The control of temperature distribution and management of heat energy are key problems in an industry. In this study, free convective flow with ternary nanoparticles (Cu, Ag, MgO) was equipped to analyze the impact on magnetic field and thermal radiation through a moving wedge surface. This volumetric concentration by Cu, Ag and MgO nanoparticles is selected by the most 4% to prevent the instability on the nanofluid. A set of applicable modifications was expressed as a change in the nonlinear partial differential equations and the nonlinear ordinary differential equations and it was undertaken mathematically for applying bvp4c on MATLAB package. These outcomes on ternary nanoparticles (Cu–Ag–MgO/blood), and hybrid nanoparticles (Cu–Ag/blood) and copper (Cu) nanoparticles had again correlated. The outcomes display that connecting Cu, Ag and MgO nanofluid raises the drug friction to 3.9% than the hybrid nanofluid. Also, the combination of Cu and Ag nanofluid increases skin friction by 19.58% than Cu nanofluid. This analysis was particularly useful in drug transportation and biomedical study.

温度分布的控制和热能的管理是行业的关键问题。在这项研究中，配备了三元纳米颗粒（Cu、Ag、MgO）的自由对流，以分析移动楔形表面对磁场和热辐射的影响。 Cu、Ag和MgO纳米颗粒的体积浓度最多选择4%，以防止纳米流体的不稳定性。一组适用的修改被表示为非线性偏微分方程和非线性常微分方程的变化，并在数学上进行，以便在 MATLAB 包上应用 bvp4c。三元纳米颗粒（Cu-Ag-MgO/血液）、混合纳米颗粒（Cu-Ag/血液）和铜（Cu）纳米颗粒的这些结果再次相关。结果表明，连接 Cu、Ag 和 MgO 纳米流体可将药物摩擦力比混合纳米流体提高 3.9%。此外，Cu 和 Ag 纳米流体的组合比 Cu 纳米流体增加了 19.58% 的皮肤摩擦力。该分析在药物运输和生物医学研究中特别有用。