Quantifying spectral thermal transport properties in framework of molecular dynamics simulations: a comprehensive review
Over the past few decades, significant progress has been made in micro-and nanoscale
heat transfer. Numerous computational methods have been developed to quantitatively …
heat transfer. Numerous computational methods have been developed to quantitatively …
An open superhydrophilic microchannel heat sink for thin film boiling with a high coefficient of performance
Currently, the existing two-phase boiling heat transfer technologies have limitations in
extremely narrow spaces and cannot satisfy the high heat flux dissipation requirements of …
extremely narrow spaces and cannot satisfy the high heat flux dissipation requirements of …
Grooved-porous composite wick structures for highly efficient capillary-fed boiling heat transfer
Capillary-fed evaporation/boiling is a crucial process that occurs inside a two-phase heat
transfer device. Efficient capillary-fed evaporation/boiling relies on both effective capillary …
transfer device. Efficient capillary-fed evaporation/boiling relies on both effective capillary …
Laser microstructuring of extremely-thin vapor chamber with hybrid configuration for excellent heat dissipation
G Jiang, H Zhang, P Fan, L Wang, X Hu… - Energy Conversion and …, 2023 - Elsevier
Efficient thermal management has become a bottleneck for the further development of highly
integrated and high-power optoelectronic devices. Vapor chambers (VCs) based on the …
integrated and high-power optoelectronic devices. Vapor chambers (VCs) based on the …
[HTML][HTML] Microchannel-elevated micromembrane for sustainable phase-separation condensation
A sustainable high heat transfer coefficient is critical for water and energy systems that utilize
steam condensation. Current techniques cannot achieve a high heat transfer performance at …
steam condensation. Current techniques cannot achieve a high heat transfer performance at …
A highly efficient and sustainable heat sink via liquid film boiling in hybrid mesh with active liquid supply
Two-phase heat transfer holds great potential to achieve efficient thermal management for
high-power applications. However, achieving high thermal performance and sustainability …
high-power applications. However, achieving high thermal performance and sustainability …
Enhancing heat transfer performance in 3D-printed integrated vapor chamber using composite structures
Z Gu, H Liu, K Yang, Q Wang, H Xu, L Zhang - Applied Thermal Engineering, 2023 - Elsevier
The demand for lightweight heat dissipation devices in aerospace and various other fields
has spurred the development of aluminum-based vapor chambers. However, the surface of …
has spurred the development of aluminum-based vapor chambers. However, the surface of …
Heat transfer incipience of capillary-driven liquid film boiling
High-power electronic devices bring both unprecedented challenges and great
opportunities to two-phase cooling technologies for efficient thermal management. Capillary …
opportunities to two-phase cooling technologies for efficient thermal management. Capillary …
High performance vapor chamber enabled by leaf-vein-inspired wick structure for high-power electronics cooling
G Zhou, J Zhou, X Huai - Applied Thermal Engineering, 2023 - Elsevier
The boom of the advanced technologies, such as microprocessors, 5G, and big data, has
led the thermal management to be a crucial factor in determining the operating speed …
led the thermal management to be a crucial factor in determining the operating speed …
Heat transfer enhancement of spray cooling by copper micromesh surface
Spray cooling has become one of the most promising heat dissipation technologies for
thermal management of super high heat flux. The traditional strategies to enhance spray …
thermal management of super high heat flux. The traditional strategies to enhance spray …