Institution
Indian Institute of Technology Madras
Facility•Chennai, Tamil Nadu, India•
About: Indian Institute of Technology Madras is a facility organization based out in Chennai, Tamil Nadu, India. It is known for research contribution in the topics: Catalysis & Heat transfer. The organization has 20118 authors who have published 36499 publications receiving 590447 citations.
Papers published on a yearly basis
Papers
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TL;DR: In this article, the authors describe the high overpotential, stability, and selectivity in the use of a stable catalyst for the conversion of carbon dioxide into selective hydrocarbons.
Abstract: Conversion of carbon dioxide into selective hydrocarbon using a stable catalyst remains a holy grail in the catalysis community. The high overpotential, stability, and selectivity in the use of a s...
198 citations
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TL;DR: In this article, the authors describe a novel synthesis procedure for silver decorated functionalized hydrogen induced exfoliated graphene (Ag/HEG) and preparation of nanofluids using this material.
Abstract: In the present work we describe a novel synthesis procedure for silver decorated functionalized hydrogen induced exfoliated graphene (Ag/HEG) and preparation of nanofluids using this material. Further, thermal conductivity and convective heat transfer studies are carried out for these nanofluids. A simple chemical reduction method is implemented to synthesize uniformly coated Ag/HEG and characterized by different experimental techniques. Ag/HEG is used for making nanofluids considering the high thermal conductivity of graphene and silver nanoparticles. Ag/HEG has been dispersed in deionized water and ethylene glycol using ultrasonic agitation and proper dispersion is achieved without any surfactant. Thermal conductivity and heat transfer studies on Ag/HEG dispersed nanofluids show an enhancement in the corresponding values compared to the base fluid. The level of enhancement depends on the volume fraction and temperature at which the measurement is performed. Ag/HEG dispersed deionized water based nanofluid shows an enhancement of ∼25% for 0.05% volume fraction at 25 °C. Similarly, the heat transfer coefficient of Ag/HEG based nanofluids also shows a large enhancement compared to the base fluid. The synthesized nanofluid is stable for more than three months.
197 citations
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TL;DR: In this article, a 3D numerical analysis of the porous disc line receiver for solar parabolic trough collector is presented based on renormalization-group k-e turbulent model by using Therminol-VP1 as working fluid.
196 citations
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TL;DR: In this paper, the authors presented linear thermal buckling and free vibration analysis for functionally graded cylindrical shells with clamped-clamped boundary condition based on temperature-dependent material properties.
196 citations
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TL;DR: In this article, the boundary value problem is reduced to a set of coupled ordinary differential equations and then solved by the method of Frobenius by assuming suitable displacement functions, and the results are shown to give results identical to those of a stress function approach for a plane strain problem.
195 citations
Authors
Showing all 20385 results
Name | H-index | Papers | Citations |
---|---|---|---|
Pulickel M. Ajayan | 176 | 1223 | 136241 |
Xiaodong Wang | 135 | 1573 | 117552 |
C. N. R. Rao | 133 | 1646 | 86718 |
Archana Sharma | 126 | 1162 | 75902 |
Rama Chellappa | 120 | 1031 | 62865 |
R. Graham Cooks | 110 | 736 | 47662 |
Angel Rubio | 110 | 930 | 52731 |
Prafulla Kumar Behera | 109 | 1204 | 65248 |
J. Andrew McCammon | 106 | 669 | 55698 |
M. Santosh | 103 | 1344 | 49846 |
Sandeep Kumar | 94 | 1563 | 38652 |
Tom L. Blundell | 86 | 687 | 56613 |
R. Srikant | 84 | 432 | 26439 |
Zdenek P. Bazant | 82 | 301 | 20908 |
Raghavan Srinivasan | 80 | 959 | 37821 |