Recently, nanofluids are working in diverse applications for instance, hybrid-mechanical mechanisms, malice usage, micro microelectronic, therapeutic diligences, aeronautics zones, thermonuclear depots and conserving of diverse machines etc. The deferments of nanofluids could be acknowledged and exploited as projecting forthcoming for the progression of viable energy strategies. This effort deals with nanotechnology and nanoscience to inspect the rheological aspects of the Carreau nanofluids. Nanofluids have been used as possible alternatives to the conventional fluids owing to their exaggerated capacity of heat transport. Here MHD nonlinear mixed convection Carreau nanofluid with variable conductivity subject to Buongiorno's theory have been elaborated. The heat source/sink and chemical reaction aspect are reported. The numerically bvp4c algorithm worked out for elucidations. The shear-thinning/thickening properties for influential variables are reported and conferred. The outcome describes that the temperature falloff for a higher magnetic number and reverse is true for variable conductivity parameter. Furthermore, contradictory behavior has been noted for constructive and destructive reaction parameters.

近来，纳米流体正在各种应用中工作，例如，混合机械机制，恶意应用，微微电子学，治疗勤奋，航空领域，热核仓库和各种机器的保护等。纳米流体的延缓可以被公认并被利用为预测未来的发展。可行的能源策略的发展。这项工作涉及纳米技术和纳米科学，以检查Carreau纳米流体的流变学方面。纳米流体由于其过大的热传递能力而被用作常规流体的可能替代物。在此，根据Buongiorno的理论，对具有可变电导率的MHD非线性混合对流Carreau纳米流体进行了阐述。报告了热源/散热器和化学反应方面。数值bvp4c算法可用于阐明。报告并授予了影响变量的剪切稀化/增稠特性。结果表明，对于较高的磁数，温度下降是可变的，而对于可变的电导率参数则是相反。此外，已经注意到建设性和破坏性反应参数的矛盾行为。