1-2 of 2
Keywords: trailing edge cooling
Close
Save search
Follow your search
Access your saved searches in your account
Would you like to receive an alert when new items match your search?
Close Modal
Sort by
Journal Articles

Rotating Flow and Heat Transfer Characteristics of a Novel Cooling Channel for Gas Turbine Blade Trailing Edge With Diamond-Type TPMS Structures

Kirttayoth Yeranee, Chao Xu, Yu Rao, Jianian Chen, Yueliang Zhang
Journal: ASME Journal of Heat and Mass Transfer
Publisher: ASME
Article Type: Research-Article
J. Heat Mass Transfer. May 2024, 146(5): 051002.
Paper No: HT-23-1427
https://doi.org/10.1115/1.4065157
Published Online: April 3, 2024
... turbine blade model [ 2 ]. The length of the rectangular outlet is extended to 150 mm to avoid numerical stability and prevent the backflow. Utilizing the Diamond TPMS architecture in the trailing edge cooling channel as a replacement for conventional pin fins can mitigate the large variations...
View Articletitled, Rotating Flow and Heat Transfer Characteristics of a Novel Cooling Channel for Gas Turbine Blade Trailing Edge With Diamond-Type TPMS Structures
Open the PDF for Rotating Flow and Heat Transfer Characteristics of a Novel Cooling Channel for Gas Turbine Blade Trailing Edge With Diamond-Type TPMS Structures in another window
Topics: Cooling, Diamonds, Flow (Dynamics), Heat transfer, Rotation, Triply periodic minimal surfaces, Blades, Gas turbines, Wedges, Pressure
Includes: Supplementary data
Journal Articles

Heat Transfer and Pressure Loss of Turbulent Flow in a Wedge-Shaped Cooling Channel With Different Types of Triply Periodic Minimal Surfaces

Kirttayoth Yeranee, Yu Rao
Journal: ASME Journal of Heat and Mass Transfer
Publisher: ASME
Article Type: Research-Article
J. Heat Mass Transfer. September 2023, 145(9): 093901.
Paper No: HT-22-1796
https://doi.org/10.1115/1.4062429
Published Online: May 25, 2023
... and heat transfer characteristics of different TPMS models for solid- and sheet-based structures in a wedge-shaped channel for turbine trailing edge cooling. The numerical models are validated with experimental data. Heat transfer, pressure loss, and thermal performance are compared in the range...
View Articletitled, Heat Transfer and Pressure Loss of Turbulent Flow in a Wedge-Shaped Cooling Channel With Different Types of Triply Periodic Minimal Surfaces
Open the PDF for Heat Transfer and Pressure Loss of Turbulent Flow in a Wedge-Shaped Cooling Channel With Different Types of Triply Periodic Minimal Surfaces in another window
Topics: Cooling, Diamonds, Flow (Dynamics), Heat transfer, Pressure, Wedges, Turbulence, Reynolds number, Fluids
Includes: Supplementary data