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Journal Articles
Accepted Manuscript
Publisher: ASME
Article Type: Research Papers
J. Thermal Sci. Eng. Appl.
Paper No: TSEA-24-1151
Published Online: September 12, 2024
Journal Articles
Publisher: ASME
Article Type: Research Papers
J. Thermal Sci. Eng. Appl. November 2024, 16(11): 111004.
Paper No: TSEA-24-1157
Published Online: September 10, 2024
Journal Articles
Publisher: ASME
Article Type: Research Papers
J. Thermal Sci. Eng. Appl. November 2024, 16(11): 111005.
Paper No: TSEA-24-1180
Published Online: September 10, 2024
Journal Articles
Publisher: ASME
Article Type: Research Papers
J. Thermal Sci. Eng. Appl. November 2024, 16(11): 111002.
Paper No: TSEA-24-1231
Published Online: September 10, 2024
Journal Articles
Publisher: ASME
Article Type: Research Papers
J. Thermal Sci. Eng. Appl. November 2024, 16(11): 111001.
Paper No: TSEA-24-1253
Published Online: September 10, 2024
Journal Articles
Publisher: ASME
Article Type: Research Papers
J. Thermal Sci. Eng. Appl. November 2024, 16(11): 111003.
Paper No: TSEA-24-1139
Published Online: September 10, 2024
Journal Articles
Publisher: ASME
Article Type: Research Papers
J. Thermal Sci. Eng. Appl. November 2024, 16(11): 111006.
Paper No: TSEA-24-1217
Published Online: September 10, 2024
Image
in Stacking Ensemble Method to Predict the Pool Boiling Heat Transfer of Nanomaterial-Coated Surface
> Journal of Thermal Science and Engineering Applications
Published Online: September 10, 2024
Fig. 1 Schematic representation of the boiling setup More about this image found in Schematic representation of the boiling setup
Image
in Stacking Ensemble Method to Predict the Pool Boiling Heat Transfer of Nanomaterial-Coated Surface
> Journal of Thermal Science and Engineering Applications
Published Online: September 10, 2024
Fig. 2 A heat input and output system utilized for calculating heat loss More about this image found in A heat input and output system utilized for calculating heat loss
Image
in Stacking Ensemble Method to Predict the Pool Boiling Heat Transfer of Nanomaterial-Coated Surface
> Journal of Thermal Science and Engineering Applications
Published Online: September 10, 2024
Fig. 3 The angle of contact shown by ( a ) S1, ( b ) S2, ( c ) S9, and ( d ) S7 More about this image found in The angle of contact shown by ( a ) S1, ( b ) S2, ( c ) S9, and ( d ) S7
Image
in Stacking Ensemble Method to Predict the Pool Boiling Heat Transfer of Nanomaterial-Coated Surface
> Journal of Thermal Science and Engineering Applications
Published Online: September 10, 2024
Fig. 4 Surface roughness plots for ( a ) S1, ( b ) S5, ( c ) S6, and ( d ) S7 More about this image found in Surface roughness plots for ( a ) S1, ( b ) S5, ( c ) S6, and ( d ) S7
Image
in Stacking Ensemble Method to Predict the Pool Boiling Heat Transfer of Nanomaterial-Coated Surface
> Journal of Thermal Science and Engineering Applications
Published Online: September 10, 2024
Fig. 5 Schematic representation illustrating the SE model More about this image found in Schematic representation illustrating the SE model
Image
in Stacking Ensemble Method to Predict the Pool Boiling Heat Transfer of Nanomaterial-Coated Surface
> Journal of Thermal Science and Engineering Applications
Published Online: September 10, 2024
Fig. 6 Schematic representation illustrating the RF model More about this image found in Schematic representation illustrating the RF model
Image
in Stacking Ensemble Method to Predict the Pool Boiling Heat Transfer of Nanomaterial-Coated Surface
> Journal of Thermal Science and Engineering Applications
Published Online: September 10, 2024
Fig. 7 Published data validate experimental outcome More about this image found in Published data validate experimental outcome
Image
in Stacking Ensemble Method to Predict the Pool Boiling Heat Transfer of Nanomaterial-Coated Surface
> Journal of Thermal Science and Engineering Applications
Published Online: September 10, 2024
Fig. 8 Pool boiling curves for coated and bare samples More about this image found in Pool boiling curves for coated and bare samples
Image
in Stacking Ensemble Method to Predict the Pool Boiling Heat Transfer of Nanomaterial-Coated Surface
> Journal of Thermal Science and Engineering Applications
Published Online: September 10, 2024
Fig. 9 Changes in HTC across different Wall superheat More about this image found in Changes in HTC across different Wall superheat
Image
in Stacking Ensemble Method to Predict the Pool Boiling Heat Transfer of Nanomaterial-Coated Surface
> Journal of Thermal Science and Engineering Applications
Published Online: September 10, 2024
Fig. 10 The normalized features of the dataset for the heat transfer coefficient More about this image found in The normalized features of the dataset for the heat transfer coefficient
Image
in Stacking Ensemble Method to Predict the Pool Boiling Heat Transfer of Nanomaterial-Coated Surface
> Journal of Thermal Science and Engineering Applications
Published Online: September 10, 2024
Fig. 11 Random Forest predictions More about this image found in Random Forest predictions
Image
in Stacking Ensemble Method to Predict the Pool Boiling Heat Transfer of Nanomaterial-Coated Surface
> Journal of Thermal Science and Engineering Applications
Published Online: September 10, 2024
Fig. 12 AdaBoost predictions More about this image found in AdaBoost predictions
Image
in Stacking Ensemble Method to Predict the Pool Boiling Heat Transfer of Nanomaterial-Coated Surface
> Journal of Thermal Science and Engineering Applications
Published Online: September 10, 2024
Fig. 13 Stacked ensemble predictions More about this image found in Stacked ensemble predictions
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