According to multiple scholarly and professional publications, introducing tiny fluids or operating waters with nanometer particulate size has significantly improved the thermal transmission characteristics of thermal exchange mechanisms. Prospective uses of tiny fluids in oil extraction and medication administration are drawing more interest. Reliability, along with effective productivity, is an obstacle, though. Stable enhancement and comprehension of tiny fluid dynamics are essential to ensure thermo physical qualities and exploit such enhanced fluids over time. This experimental work outlines upcoming exploration prospects to fill the divide between in-lab and production. It analyzes the state of the industry within tiny liquids studies, covering synthesis processes, stabilization assessment, and thermo physical features. Graphene water and Al2O3 are the two nanofluids considered in the experimental investigation. The outcomes of the research state that with an increase in temperature, the nanofluid density decreased, while all other properties, dynamic viscosity, specific heat capacity, and thermal conductivity values increased. Al2O3 has shown better performance in terms of dynamic viscosity, thermal conductivity, and specific heat capacity properties. XRD patterns are compared; an Al2O3 spike is high with 2θ = 30.1.