
International journal of heat and mass transfer 54 (25-26), 5444-5458, 2011
262011
The system can't perform the operation now. Try again later.
Articles 1–20