Amin Najafi scite author profile

Infrared-hot air method, when properly applied, can be used for achieving a high-quality product. The objective of this study was to determine the rheological properties of cake batters and physico-chemical, textural and sensory properties of sponge cake supplemented with four different levels (control, 5 %, 10 %, and 15 %) of button mushroom powder. The button mushroom slices were dried in an infrared-hot air dryer (250 W and 60 °C). The physical (volume, density, color) and chemical (moisture, protein, fat and ash) attributes were determined in the cakes. Increasing the level of substitution from 5 % to 15 % button mushroom powder significantly (p < 0.05) increased the protein and ash. The apparent viscosity in cake batter, and volume, springiness, and cohesiveness values of baked cakes increased with increasing button mushroom powder levels whereas the density, consistency, hardness, gumminess, chewiness and crumb L, b values of samples showed a reverse trend. Sensory evaluation results indicated that cake with 10 % button mushroom powder was rated the most acceptable.

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Numerical investigations on swirl intensity decay rate for turbulent swirling flow in a fixed pipe

Najafi¹,

Mousavian²,

Amini³

2011

International Journal of Mechanical Sciences

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An experimental study and CFD analysis towards heat transfer and fluid flow characteristics of decaying swirl pipe flow generated by axial vanes

Ahmadvand¹,

Najafi²,

Shahidinejad³

2009

Meccanica

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Numerical analysis of turbulent swirling decay pipe flow

Najafi

Saidi

Sadeghipour

et al. 2005

International Communications in Heat and Mass Transfer

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Boundary layer solution for the turbulent swirling decay flow through a fixed pipe: SBR at the inlet

Najafi

Saidi

Sadeghipour

et al. 2005

International Journal of Engineering Science

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Amin Najafi

Improvement of quality attributes of sponge cake using infrared dried button mushroom

Numerical investigations on swirl intensity decay rate for turbulent swirling flow in a fixed pipe

An experimental study and CFD analysis towards heat transfer and fluid flow characteristics of decaying swirl pipe flow generated by axial vanes

Numerical analysis of turbulent swirling decay pipe flow

Boundary layer solution for the turbulent swirling decay flow through a fixed pipe: SBR at the inlet

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