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- Title
Insight of mixed convectional heat transport in molybdenum disulfide-water nanofluid flow on moving vertical permeable plate with homogeneous-heterogeneous reactions.
- Authors
Pandey, Amit Kumar; Begum, Momtaz; Rajput, Sohita; Bhattacharyya, Krishnendu; Dular, Mitu; Banerjee, Astick; Chamkha, Ali J.
- Abstract
This analysis is framed to take care of the high heat transfer demand from various application prospects and in this context nanofluid may be in consideration because nanofluids are well-known liquids with higher heat transfer capabilities. Here, a mixed convection flow of Molybdenum disulfide-water (MoS2-H2O) nanofluid on a moving vertical plate is examined when there are chemical reactions. Nanofluid problem is investigated using Tiwari and Das model, and numerically solved by "bvp4c" method. For the considered effects in the study, overshoots in temperature profile of nanofluid are observed. Momentum and thermal layer thicknesses become thinner with suction and thicker with blowing. Temperature overshoot is higher for blowing cases. Enhanced homogeneous–heterogeneous reactions lead to rise of the concentration boundary layer's thickness. Also, magnitude of surface-drag force decays and cooling rate enhances with MoS2-H2O nanofluid mixed convection. For weaker suction and for blowing, cooling of nanofluid is faster with larger volume fraction of nanoparticles, but contrast results are obtained for greater suction. Importantly, compared to the homogeneous reaction, the heterogeneous reaction exhibits more impactful influences on flow and heat-mass transport characters.
- Subjects
NANOFLUIDS; NANOFLUIDICS; MOLYBDENUM; FREE convection; SOLAR collectors; BOUNDARY layer (Aerodynamics); CHEMICAL reactions; HEAT transfer
- Publication
Modern Physics Letters B, 2024, Vol 38, Issue 24, p1
- ISSN
0217-9849
- Publication type
Article
- DOI
10.1142/S0217984924501495