Role of Chemically Magnetized Nanofluid Flow for Energy Transition over a Porous Stretching Pipe with Heat Generation/Absorption and Its Stability

The laminar movement in an expanding and contracting permeable pipe or surface has recently attracted the attention of many scholars owing to its application engineering biological processes. objective current study is examine influence chemical processes on magnetized nanofluid flow over extending shrinking pipes with a heat reservoir. equations are renovated into first ODEs by introducing new variable then numerically solved RK4 shooting procedure. effect emerging factors features observed using graphs elaborated detail. From analysis, temperature raised when source increased both cases wall expansion contraction but declines case sinks. In source, rises as Hartmann Prandtl numbers enhanced, sink, falls. presence sinks injections, thermophoresis factor increased, concentration nanoparticles contractions. situations extension contraction, along injection, decreasing function Nb, while increasing source. Additionally, for confirmation code, total average square residue error also presented. For stability work compared published work, excellent agreement established. novelty present investigate reaction porous generation absorption.