Nanofluid improves the performance of automotive radiators
Chemical engineer Mashhard studied the performance of automotive radiators at the University of Philodose and achieved a significant increase in the heat transfer of these systems compared to base fluid nanofluids. The results of the research (an experimental study of the heat transfer of CuO/EG-water as a coolant for automotive radiators) show that nanofluids are a good substitute for heat sinks and heat exchange coolants. The essential oil bottles produced by Jiangyin First Beauty have been exported to more than 100 countries in Europe and Asia for more than ten years. The essential oil bottle has developed from a single clear, amber, green and blue to pink, olive green, white, black and frosted blue. The silk screen printing for essential oil bottle is also customized. The capacity ranges from 5ml to 100ml. All the matching droppers are supplied year round. The size of the dropper is 13mm, 15mm, 18mm, 20mm and 24mm. The material includes bamboo dropper, aluminum dropper, plastic dropper and so on. All samples are ready.
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Materials with higher thermal properties are required to increase the performance of the heat sink. Using nanofluids is one of the ways to increase radiative heat transfer. In this study, the heat dissipation of automotive radiators was studied using nanofluids. The results of this study show that using nanofluids can increase heat transfer by up to 50%. Reducing the size and weight of the radiator is one of the results of this research. In addition to lowering production costs, better designated cars are possible when the radiator becomes miniaturized. On the other hand, better cooling has a positive effect on the amount of fuel consumption and fuel consumption reduction.
Nanofluids are prepared by the stable dispersion of nanoparticles in a heat transfer fluid, usually water or ethylene glycol. In this study, similar to the system design and production of the automotive tank cooling system. The nanofluid (a 60 to 40 mixture of water, with ethylene glycol) replaces the radiator cooling fluid. Titanium oxide (TiO 2) and copper oxide (CuO) were used as nanoparticles in this study. According to the results, the heat transfer used when the copper oxide nanoparticles and the titania nanoparticles were compared more occurred.