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Schematic of the microchannel with its dimensions and points (P1(−72.5, 9.9...
Published Online: July 24, 2024
Fig. 2 Schematic of the microchannel with its dimensions and points (P1(−72.5, 9.9), P2(−72.5, −9.9), P3(0, 10.15), P4(0, −10.15), P5(72.5, 9.8), P6(72.5, −9.8), P7(0, 24.5), and P8(0, −24.5)) where data were taken More about this image found in Schematic of the microchannel with its dimensions and points (P1(−72.5, 9.9...
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Temperature distributions for transient input fluid velocity and transient ...
Published Online: July 24, 2024
Fig. 3 Temperature distributions for transient input fluid velocity and transient fin temperature for oscillatory position of fins: ( a ) circular fins, ( b ) triangular fins, ( c ) rectangular fins, ( d ) semi-elliptical fins, ( e ) sickle fins, and ( f ) heterogeneous fins More about this image found in Temperature distributions for transient input fluid velocity and transient ...
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Temperature distributions for constant input fluid velocity and spatially v...
Published Online: July 24, 2024
Fig. 4 Temperature distributions for constant input fluid velocity and spatially varying fin temperature for oscillatory position of fins: ( a ) circular fins, ( b ) triangular fins, ( c ) rectangular fins, ( d ) semi-elliptical fins, ( e ) sickle fins, and ( f ) heterogeneous fins More about this image found in Temperature distributions for constant input fluid velocity and spatially v...
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Temperature distributions for transient input fluid velocity and transient ...
Published Online: July 24, 2024
Fig. 5 Temperature distributions for transient input fluid velocity and transient fin temperature for regular position of fins: ( a ) circular fins, ( b ) triangular fins, ( c ) rectangular fins, ( d ) semi-elliptical fins, ( e ) sickle fins, and ( f ) heterogeneous fins More about this image found in Temperature distributions for transient input fluid velocity and transient ...
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Temperature distributions for constant input fluid velocity and spatially v...
Published Online: July 24, 2024
Fig. 6 Temperature distributions for constant input fluid velocity and spatially varying fin temperature for regular position of fins: ( a ) circular fins, ( b ) triangular fins, ( c ) rectangular fins, ( d ) semi-elliptical fins, ( e ) sickle fins, and ( f ) heterogeneous fins More about this image found in Temperature distributions for constant input fluid velocity and spatially v...
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Temperature distributions for transient input fluid velocity and transient ...
Published Online: July 24, 2024
Fig. 7 Temperature distributions for transient input fluid velocity and transient fin temperature for equal position of fins: ( a ) circular fins, ( b ) triangular fins, ( c ) rectangular fins, ( d ) semi-elliptical fins, ( e ) sickle fins, and ( f ) heterogeneous fins More about this image found in Temperature distributions for transient input fluid velocity and transient ...
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Temperature distributions for constant input fluid velocity and spatially v...
Published Online: July 24, 2024
Fig. 8 Temperature distributions for constant input fluid velocity and spatially varying fin temperature for equal position of fins: ( a ) circular fins, ( b ) triangular fins, ( c ) rectangular fins, ( d ) semi-elliptical fins, ( e ) sickle fins, and ( f ) heterogeneous fins More about this image found in Temperature distributions for constant input fluid velocity and spatially v...
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Temperature distributions for transient input fluid velocity and transient ...
Published Online: July 24, 2024
Fig. 9 Temperature distributions for transient input fluid velocity and transient fin temperature for increasing distance position of fins: ( a ) circular fins, ( b ) triangular fins, ( c ) rectangular fins, ( d ) semi-elliptical fins, ( e ) sickle fins, and ( f ) heterogeneous fins More about this image found in Temperature distributions for transient input fluid velocity and transient ...
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Temperature distributions for constant input fluid velocity and spatially v...
Published Online: July 24, 2024
Fig. 10 Temperature distributions for constant input fluid velocity and spatially varying fin temperature for increasing distance position of fins: ( a ) circular fins, ( b ) triangular fins, ( c ) rectangular fins, ( d ) semi-elliptical fins, ( e ) sickle fins, and ( f ) heterogeneous fins More about this image found in Temperature distributions for constant input fluid velocity and spatially v...
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Temperature distributions for transient input fluid velocity and transient ...
Published Online: July 24, 2024
Fig. 11 Temperature distributions for transient input fluid velocity and transient fin temperature for decreasing distance position of fins: ( a ) circular fins, ( b ) triangular fins, ( c ) rectangular fins, ( d ) semi-elliptical fins, ( e ) sickle fins, and ( f ) heterogeneous fins More about this image found in Temperature distributions for transient input fluid velocity and transient ...
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Temperature distributions for constant input fluid velocity and spatially v...
Published Online: July 24, 2024
Fig. 12 Temperature distributions for constant input fluid velocity and spatially varying fin temperature for decreasing distance position of fins: ( a ) circular fins, ( b ) triangular fins, ( c ) rectangular fins, ( d ) semi-elliptical fins, ( e ) sickle fins, and ( f ) heterogeneous fins More about this image found in Temperature distributions for constant input fluid velocity and spatially v...
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Temperature distributions for transient input fluid velocity and transient ...
Published Online: July 24, 2024
Fig. 13 Temperature distributions for transient input fluid velocity and transient fin temperature for damp position of fins: ( a ) circular fins, ( b ) triangular fins, ( c ) rectangular fins, ( d ) semi-elliptical fins, ( e ) sickle fins, and ( f ) heterogeneous fins More about this image found in Temperature distributions for transient input fluid velocity and transient ...
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Temperature distributions for constant input fluid velocity and spatially v...
Published Online: July 24, 2024
Fig. 14 Temperature distributions for constant input fluid velocity and spatially varying fin temperature for damp position of fins: ( a ) circular fins, ( b ) triangular fins, ( c ) rectangular fins, ( d ) semi-elliptical fins, ( e ) sickle fins, and ( f ) heterogeneous fins More about this image found in Temperature distributions for constant input fluid velocity and spatially v...
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Temperature variation along microchannel length for transient velocity of i...
Published Online: July 24, 2024
Fig. 15 Temperature variation along microchannel length for transient velocity of input fluid and transient input temperature in presence of different fin structures: ( a ) damped position, ( b ) decreasing position, ( c ) equal position, ( d ) increasing position, ( e ) oscillatory position, and ... More about this image found in Temperature variation along microchannel length for transient velocity of i...
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Temperature variation along microchannel length for constant velocity of in...
Published Online: July 24, 2024
Fig. 16 Temperature variation along microchannel length for constant velocity of input fluid and spatial variation of input temperature in presence of different fin structures: ( a ) damped position, ( b ) decreasing position, ( c ) equal position, ( d ) increasing position, ( e ) oscillatory posi... More about this image found in Temperature variation along microchannel length for constant velocity of in...
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Variation of Nusselt number along microchannel length for transient velocit...
Published Online: July 24, 2024
Fig. 17 Variation of Nusselt number along microchannel length for transient velocity of input fluid and transient input temperature in presence of different fin structures: ( a ) damped position, ( b ) decreasing position, ( c ) equal position, ( d ) increasing position, ( e ) oscillatory position... More about this image found in Variation of Nusselt number along microchannel length for transient velocit...
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Variation of Nusselt number along microchannel length for constant velocity...
Published Online: July 24, 2024
Fig. 18 Variation of Nusselt number along microchannel length for constant velocity of input fluid and spatial variation of input temperature in presence of different fin structures: ( a ) damped position, ( b ) decreasing position, ( c ) equal position, ( d ) increasing position, ( e ) oscillator... More about this image found in Variation of Nusselt number along microchannel length for constant velocity...
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