Experimental Studies of Pressure Drop in Compact Heat Exchanger with Aluminum Oxide and Magnesium Oxide

A variety of research papers from numerous reputed journals with regard to laminar convective transferred heat has been gathered and analyzed. This article reviews modern studies in a round tube with boundary conditions of CHF for transferred heat by convection, i.e., turbulent and laminar. By adding silver (Ag), nanoparticles of MWCNT or multi-wall carbon nanotubes individually in particular fraction of weight in distilled water as base fluid Agor water and MWCNT/nanofluid of water is obtained and the dispersion of these two nanoparticles simultaneously (Ag: MWCNT::75:25) results in the formation of hybrid nanofluid (Ag-MWCNT)/water. The HRTEM or high-resolution transmission electron microscopy is employed to determine the shape, size and structure of morphology. The images of TEM of the samples of nanoparticles are obtained at dissimilar magnifications. The method or technique of EDX Energy Dispersive X-ray Spectroscopy is particularly used for analysis of element and chemical composition of samples. Based on the principle that a unique atomic structure is possessed by every element, these structures allow a specific set of peaks on its spectrum of electromagnet. The arrangement is authenticated through experimentation of the forced convective coefficient of transferred heat using flow of laminar with boundary conditions of CHF that had been performed using distilled water. The results were associated with a well-known logical solution given by Shah Equation. As a result, the usage of nanofluids displays a rise in transferred heat in conflict with distilled water. The concentration of weight of nanoparticles is responsible for the augmentation of transferred heat and the improvement of transferred heat was observed with the rise in NRe.