Abstract
Currently, the worldwide growth of thermal energy depletion raises new scientific solutions established on nanomaterials. The usage of nanofluids exaggerates energy effectiveness prominent to eco-friendlier plans. Therefore, researchers are fortified to comprehend how reformed thermo-physical possessions help to progress heat transport proficiency. The intentions of this article are to examine the thermal aspect of nonlinear radiation and Joule heating in the flow of magneto Maxwell nanofluid in convective frames. Additionally, mass transport exploiting activation energy is considered with chemical reactions. The nonlinear ODEs are solved via homotopic algorithms. The Deborah factor declines the velocity field; however, the temperature field enhances for Brownian and radiation factors. The concentration field for activation energy factor increases in the current analysis. Furthermore, the results for Newtonian situations with the assessment of previous prose are arranged in this study.