A modern progress in fluid dynamics has been emphasizes on nanofluids which maintain remarkable thermal conductivity properties and intensify the transport of heat in fluids. Here, the present-day endeavor progresses a Maxwell nanofluid towards stretched cylinder heated convectively. The addition properties, i.e., MHD, stagnation point, thermal radiation, heat sink/source and chemical reactions are elaborated. The homotopic algorithm has been exploited for solutions of ODEs. Here, it is noted that the temperature field enhances for Biot number and radiation parameter. Additionally, Brownian movement and thermophoretic influences have conflicting performance for nanomaterial concentration. The mass transport rate for constructive–destructive chemical reaction is opposite in nature in response to the thermal Biot number. The ratification of our findings is also addressed via tables and attained noteworthy results.

中文翻译：

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麦克斯韦纳米流体驻点流动中的热沉/源与化学反应

流体动力学的现代进展一直强调纳米流体，它保持显着的导热性能并加强流体中的热量传输。在这里，当今的努力使麦克斯韦纳米流体朝着对流加热的拉伸圆柱体发展。详细阐述了附加特性，即 MHD、驻点、热辐射、散热器/源和化学反应。同伦算法已被用于 ODE 的解。在此，注意到温度场对于 Biot 数和辐射参数增强。此外，布朗运动和热泳影响对纳米材料浓度具有相互矛盾的性能。建设性-破坏性化学反应的传质速率与热 Biot 数的性质相反。