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SU YAN [9]
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A non-uniform stretched mesh scheme for non-dimensional lattice Boltzmann simulations of natural convective flow and heat transfer
Journal article
Su, Y., Davidson, J.H.. A non-uniform stretched mesh scheme for non-dimensional lattice Boltzmann simulations of natural convective flow and heat transfer[J]. International Communications in Heat and Mass Transfer, 2021, 105137-105137.
Authors:
Su, Y.
;
Davidson, J.H.
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Submit date:2023/08/16
Natural convection
Non-dimensional lattice Boltzmann method
Stretch ratio
Sparse scattered high performance computing data driven artificial neural networks for multi-dimensional optimization of buoyancy driven heat and mass transfer in porous structures
Journal article
Su, Y., Ng, T.I., Li, Z.G., Davidson, J.H.. Sparse scattered high performance computing data driven artificial neural networks for multi-dimensional optimization of buoyancy driven heat and mass transfer in porous structures[J]. Chemical Engineering Journal, 2020, 125257-125257.
Authors:
Su, Y.
;
Ng, T.I.
;
Li, Z.G.
;
Davidson, J.H.
Favorite
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IF:
13.3
/
13.2
|
Submit date:2023/08/16
Artificial neural network
Controllable structure generation scheme
High performance computing
Objective function
Parallel non-dimensional lattice Boltzmann method
Three dimensional mesoscopic scale simulations of buoyancy driven flow and heat mass transfer through randomly packed fiber boards
Journal article
Su, Y., Ng, T.I., Davidson, J.H.. Three dimensional mesoscopic scale simulations of buoyancy driven flow and heat mass transfer through randomly packed fiber boards[J]. International Journal of Heat and Mass Transfer, 2019, 118522-118522.
Authors:
Su, Y.
;
Ng, T.I.
;
Davidson, J.H.
Favorite
|
IF:
5.0
/
5.0
|
Submit date:2023/08/16
CSGS
Fiber structure
Heat and mass transfer
NDLBM
A three-dimensional phonon energy transport model based on the non-dimensional lattice Boltzmann method
Journal article
Su Y., Davidson J.H.. A three-dimensional phonon energy transport model based on the non-dimensional lattice Boltzmann method[J]. International Journal of Heat and Mass Transfer, 2018, 127, 303-318.
Authors:
Su Y.
;
Davidson J.H.
Favorite
|
TC[WOS]:
6
TC[Scopus]:
6
|
Submit date:2019/02/14
Knudsen Numbers
Lattice Boltzmann Method
Phonon Transport
Size Effect
A Parallel Non-Dimensional Lattice Boltzmann Method for fluid flow and heat transfer with solid–liquid phase change
Journal article
Su Y., Ng T., Davidson J.H.. A Parallel Non-Dimensional Lattice Boltzmann Method for fluid flow and heat transfer with solid–liquid phase change[J]. International Journal of Heat and Mass Transfer, 2017, 106, 503-517.
Authors:
Su Y.
;
Ng T.
;
Davidson J.H.
Favorite
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TC[WOS]:
12
TC[Scopus]:
13
|
Submit date:2019/02/14
Heat Transfer
Lattice Boltzmann
Phase Change
Solar Collector
Thermal Storage
A New Mesoscopic Scale Timestep Adjustable Non-Dimensional Lattice Boltzmann Method for Melting and Solidification Heat Transfer
Journal article
Su, Y., Davidson, J.H.. A New Mesoscopic Scale Timestep Adjustable Non-Dimensional Lattice Boltzmann Method for Melting and Solidification Heat Transfer[J]. International Journal of Heat and Mass Transfer, 2016, 1106-1119.
Authors:
Su, Y.
;
Davidson, J.H.
Favorite
|
IF:
5.0
/
5.0
|
Submit date:2023/08/16
Melting
Non-dimensional lattice Boltzmann method
Phase change
Solidification
A new mesoscopic scale timestep adjustable non-dimensional lattice Boltzmann method for melting and solidification heat transfer
Journal article
Su Y., Davidson J.H.. A new mesoscopic scale timestep adjustable non-dimensional lattice Boltzmann method for melting and solidification heat transfer[J]. International Journal of Heat and Mass Transfer, 2016, 92, 1106.
Authors:
Su Y.
;
Davidson J.H.
Favorite
|
TC[WOS]:
35
TC[Scopus]:
37
|
Submit date:2018/10/30
Melting
Non-dimensional Lattice Boltzmann Method
Phase Change
Solidification
Macroscopic correlation for natural convection in water saturated metal foam relative to the placement within an enclosure heated from below
Journal article
Su Y., Wade A., Davidson J.H.. Macroscopic correlation for natural convection in water saturated metal foam relative to the placement within an enclosure heated from below[J]. International Journal of Heat and Mass Transfer, 2015, 85, 890-896.
Authors:
Su Y.
;
Wade A.
;
Davidson J.H.
Favorite
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TC[WOS]:
4
TC[Scopus]:
7
|
Submit date:2019/02/14
Macroscopic Correlation
Metal Foam
Natural Convection
Porous Medium
A Non-Dimensional Lattice Boltzmann Method for direct and porous medium model simulations of 240-tube bundle heat exchangers in a solar storage tank
Journal article
Su Y., Davidson J.H.. A Non-Dimensional Lattice Boltzmann Method for direct and porous medium model simulations of 240-tube bundle heat exchangers in a solar storage tank[J]. International Journal of Heat and Mass Transfer, 2015, 85, 195-205.
Authors:
Su Y.
;
Davidson J.H.
Favorite
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TC[WOS]:
29
TC[Scopus]:
34
|
Submit date:2019/02/14
Heat Exchanger
Ndlbm
Nusselt Number
Solar Storage
Experimental and numerical investigations on a solar tracking concentrated photovoltaic-thermal system with a novel non-dimensional lattice Boltzmann method
Journal article
Su Y., Kulacki F.A., Davidson J.H.. Experimental and numerical investigations on a solar tracking concentrated photovoltaic-thermal system with a novel non-dimensional lattice Boltzmann method[J]. Solar Energy, 2014, 107, 145-158.
Authors:
Su Y.
;
Kulacki F.A.
;
Davidson J.H.
Favorite
|
TC[WOS]:
30
TC[Scopus]:
31
|
Submit date:2019/02/14
Concentrator
Ndlbm
Photovoltaic-thermal System
Water Cooling