"In this study, we explore the conjugate heat transfer on the MarkII blade surface using the Reynolds Stress Baseline Turbulence Model. The analysis reveals significant insights into the pressure and temperature distribution across the turbine blade, with potential applications in optimizing turbine performance. We used FLUENT and ANSYS software for simulation and validation against experimental results."
Cooled MarkII blade surface pressure and temperature distribution by a conjugate heat transfer analysis using Reynolds stress baseline turbulence model
This study investigates conjugate heat transfer (CHT) on the MarkII turbine blade surface using FLUENT and ANSYS. By applying the Reynolds Stress Baseline Turbulence Model, we analyze pressure and temperature distributions, providing insights for optimizing turbine thermal management.