Study of the influence of fin-plate heat exchanger geometry on dust particle deposition and heat transfer based on numerical calculation

¹ Kazan State Power Engineering University, 51, Krasnoselskaya str., 420066, Kazan, Russia
² Kazan National Research Technical University named after A.N. Tupolev – KAI, Kazan, Russia

^* Corresponding author: solovyeva.ov@kgeu.ru

Abstract

Cooling systems are actively used in computer technology to cool various electronic devices, for example, the central processor units (CPU). CPUs generate heat while operating, which slows down the processing speed of information, and overheating often causes the CPU to shut down or even crash. Cooling systems are designed to remove heat from the CPU. Often, during operation of the cooling system, its main element – the fin-plate heat exchanger becomes covered with a layer of dust, which significantly reduces the rate of heat transfer and can lead to CPU failure. In this work, we carried out numerical modeling of dust particles deposition on the surface of fin-plate heat exchangers of various geometries. We studied the influence of the fin shape (flat or corrugated), as well as the distance between the fins (from 1.75 to 7 mm) on the efficiency of particle deposition and the change in heat flow.