Background: Improvement in thermal system and its efficiency can be achieved by involving the hybrid nanoparticles due to its vital impact. This report analyzes Carreau Nanofluid with various nanoparticles for enhanced thermal efficiency. A rotating permeable cone with Hall and Ion slip forces is utilized in the setup. To evaluate momentum transportation, a cone is rotated and generalized Ohm’s law is applied, including an inclined magnetic force. Heat transfer analysis considers viscous dissipation, heat generation, and joule heating. Please shorten the given text for me to be able to assist you better. Novelty: This study innovatively uses spectral relaxation to solve characteristics of a magnetized, inclined Carreau Nanofluid. It investigates the effects of Hall and ion slip forces on a rotating, heated porous cone. No discussion yet on inclined magnetized environment for Carreau Yasuda NF movement over rotating cone with spectral relaxation. Formulation: PDEs governing Carreau fluid viscosity simulation transformed into ODEs with similarity transformation. The study includes graphs and tables displaying the impact of limitations on current and velocity fields. Findings: Higher energy and Eckert numbers increase heat transport, while Hall ion slip parameters enhance liquid waves. Hybrid nanoparticle speed slows due to ion slip and Hall parameters.

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