Research and Applications of Thermal Engineering (e-ISSN: 3048-8834)

Exploratory examinations have been done for acquiring the thermophysical properties of cupric oxide/water based nanofluids. Surfactant Sodium Dodecyl Benzene Sulfonate (SDBS) is used to make the CuO/water nanofluid because it provides the best stability for the dispersion of the nanoparticles in comparison to pure water suspension. The volumetric part of CuO/water nanofluid was suitably picked as 0.05%. In solar thermal applications, nano-fluids are effective heat transfer carriers for harvesting thermal energy. In this paper, nano-liquids has been used in sun based warm examination both hypothetically as well as tentatively. The impact of thickness and consistency of these nano-liquids for sunlight based gatherer has been explored tentatively also. By suppressing convection, the solar collector helps to reduce system heat losses by allowing solar radiation to pass through to the energy collection surface. On a 250-liter-per-day (LPD) scale, experimental testing of thermal performance was conducted. In this paper, silicon sun oriented cells are liked for different energy necessity purposes since it gives lower debasement levels during the cycle. During the desalination process, the aluminum basin material and the FRP or GRP chute material are typically utilized because they are less reactive with saline water. Based on this interaction, mass stream rate, mass of the steam, sun oriented Radiation are assessed for various weather patterns of the long stretch of Spring utilizing the proposed model. Likewise, the thermo-actual properties of the incorporated nanoparticle and arranged nanofluid were looked at hypothetically and tentatively. This model produces steam with a maximum mass of 71.72 kilograms and a minimum mass of 21.68 kilograms. The volumetric proficiency of this proposed model without nano-liquid is 58.36% and Volumetric productivity of this proposed model with nano liquid is 66.23%.