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Journal Articles
Accepted Manuscript
Publisher: ASME
Article Type: Research Papers
J. Thermal Sci. Eng. Appl.
Paper No: TSEA-24-1246
Published Online: January 10, 2025
Journal Articles
Accepted Manuscript
R. Venkatesh, K. Logesh, Mohanavel Vinayagam, Ashok Kumar, Rishabh Chaturvedi, S. Prabagaran, Manzoore Elahi M. Soudagar, Saleh Hussein Salmen, Sami Al Obaid
Publisher: ASME
Article Type: Research Papers
J. Thermal Sci. Eng. Appl.
Paper No: TSEA-24-1325
Published Online: January 10, 2025
Journal Articles
Accepted Manuscript
Publisher: ASME
Article Type: Research Papers
J. Thermal Sci. Eng. Appl.
Paper No: TSEA-24-1404
Published Online: January 10, 2025
Journal Articles
Accepted Manuscript
Publisher: ASME
Article Type: Research Papers
J. Thermal Sci. Eng. Appl.
Paper No: TSEA-24-1341
Published Online: January 10, 2025
Journal Articles
Accepted Manuscript
Publisher: ASME
Article Type: Research Papers
J. Thermal Sci. Eng. Appl.
Paper No: TSEA-24-1359
Published Online: January 10, 2025
Journal Articles
Accepted Manuscript
R. Venkatesh, Ravindra Pratap Singh, N Naga Bhooshanam, S. Prabagaran, Vinayagam Mohanavel, Dhaval Rabadiya, Manzoore Elahi M. Soudagar, Majed A. Alotaibi, Asiful H. Seikh
Publisher: ASME
Article Type: Research Papers
J. Thermal Sci. Eng. Appl.
Paper No: TSEA-24-1376
Published Online: January 9, 2025
Journal Articles
Accepted Manuscript
Mahadevan Ravichandran, Johanna Winter, Anton Dimroth, Stefan Bartzsch, Kim Melanie Kraus, Markus Zimmermann
Publisher: ASME
Article Type: Research Papers
J. Thermal Sci. Eng. Appl.
Paper No: TSEA-24-1458
Published Online: January 9, 2025
Journal Articles
Accepted Manuscript
Publisher: ASME
Article Type: Research Papers
J. Thermal Sci. Eng. Appl.
Paper No: TSEA-24-1466
Published Online: December 20, 2024
Journal Articles
Accepted Manuscript
Publisher: ASME
Article Type: Research Papers
J. Thermal Sci. Eng. Appl.
Paper No: TSEA-24-1235
Published Online: December 20, 2024
Journal Articles
Accepted Manuscript
Publisher: ASME
Article Type: Research Papers
J. Thermal Sci. Eng. Appl.
Paper No: TSEA-24-1456
Published Online: December 20, 2024
Journal Articles
Publisher: ASME
Article Type: Research Papers
J. Thermal Sci. Eng. Appl. February 2025, 17(2): 021011.
Paper No: TSEA-24-1305
Published Online: December 19, 2024
Image
in Experimental Study on the Performance of Biohythane Combustion in a Porous Radiant Burner Operated on Submerged Mode
> Journal of Thermal Science and Engineering Applications
Published Online: December 19, 2024
Fig. 1 Schematic of the experimental setup and PRB More about this image found in Schematic of the experimental setup and PRB
Image
in Experimental Study on the Performance of Biohythane Combustion in a Porous Radiant Burner Operated on Submerged Mode
> Journal of Thermal Science and Engineering Applications
Published Online: December 19, 2024
Fig. 2 Photograph of the experimental setup More about this image found in Photograph of the experimental setup
Image
in Experimental Study on the Performance of Biohythane Combustion in a Porous Radiant Burner Operated on Submerged Mode
> Journal of Thermal Science and Engineering Applications
Published Online: December 19, 2024
Fig. 3 Position of thermocouples in PRB More about this image found in Position of thermocouples in PRB
Image
in Experimental Study on the Performance of Biohythane Combustion in a Porous Radiant Burner Operated on Submerged Mode
> Journal of Thermal Science and Engineering Applications
Published Online: December 19, 2024
Fig. 4 Axial temperature distribution in PRB for 5H 2 95CH 4 : ( a ) φ = 0.55, ( b ) φ = 0.65, and ( c ) φ = 0.76 More about this image found in Axial temperature distribution in PRB for 5H 2 95CH 4 : ( a ) φ = 0.55, (...
Image
in Experimental Study on the Performance of Biohythane Combustion in a Porous Radiant Burner Operated on Submerged Mode
> Journal of Thermal Science and Engineering Applications
Published Online: December 19, 2024
Fig. 5 Axial temperature distribution in PRB for 10H 2 90CH 4 ( a ) φ = 0.55, ( b ) φ = 0.65, and ( c ) φ = 0.76 More about this image found in Axial temperature distribution in PRB for 10H 2 90CH 4 ( a ) φ = 0.55, (...
Image
in Experimental Study on the Performance of Biohythane Combustion in a Porous Radiant Burner Operated on Submerged Mode
> Journal of Thermal Science and Engineering Applications
Published Online: December 19, 2024
Fig. 6 Axial temperature distribution in PRB for 15H 2 85CH 4 ( a ) φ = 0.55, ( b ) φ = 0.65, and ( c ) φ = 0.76 More about this image found in Axial temperature distribution in PRB for 15H 2 85CH 4 ( a ) φ = 0.55, (...
Image
in Experimental Study on the Performance of Biohythane Combustion in a Porous Radiant Burner Operated on Submerged Mode
> Journal of Thermal Science and Engineering Applications
Published Online: December 19, 2024
Fig. 7 Axial temperature distribution in PRB for 20H 2 80CH 4 ( a ) φ = 0.55, ( b ) φ = 0.65, and ( c ) φ = 0.76 More about this image found in Axial temperature distribution in PRB for 20H 2 80CH 4 ( a ) φ = 0.55, (...
Image
in Experimental Study on the Performance of Biohythane Combustion in a Porous Radiant Burner Operated on Submerged Mode
> Journal of Thermal Science and Engineering Applications
Published Online: December 19, 2024
Fig. 8 Effect of H 2 addition in bohythane on burner surface temperature at fixed TL of 400 kW/m 2 and φ of 0.76 More about this image found in Effect of H 2 addition in bohythane on burner surface temperature at fixed...
Image
in Experimental Study on the Performance of Biohythane Combustion in a Porous Radiant Burner Operated on Submerged Mode
> Journal of Thermal Science and Engineering Applications
Published Online: December 19, 2024
Fig. 9 Radiation efficiency of PRB for ( a ) 5H 2 95CH 4 , ( b ) 10H 2 90CH 4 , ( c ) 15H 2 85CH 4 , and ( d ) 20H 2 80CH 4 More about this image found in Radiation efficiency of PRB for ( a ) 5H 2 95CH 4 , ( b ) 10H 2 90CH 4 , ( ...
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