Numerical Study of Heat Transfer Characteristics of Laminar Nanofluids Flow in Oblique Finned Microchannel Heat Sink: Effects of Different Base Fluids and Volume Fraction of Nanoparticles

Abstract: This paper demonstrates a numerical study of heat transfer characteristics of laminar flow in oblique finned microchannel heat sink using nanofluid with nanoparticles added to various base fluids including water, ethylene glycol and turbine oil as coolant fluid. The width of the primary channel was 0.5 mm and the secondary channel was less than 0.15 mm in the oblique finned microchannel heat sink with an aspect ratio of 3. ANSYS Fluent was employed to model the flow in the geometry of microchannel. Single pha… Show more

“…When mixing of hot and cold fluid, temperature fluctuation occurred due to incomplete mixing of fluids. The rapid temperature fluctuation causes high cycle thermal fatigue or thermal stress at the mixing tee [3,4]. This thermal fatigue can eventually cause the failure of the pipelines such as leakage, crack, breakdown of the weld joint, leading to safety issues.…”

Simulation Analysis of Thermal Mixing Characteristics of Fluids Flowing Through a Converging T-junction

“…When mixing of hot and cold fluid, temperature fluctuation occurred due to incomplete mixing of fluids. The rapid temperature fluctuation causes high cycle thermal fatigue or thermal stress at the mixing tee [3,4]. This thermal fatigue can eventually cause the failure of the pipelines such as leakage, crack, breakdown of the weld joint, leading to safety issues.…”

Simulation Analysis of Thermal Mixing Characteristics of Fluids Flowing Through a Converging T-junction

Experimental examination of the cooling performance of a cylindrical microchannel heat sink with straight and sinusoidal fins and alumina nanofluid coolant

Computational and experimental case study on the instability of water with gold, silver and platinum nanoparticles