Thermal performance of Joule heating in Oldroyd-B nanomaterials considering thermal-solutal convective conditions

The nanotechnology expansion has contributed vastly in explaining major difficulties in industrial and medicinal sciences. Flexibility of nanofluids prepared of nanoparticles is recognized essentially to the magnitude, shape, variety and ionic structure of the elements. Explicitly, the usage of nanofluids for heat intensification and mass transport is of varied application and it is increasing concern from investigators. In current study we incorporated convective conditions in chemically reactive radiated Oldroyd-B nanofluid with buoyancy influence. Additionally, magnetic and Joule heating aspects are considered. The noteworthy alterations altered the PDEs into ODEs and interpreted via homotopic algorithm. The aspects of influential variables are depicted and conferred. Here thermal and solutal Biot numbers have analogous impact respectively, on temperature and concentration fields. The current outcomes are also authenticated with obtainable prose.