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W4200608978 abstract "In the last few years, modern heat transfer technologies significantly improved to provide more efficient systems in industries. One of those technologies is cooling electronic components in laminar flow using water nanofluids, which is interesting. This research used a ternary hybrid nanofluid with various nanoparticle forms to conduct a numerical investigation of three-dimensional heat transfer and fluid flow over a heated block exposed to a horizontal flow and an impinging jet. The effects of several variables such as the Reynolds number ratio [Formula: see text], volume fraction of nanoparticles [Formula: see text], length of extended jet hole [Formula: see text], and the influence of the inclination angle of the impinging jet inlet [Formula: see text] on the fluid flow and heat transfer were examined. Using the Ansys-Fluent 14.5 program and under laminar flow conditions, the finite-volume method was applied with the help of the SIMPLE algorithm to solve continuity, momentum, and energy equations. Several characteristics are assessed, including velocity streamline, isotherm contours, Nusselt number contours, the average Nusselt number ([Formula: see text]), the friction factor [Formula: see text], and drop pressure [Formula: see text]. The findings of the current analysis revealed that adding an impinging jet can boost the heat transfer rate up to [Formula: see text] better than a non-impingement jet. Also, a significant enhancement in the heat transfer rate was obtained when growing one of these parameters α, [Formula: see text], and E. Moreover, the ternary hybrid nanofluid with different nanoparticle forms significantly boosts the heat transfer rate compared to the traditional nanofluid. The maximum heat transfer is reached as the velocity of the impinging jet rises. Inclining the angle of the impinging jet inlet with [Formula: see text] toward the channel inlet boosted the rate of heat transfer up to [Formula: see text] compared to the perpendicular impinging jet [Formula: see text]. A strong consensus has been reached with the theoretical and experimental findings found in the literature." @default.
W4200608978 created "2021-12-31" @default.
W4200608978 creator A5031473661 @default.
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W4200608978 date "2021-12-30" @default.
W4200608978 modified "2023-09-24" @default.
W4200608978 title "Numerical investigations of heat transfer around a hot block subject to a cross-flow and an extended jet hole using ternary hybrid nanofluids" @default.
W4200608978 cites W1990627071 @default.
W4200608978 cites W2002303236 @default.
W4200608978 cites W2003978617 @default.
W4200608978 cites W2005314239 @default.
W4200608978 cites W2012782156 @default.
W4200608978 cites W2036658130 @default.
W4200608978 cites W2041754421 @default.
W4200608978 cites W2062365588 @default.
W4200608978 cites W2078171166 @default.
W4200608978 cites W2078453696 @default.
W4200608978 cites W2079178838 @default.
W4200608978 cites W2111991851 @default.
W4200608978 cites W2123013410 @default.
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W4200608978 cites W2210801079 @default.
W4200608978 cites W2338963324 @default.
W4200608978 cites W2573374939 @default.
W4200608978 cites W2604113192 @default.
W4200608978 cites W2765297479 @default.
W4200608978 cites W2767115819 @default.
W4200608978 cites W2792064877 @default.
W4200608978 cites W2800956249 @default.
W4200608978 cites W2806842414 @default.
W4200608978 cites W2902549695 @default.
W4200608978 cites W2904649722 @default.
W4200608978 cites W2910738335 @default.
W4200608978 cites W2911352858 @default.
W4200608978 cites W2911611267 @default.
W4200608978 cites W2946634892 @default.
W4200608978 cites W2947798961 @default.
W4200608978 cites W2972771953 @default.
W4200608978 cites W2977223060 @default.
W4200608978 cites W2977860490 @default.
W4200608978 cites W2992470995 @default.
W4200608978 cites W2996157985 @default.
W4200608978 cites W3006654432 @default.
W4200608978 cites W3012284368 @default.
W4200608978 cites W3015430506 @default.
W4200608978 cites W3036402141 @default.
W4200608978 cites W3040550888 @default.
W4200608978 cites W3043755533 @default.
W4200608978 cites W3046062074 @default.
W4200608978 cites W3084007723 @default.
W4200608978 cites W3089828973 @default.
W4200608978 cites W3092110252 @default.
W4200608978 cites W3092918164 @default.
W4200608978 cites W3111003130 @default.
W4200608978 cites W3116419283 @default.
W4200608978 cites W3119236947 @default.
W4200608978 cites W3120967622 @default.
W4200608978 cites W3123586428 @default.
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W4200608978 cites W3126640090 @default.
W4200608978 cites W3135803364 @default.
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W4200608978 cites W3158935628 @default.
W4200608978 cites W3164857193 @default.
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W4200608978 doi "https://doi.org/10.1177/09544062211049872" @default.
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