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Journal Articles

ELECTRIC VEHICLES CHARGING TIME PREDICTION BASED ON MULTI-MODEL FUSION

Accepted Manuscript
Minghu Wu, Jinchi Xia
Journal: Journal of Electrochemical Energy Conversion and Storage
Publisher: ASME
Article Type: Research Papers
J. Electrochem. En. Conv. Stor.
Paper No: JEECS-24-1227
https://doi.org/10.1115/1.4068207
Published Online: March 17, 2025
View Article titled, ELECTRIC VEHICLES CHARGING TIME PREDICTION BASED ON MULTI-MODEL FUSION
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Topics: Electric vehicles, Errors, Batteries, Battery life, Circuits, Robustness, Temperature
Journal Articles

Analysis of Thermal Runaway Temperature Characteristics, Gas Composition, and Thermal Runaway Products of Semi-Solid Li(Ni0.6Co0.2Mn0.2)O2 Battery

Accepted Manuscript
Hengjie Shen, Ying Guan, Minghai Li
Journal: Journal of Electrochemical Energy Conversion and Storage
Publisher: ASME
Article Type: Research Papers
J. Electrochem. En. Conv. Stor.
Paper No: JEECS-24-1230
https://doi.org/10.1115/1.4068208
Published Online: March 17, 2025
View Article titled, Analysis of Thermal Runaway Temperature Characteristics, Gas Composition, and Thermal Runaway Products of Semi-Solid Li(Ni0.6Co0.2Mn0.2)O2 Battery
Open the PDF for Analysis of Thermal Runaway Temperature Characteristics, Gas Composition, and Thermal Runaway Products of Semi-Solid Li(Ni0.6Co0.2Mn0.2)O2 Battery in another window
Topics: Batteries, Temperature, Emissions, Safety, Accounting, Carbon dioxide, Density, Heating, Lithium-ion batteries, Metals
Journal Articles

Study on the Preparation of High Intrinsic Conductivity Perovskite Li 0.33 La 0.56 TiO 3 Solid-State Electrolyte by Systematic Process Optimization

Binxuan Jiang, Jiale Yuan, Yueming Li, Yadzo Emmanuel Kwame, Mengzhen He, Xu Guo
Journal: Journal of Electrochemical Energy Conversion and Storage
Publisher: ASME
Article Type: Research Papers
J. Electrochem. En. Conv. Stor. May 2025, 22(2): 021003.
Paper No: JEECS-24-1165
https://doi.org/10.1115/1.4067774
Published Online: February 28, 2025
View Article titled, Study on the Preparation of High Intrinsic Conductivity Perovskite Li 0.33 La 0.56 TiO 3 Solid-State Electrolyte by Systematic Process Optimization
Open the PDF for Study on the Preparation of High Intrinsic Conductivity Perovskite Li 0.33 La 0.56 TiO 3 Solid-State Electrolyte by Systematic Process Optimization in another window
Topics: Electrical conductivity, Electrolytes, Lithium, Sintering, Temperature, Thermal conductivity, Perovskite
Journal Articles

Numerical Investigation of a Vapor Chamber-Assisted Liquid Cooling System for Cylindrical Battery Thermal Management

Xu Chen, Xinyue Han, Peigen Lai
Journal: Journal of Electrochemical Energy Conversion and Storage
Publisher: ASME
Article Type: Research Papers
J. Electrochem. En. Conv. Stor. May 2025, 22(2): 021004.
Paper No: JEECS-24-1208
https://doi.org/10.1115/1.4067955
Published Online: February 28, 2025
View Article titled, Numerical Investigation of a Vapor Chamber-Assisted Liquid Cooling System for Cylindrical Battery Thermal Management
Open the PDF for Numerical Investigation of a Vapor Chamber-Assisted Liquid Cooling System for Cylindrical Battery Thermal Management in another window
Topics: Batteries, Cooling, Thermal conductivity, Vapors, Thermal management, Heat, Temperature, Temperature uniformity, Coolants
Image
Geometric models of the BTMSs: ( a ) LC, ( b ) LC-VC, ( c ) LC-2VCs, ( d ) ...

Geometric models of the BTMSs: ( a ) LC, ( b ) LC-VC, ( c ) LC-2VCs, ( d ) ...

in Numerical Investigation of a Vapor Chamber-Assisted Liquid Cooling System for Cylindrical Battery Thermal Management > Journal of Electrochemical Energy Conversion and Storage
Published Online: February 28, 2025
Fig. 1 Geometric models of the BTMSs: ( a ) LC, ( b ) LC-VC, ( c ) LC-2VCs, ( d ) liquid cooling plate, ( e ) vapor chamber, and ( f ) cooling fins More about this image found in Geometric models of the BTMSs: ( a ) LC, ( b ) LC-VC, ( c ) LC-2VCs, ( d ) ...
Image
Working principle of the VC

Working principle of the VC

in Numerical Investigation of a Vapor Chamber-Assisted Liquid Cooling System for Cylindrical Battery Thermal Management > Journal of Electrochemical Energy Conversion and Storage
Published Online: February 28, 2025
Fig. 2 Working principle of the VC More about this image found in Working principle of the VC
Image
Thermal resistance model for VC

Thermal resistance model for VC

in Numerical Investigation of a Vapor Chamber-Assisted Liquid Cooling System for Cylindrical Battery Thermal Management > Journal of Electrochemical Energy Conversion and Storage
Published Online: February 28, 2025
Fig. 3 Thermal resistance model for VC More about this image found in Thermal resistance model for VC
Image
Grid dependency analysis for LC, LC-VC, and LC-2VCs

Grid dependency analysis for LC, LC-VC, and LC-2VCs

in Numerical Investigation of a Vapor Chamber-Assisted Liquid Cooling System for Cylindrical Battery Thermal Management > Journal of Electrochemical Energy Conversion and Storage
Published Online: February 28, 2025
Fig. 4 Grid dependency analysis for LC, LC-VC, and LC-2VCs More about this image found in Grid dependency analysis for LC, LC-VC, and LC-2VCs
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T max of the module and the corresponding experimental results from Ref. ...

T max of the module and the corresponding experimental results from Ref. ...

in Numerical Investigation of a Vapor Chamber-Assisted Liquid Cooling System for Cylindrical Battery Thermal Management > Journal of Electrochemical Energy Conversion and Storage
Published Online: February 28, 2025
Fig. 5 T max of the module and the corresponding experimental results from Ref. [ 41 ] More about this image found in T max of the module and the corresponding experimental results from Ref. ...
Image
Cooling performance comparison of the three BTMSs under 3C discharge rate

Cooling performance comparison of the three BTMSs under 3C discharge rate

in Numerical Investigation of a Vapor Chamber-Assisted Liquid Cooling System for Cylindrical Battery Thermal Management > Journal of Electrochemical Energy Conversion and Storage
Published Online: February 28, 2025
Fig. 6 Cooling performance comparison of the three BTMSs under 3C discharge rate More about this image found in Cooling performance comparison of the three BTMSs under 3C discharge rate
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Temperature contours for the three BTMSs at 3C discharge rate end: ( a ) LC...

Temperature contours for the three BTMSs at 3C discharge rate end: ( a ) LC...

in Numerical Investigation of a Vapor Chamber-Assisted Liquid Cooling System for Cylindrical Battery Thermal Management > Journal of Electrochemical Energy Conversion and Storage
Published Online: February 28, 2025
Fig. 7 Temperature contours for the three BTMSs at 3C discharge rate end: ( a ) LC, ( b ) LC-VC, and ( c ) LC-2VCs More about this image found in Temperature contours for the three BTMSs at 3C discharge rate end: ( a ) LC...
Image
Cooling performance comparison of the three BTMSs: ( a ) T max and ( b )...

Cooling performance comparison of the three BTMSs: ( a ) T max and ( b )...

in Numerical Investigation of a Vapor Chamber-Assisted Liquid Cooling System for Cylindrical Battery Thermal Management > Journal of Electrochemical Energy Conversion and Storage
Published Online: February 28, 2025
Fig. 8 Cooling performance comparison of the three BTMSs: ( a ) T max and ( b ) Δ T max More about this image found in Cooling performance comparison of the three BTMSs: ( a ) T max and ( b )...
Image
Effect of the battery axial thermal conductivity for LC-VC and LC-2VCs: ( a...

Effect of the battery axial thermal conductivity for LC-VC and LC-2VCs: ( a...

in Numerical Investigation of a Vapor Chamber-Assisted Liquid Cooling System for Cylindrical Battery Thermal Management > Journal of Electrochemical Energy Conversion and Storage
Published Online: February 28, 2025
Fig. 9 Effect of the battery axial thermal conductivity for LC-VC and LC-2VCs: ( a ) T max and ( b ) Δ T max More about this image found in Effect of the battery axial thermal conductivity for LC-VC and LC-2VCs: ( a...
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Effect of the VC effective thermal conductivity for LC-VC and LC-2VCs: ( a ...

Effect of the VC effective thermal conductivity for LC-VC and LC-2VCs: ( a ...

in Numerical Investigation of a Vapor Chamber-Assisted Liquid Cooling System for Cylindrical Battery Thermal Management > Journal of Electrochemical Energy Conversion and Storage
Published Online: February 28, 2025
Fig. 10 Effect of the VC effective thermal conductivity for LC-VC and LC-2VCs: ( a ) T max and ( b ) Δ T max More about this image found in Effect of the VC effective thermal conductivity for LC-VC and LC-2VCs: ( a ...
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Contours of ( a ) T max and ( b ) Δ T max in terms of the VC effective...

Contours of ( a ) T max and ( b ) Δ T max in terms of the VC effective...

in Numerical Investigation of a Vapor Chamber-Assisted Liquid Cooling System for Cylindrical Battery Thermal Management > Journal of Electrochemical Energy Conversion and Storage
Published Online: February 28, 2025
Fig. 11 Contours of ( a ) T max and ( b ) Δ T max in terms of the VC effective thermal conductivity and battery axial thermal conductivity for LC-2VCs More about this image found in Contours of ( a ) T max and ( b ) Δ T max in terms of the VC effective...
Image
Effect of the fin height on the cooling performance of LC-2VCs

Effect of the fin height on the cooling performance of LC-2VCs

in Numerical Investigation of a Vapor Chamber-Assisted Liquid Cooling System for Cylindrical Battery Thermal Management > Journal of Electrochemical Energy Conversion and Storage
Published Online: February 28, 2025
Fig. 12 Effect of the fin height on the cooling performance of LC-2VCs More about this image found in Effect of the fin height on the cooling performance of LC-2VCs
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Cooling performance of LC-VC and LC-2VCs under different inlet velocities

Cooling performance of LC-VC and LC-2VCs under different inlet velocities

in Numerical Investigation of a Vapor Chamber-Assisted Liquid Cooling System for Cylindrical Battery Thermal Management > Journal of Electrochemical Energy Conversion and Storage
Published Online: February 28, 2025
Fig. 13 Cooling performance of LC-VC and LC-2VCs under different inlet velocities More about this image found in Cooling performance of LC-VC and LC-2VCs under different inlet velocities
Image
Comparison of cooling performance under initial and optimal parameters: ( a...

Comparison of cooling performance under initial and optimal parameters: ( a...

in Numerical Investigation of a Vapor Chamber-Assisted Liquid Cooling System for Cylindrical Battery Thermal Management > Journal of Electrochemical Energy Conversion and Storage
Published Online: February 28, 2025
Fig. 14 Comparison of cooling performance under initial and optimal parameters: ( a ) T max and ( b ) Δ T max More about this image found in Comparison of cooling performance under initial and optimal parameters: ( a...
Image
TG-DTA curve of powder after ball-mill

TG-DTA curve of powder after ball-mill

in Study on the Preparation of High Intrinsic Conductivity Perovskite Li 0.33 La 0.56 TiO 3 Solid-State Electrolyte by Systematic Process Optimization > Journal of Electrochemical Energy Conversion and Storage
Published Online: February 28, 2025
Fig. 1 TG-DTA curve of powder after ball-mill More about this image found in TG-DTA curve of powder after ball-mill
Image
XRD patterns of samples without lithium compensation

XRD patterns of samples without lithium compensation

in Study on the Preparation of High Intrinsic Conductivity Perovskite Li 0.33 La 0.56 TiO 3 Solid-State Electrolyte by Systematic Process Optimization > Journal of Electrochemical Energy Conversion and Storage
Published Online: February 28, 2025
Fig. 2 XRD patterns of samples without lithium compensation More about this image found in XRD patterns of samples without lithium compensation