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1-20 of 1846
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Journal Articles
Journal:
ASME Open Journal of Engineering
Publisher: ASME
Article Type: Research Papers
ASME Open J. Engineering. January 2024, 3: 031030.
Paper No: AOJE-24-1105
Published Online: December 4, 2024
Includes: Supplementary data
Image
in Thermodynamic and Exergoeconomic Assessment of Environmentally-Benign Zeotropic Mixtures in Organic Rankine Cycle for Sustainable Power Generation
> ASME Open Journal of Engineering
Published Online: December 4, 2024
Fig. 1 Illustration of ORC operation with ( a ) pure working fluids and ( b ) zeotropic mixtures as working fluids, highlighting the reduction in exergy losses More about this image found in Illustration of ORC operation with ( a ) pure working fluids and ...
Image
in Thermodynamic and Exergoeconomic Assessment of Environmentally-Benign Zeotropic Mixtures in Organic Rankine Cycle for Sustainable Power Generation
> ASME Open Journal of Engineering
Published Online: December 4, 2024
Fig. 2 Temperature–entropy (T–s) diagram (left) and schematic (right) of the basic transcritical ORC ( TC − OR C B ) More about this image found in Temperature–entropy (T–s) diagram (left) and schematic (right) of the basic...
Image
in Thermodynamic and Exergoeconomic Assessment of Environmentally-Benign Zeotropic Mixtures in Organic Rankine Cycle for Sustainable Power Generation
> ASME Open Journal of Engineering
Published Online: December 4, 2024
Fig. 3 Comparison of maximum power generated by R32-CO 2 mixtures obtained in this study with the literature [ 25 ] More about this image found in Comparison of maximum power generated by R32-CO 2 mixtures obtained in thi...
Image
in Thermodynamic and Exergoeconomic Assessment of Environmentally-Benign Zeotropic Mixtures in Organic Rankine Cycle for Sustainable Power Generation
> ASME Open Journal of Engineering
Published Online: December 4, 2024
Fig. 4 Techno-economic analysis implementation of this study More about this image found in Techno-economic analysis implementation of this study
Image
in Thermodynamic and Exergoeconomic Assessment of Environmentally-Benign Zeotropic Mixtures in Organic Rankine Cycle for Sustainable Power Generation
> ASME Open Journal of Engineering
Published Online: December 4, 2024
Fig. 5 Influence of CO 2 fraction on the critical pressure (left) and critical temperature (right) of the zeotropic mixtures More about this image found in Influence of CO 2 fraction on the critical pressure (left) and critical te...
Image
in Thermodynamic and Exergoeconomic Assessment of Environmentally-Benign Zeotropic Mixtures in Organic Rankine Cycle for Sustainable Power Generation
> ASME Open Journal of Engineering
Published Online: December 4, 2024
Fig. 6 Influence of CO 2 fraction on the temperature glide phenomenon for different zeotropic mixtures More about this image found in Influence of CO 2 fraction on the temperature glide phenomenon for differe...
Image
in Thermodynamic and Exergoeconomic Assessment of Environmentally-Benign Zeotropic Mixtures in Organic Rankine Cycle for Sustainable Power Generation
> ASME Open Journal of Engineering
Published Online: December 4, 2024
Fig. 7 Comparison of the maximum net power ( W ˙ n e t , m a x ) generated in a transcritical-ORC as a function of CO 2 fraction in the zeotropic mixtures at different heat source temperatures ( T H S ) More about this image found in Comparison of the maximum net power ( W ˙ n e t , m a x ...
Image
in Thermodynamic and Exergoeconomic Assessment of Environmentally-Benign Zeotropic Mixtures in Organic Rankine Cycle for Sustainable Power Generation
> ASME Open Journal of Engineering
Published Online: December 4, 2024
Fig. 8 Comparison of the maximum net power ( W ˙ n e t , m a x ) generated normalized by the heat transfer coefficient signifying the compactness of the heat exchangers in a transcritical-ORC as a function of CO 2 fraction at different heat source temperatures ( T H S ... More about this image found in Comparison of the maximum net power ( W ˙ n e t , m a x ...
Image
in Thermodynamic and Exergoeconomic Assessment of Environmentally-Benign Zeotropic Mixtures in Organic Rankine Cycle for Sustainable Power Generation
> ASME Open Journal of Engineering
Published Online: December 4, 2024
Fig. 9 Comparison of thermal efficiencies of zeotropic mixtures in a TC-ORC as a function of CO 2 fraction at different heat source temperatures ( T H S ) More about this image found in Comparison of thermal efficiencies of zeotropic mixtures in a TC-ORC as a f...
Image
in Thermodynamic and Exergoeconomic Assessment of Environmentally-Benign Zeotropic Mixtures in Organic Rankine Cycle for Sustainable Power Generation
> ASME Open Journal of Engineering
Published Online: December 4, 2024
Fig. 10 Comparison of exergy efficiencies of zeotropic mixtures in a TC-ORC as a function of CO 2 fraction at different heat source temperatures ( T H S ) More about this image found in Comparison of exergy efficiencies of zeotropic mixtures in a TC-ORC as a fu...
Image
in Thermodynamic and Exergoeconomic Assessment of Environmentally-Benign Zeotropic Mixtures in Organic Rankine Cycle for Sustainable Power Generation
> ASME Open Journal of Engineering
Published Online: December 4, 2024
Fig. 11 Comparison of components-wise exergy destruction in a TC-ORC for DME-CO 2 and R32-CO 2 zeotropic mixtures at different CO 2 fractions and heat source temperatures More about this image found in Comparison of components-wise exergy destruction in a TC-ORC for DME-CO 2 ...
Image
in Thermodynamic and Exergoeconomic Assessment of Environmentally-Benign Zeotropic Mixtures in Organic Rankine Cycle for Sustainable Power Generation
> ASME Open Journal of Engineering
Published Online: December 4, 2024
Fig. 12 Comparison of exergoeconomics of the zeotropic mixtures in a TC-ORC at different CO 2 fractions and heat source temperatures under scenario (1) —maximizing the power output More about this image found in Comparison of exergoeconomics of the zeotropic mixtures in a TC-ORC at diff...
Journal Articles
Journal:
ASME Open Journal of Engineering
Publisher: ASME
Article Type: Research Papers
ASME Open J. Engineering. January 2024, 3: 031029.
Paper No: AOJE-24-1072
Published Online: November 21, 2024
Image
in Model Parameter Extraction From Contact Geometry and Compliance in Tire–Soil Interaction
> ASME Open Journal of Engineering
Published Online: November 21, 2024
Fig. 1 Illustration of tire deformation and corresponding imprint of contact surface geometry More about this image found in Illustration of tire deformation and corresponding imprint of contact surfa...
Image
in Model Parameter Extraction From Contact Geometry and Compliance in Tire–Soil Interaction
> ASME Open Journal of Engineering
Published Online: November 21, 2024
Fig. 2 Perimeter C around tire as shown by dark solid line More about this image found in Perimeter C around tire as shown by dark solid line
Image
in Model Parameter Extraction From Contact Geometry and Compliance in Tire–Soil Interaction
> ASME Open Journal of Engineering
Published Online: November 21, 2024
Fig. 3 Power law representation of soil strength index, Γ More about this image found in Power law representation of soil strength index, Γ
Image
in Model Parameter Extraction From Contact Geometry and Compliance in Tire–Soil Interaction
> ASME Open Journal of Engineering
Published Online: November 21, 2024
Fig. 4 Transformation of (tanh 2 ( a ) = 1−sech 2 ( a )) to 1− s 2 to show dependence of κ on s More about this image found in Transformation of (tanh 2 ( a ) = 1−sech 2 ( a )) to 1− s 2 to show depen...
Image
in Model Parameter Extraction From Contact Geometry and Compliance in Tire–Soil Interaction
> ASME Open Journal of Engineering
Published Online: November 21, 2024
Fig. 5 Parameter estimation method process chart More about this image found in Parameter estimation method process chart
Image
in Model Parameter Extraction From Contact Geometry and Compliance in Tire–Soil Interaction
> ASME Open Journal of Engineering
Published Online: November 21, 2024
Fig. 6 Driven tire More about this image found in Driven tire
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