Comments on “Analysis of non-linear radiative stagnation point flow of Carreau fluid with homogeneous–heterogeneous reactions”,Microsystem Technologies

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Comments on “Analysis of non-linear radiative stagnation point flow of Carreau fluid with homogeneous–heterogeneous reactions”
Microsystem Technologies ( IF 2.1 ) Pub Date : 2020-06-08 , DOI: 10.1007/s00542-020-04913-7
M. M. Awad

These commentaries show that the heat generation/absorption parameter (γ₁) is dimensionless only if the parameter (m) = 1, which means constant surface thickness. However, Hayat et al. (Microsyst Technol 25:1243–1250. https://doi.org/10.1007/s00542-018-4157-y, 2019) utilized m < 1 like m = 0.5 (shape with increasing thickness). For the motion type, m = 0.5 represents decelerated motion. In addition, Hayat et al. (2019) utilized m > 1 like m = 1.5 (shape with decreasing thickness). For the motion type, m = 1.5 represents accelerated motion. Thus, the heat generation/absorption parameter (γ₁) is dimensional.

中文翻译：

关于“具有均相-非均相反应的卡洛流体的非线性辐射停滞点流分析”的评论

这些评论表明，该热生成/吸收参数（γ ₁）是无量纲的只有当参数（M）= 1，这意味着恒定的表面厚度。然而，哈亚特等。（Microsyst Technol 25：1243-1250。https://doi.org/10.1007/s00542-018-4157-y，2019）利用m <1像m = 0.5（形状随厚度增加）。对于运动类型，m = 0.5表示减速运动。此外，Hayat等。（2019）利用m> 1就像m = 1.5（形状随着厚度减小）。对于运动类型，m = 1.5表示加速运动。因此，热产生/吸收参数（γ ₁）是二维的。

更新日期：2020-06-08

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