Items where Author is "Xia, Guodong"
Number of items: 17.
SHANG, Huiqing, XIA, Guodong, CHENG, Lixin and MIAO, Shanshan
(2025).
Comprehensive review of enhancement techniques and mechanisms for flow boiling in micro/mini-channels.
Applied Thermal Engineering, 258 (Part C): 124783.
[Article]
CHENG, Lixin and XIA, Guodong
(2023).
Progress and Prospects for Research and Technology Development of Supercritical CO2 Thermal Conversion Systems for Power, Energy Storage, and Waste Heat Recovery.
Heat Transfer Engineering.
[Article]
CHENG, Lixin and XIA, Guodong
(2023).
Flow patterns and flow pattern maps for adiabatic and diabatic gas liquid two phase flow in microchannels: fundamentals, mechanisms and applications.
Experimental Thermal and Fluid Science, 148: 110988.
[Article]
CAI, Bo, XIA, Guodong, CHENG, Lixin and WANG, Zhipeng
(2023).
Experimental investigation on spatial phase distributions for various flow patterns and frictional pressure drop characteristics of gas liquid two-phase flow in a horizontal helically coiled rectangular tube.
Experimental Thermal and Fluid Science, 142: 110806.
[Article]
CHENG, Lixin, WANG, Ke, XIA, Guodong and GHAJAR, Afshin J.
(2023).
Advanced heat transfer technologies: fundamentals and applications.
Heat Transfer Engineering, 1-3.
[Article]
CHENG, Lixin and XIA, Guodong
(2022).
High Heat Flux Cooling Technologies Using Microchannel Evaporators: Fundamentals and Challenges.
Heat Transfer Engineering.
[Article]
LY, Yuanzheng, XIA, Guodong, CHENG, Lixin and MA, Dandan
(2021).
Experimental investigation into unstable two phase flow phenomena during flow boiling in multi-microchannels.
International Journal of Thermal Sciences, 166.
[Article]
CHENG, Lixin, XIA, Guodong and THOME, John
(2021).
Flow Boiling Heat Transfer and Two-Phase Flow Phenomena of CO2 in Macro- and Micro-channel Evaporators: Fundamentals, Applications and Engineering Design.
Applied Thermal Engineering.
[Article]
CHENG, Lixin, XIA, Guodong and LI, Qinling
(2021).
CO2 Evaporation Process Modelling: Fundamentals and Engineering Applications.
Heat Transfer Engineering, 43 (8-10).
[Article]
CHENG, Lixin, XIA, Guodong and THOME, John R.
(2018).
Boiling Heat Transfer and Critical Heat Flux Phenomena with Nanofluids: Fundamentals, Mechanisms and Challenges.
In: THOME, John R., (ed.)
Encyclopedia of Two-Phase Heat Transfer and Flow IV : Modeling Methodologies, Boiling of CO₂, and Micro-Two-Phase Cooling.
World Scientific, 167-235.
[Book Section]
XIA, Guodong, CAI, Bo, CHENG, Lixin, WANG, Zhipeng and JIA, Yuting
(2018).
Experimental study and modelling of average void fraction of gas-liquid two-phase flow in a helically coiled rectangular channel.
Experimental Thermal and Fluid Science, 94, 9-22.
[Article]
CHENG, Lixin, XIA, Guodong, LI, Qinling and THOME, John R.
(2018).
Fundamental issues, technology development and challenges of boiling heat transfer, critical heat flux and two-phase flow phenomena with nanofluids.
Heat Transfer Engineering, 1-36.
[Article]
XIA, Guodong, CHENG, Yue, CHENG, Lixin and LI, Yifan
(2018).
Heat transfer characteristics and flow visualization during flow boiling of acetone in semi-open multi-microchannels.
Heat Transfer Engineering, 1-14.
[Article]
XIA, Guodong, CHEN, Zhuo, CHENG, Lixin, MA, Dandan, ZHAI, Yuling and YANG, Yuchen
(2017).
Micro-PIV visualization and numerical simulation of flow and heat transfer in three micro pin-fin heat sinks.
International Journal of Thermal Sciences, 119, 9-23.
[Article]
XIA, Guodong, DU, Mo, CHENG, Lixin and WANG, Wei
(2017).
Experimental study on the nucleate boiling heat transfer characteristics of a water-based multi-walled carbon nanotubes nanofluid in a confined space.
International Journal of Heat and Mass Transfer, 113, 59-69.
[Article]
XIA, Guodong, WANG, Wei, CHENG, Lixin and MA, Dandan
(2017).
Visualization study on the instabilities of phase-change heat transfer in a flat two-phase closed thermosyphon.
Applied Thermal Engineering, 116, 392-405.
[Article]
CHENG, Lixin and XIA, Guodong
(2016).
Fundamental issues, mechanisms and models of flow boiling heat transfer in microscale channels.
International Journal of Heat and Mass Transfer, 108 (Part A), 97-127.
[Article]