S
Sarit K. Das
Researcher at Indian Institute of Technology Ropar
Publications - 23
Citations - 348
Sarit K. Das is an academic researcher from Indian Institute of Technology Ropar. The author has contributed to research in topics: Nanofluid & Microchannel. The author has an hindex of 11, co-authored 23 publications receiving 245 citations. Previous affiliations of Sarit K. Das include Indian Institutes of Technology & Indian Institute of Technology Madras.
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Superior dielectric breakdown strength of graphene and carbon nanotube infused nano-oils
TL;DR: In this article, Graphene (Gr) nanoflakes and carbon nanotubes (CNT) have been experimentally observed for the first time to exhibit augmented dielectric breakdown strengths compared to the base transformer oils.
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Performance evaluation of a brine-recirculation multistage flash desalination system coupled with nanofluid-based direct absorption solar collector
TL;DR: In this article, a mathematical model for multistage flash (MSF) desalination system with brine recirculation (BR) configuration is developed in which the heat source for BR-MSF is chosen to be a nanofluid-based direct absorption solar collector (DASC) for which a numerical model is developed.
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Influence of heating surface characteristics on flow boiling in a copper microchannel: Experimental investigation and assessment of correlations
TL;DR: In this article, the effect of surface characteristics on flow boiling heat transfer and pressure drop in a microchannel using degasified and deionized water as the working fluid was investigated.
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Heat spreader with parallel microchannel configurations employing nanofluids for near–active cooling of MEMS
TL;DR: In this paper, a specific design of the PMCS such that it can be implemented at ease on the heat spreader of a modern microprocessor to obtain near-active cooling.
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Parametric study of the energy efficiency of the HDH desalination unit integrated with nanofluid-based solar collector
TL;DR: In this paper, a numerical model has been prepared for DASC-based HDH system which aims to evaluate the energy efficiency of this combined system by calculating gained output ratio as a function of various parameters, related to the DASC, such as particle volume fraction (fv), height (H) and length (L), mass flow rate of nanofluid inside the collector, and amount of solar energy incident (q) on the collector.