Investigation of Arrhenius activation energy and pollutant discharge concentration in radiative hybrid nanofluid flow over an inclined plate

Key Points

• Pollutant discharge concentration appears to relate significantly to Arrhenius activation energy.
• Notably, a decrease in pollutant concentration shows a correlation with increased temperature gradients.
• Analysis focused on radiative heat transfer in the context of inclined plate dynamics.
• These findings may indicate potential optimization pathways for nanofluid thermal management in industrial applications.