Fuel-lean ammonia/biogas combustion characteristics under the reacting swirl flow conditions
Ammonia has been identified as a viable energy vector for power generation. Using dual-fuel operation that mixes the ammonia with higher reactivity gaseous fuel can be vital in enhancing ammonia combustion. This study examined the fundamental swirl combustion characteristics of fuel-lean premixed am...
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2023
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my.utm.1071732024-08-28T06:54:01Z http://eprints.utm.my/107173/ Fuel-lean ammonia/biogas combustion characteristics under the reacting swirl flow conditions Mong, Guo Ren Chiong, Meng-Choung Chong, Cheng Tung Ng, Jo-Han Syed Mashruk, Syed Mashruk Tran, Manh-Vu Lee, Kiat Moon Samiran, Nor Afzanizam Wong, Keng Yinn Agustin, Valera-Medina TJ Mechanical engineering and machinery Ammonia has been identified as a viable energy vector for power generation. Using dual-fuel operation that mixes the ammonia with higher reactivity gaseous fuel can be vital in enhancing ammonia combustion. This study examined the fundamental swirl combustion characteristics of fuel-lean premixed ammonia/biogas via a numerical approach. The flame was established at an input thermal power of 7 kW and a global equivalence ratio of 0.8. The numerical model was validated with biogas emissions data acquired through experimental work. At 20 mm downstream the burner, increased carbon dioxide mass fraction in the biogas lowered the peak flame temperature by around 300 K. Moreover, the deformation of flame temperature radial profiles was also found aggravated as carbon dioxide concentration in the biogas elevated from 0 % to 40 %. The reduction in premixed reactant mixture reactivity not only initiated flame temperature profile deformation but also reduced the peak Damköhler number significantly. The peak Damköhler number was lowered by a factor of ~ 1.5 when carbon dioxide dilution in the biogas elevated by 40 %. The premixed combustion was directed into the thin reaction flamelets zone with elevated carbon dioxide mass fraction, owing to the intensified flow fluctuation. This, in turn, elevates the normalised flame turbulent propagating speed, gas flow average velocities and turbulent kinetic energy, notwithstanding that heat release rate and averaged laminar flame speed declined. In all, the presence of carbon dioxide has been shown to lower the ammonia/methane mixture reactivity whilst escalating the reacting flow fluctuation. Elsevier Ltd 2023 Article PeerReviewed Mong, Guo Ren and Chiong, Meng-Choung and Chong, Cheng Tung and Ng, Jo-Han and Syed Mashruk, Syed Mashruk and Tran, Manh-Vu and Lee, Kiat Moon and Samiran, Nor Afzanizam and Wong, Keng Yinn and Agustin, Valera-Medina (2023) Fuel-lean ammonia/biogas combustion characteristics under the reacting swirl flow conditions. Fuel, 331 (NA). NA-NA. ISSN 0016-2361 http://dx.doi.org/10.1016/j.fuel.2022.125983 DOI : 10.1016/j.fuel.2022.125983 |
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TJ Mechanical engineering and machinery Mong, Guo Ren Chiong, Meng-Choung Chong, Cheng Tung Ng, Jo-Han Syed Mashruk, Syed Mashruk Tran, Manh-Vu Lee, Kiat Moon Samiran, Nor Afzanizam Wong, Keng Yinn Agustin, Valera-Medina Fuel-lean ammonia/biogas combustion characteristics under the reacting swirl flow conditions |
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Ammonia has been identified as a viable energy vector for power generation. Using dual-fuel operation that mixes the ammonia with higher reactivity gaseous fuel can be vital in enhancing ammonia combustion. This study examined the fundamental swirl combustion characteristics of fuel-lean premixed ammonia/biogas via a numerical approach. The flame was established at an input thermal power of 7 kW and a global equivalence ratio of 0.8. The numerical model was validated with biogas emissions data acquired through experimental work. At 20 mm downstream the burner, increased carbon dioxide mass fraction in the biogas lowered the peak flame temperature by around 300 K. Moreover, the deformation of flame temperature radial profiles was also found aggravated as carbon dioxide concentration in the biogas elevated from 0 % to 40 %. The reduction in premixed reactant mixture reactivity not only initiated flame temperature profile deformation but also reduced the peak Damköhler number significantly. The peak Damköhler number was lowered by a factor of ~ 1.5 when carbon dioxide dilution in the biogas elevated by 40 %. The premixed combustion was directed into the thin reaction flamelets zone with elevated carbon dioxide mass fraction, owing to the intensified flow fluctuation. This, in turn, elevates the normalised flame turbulent propagating speed, gas flow average velocities and turbulent kinetic energy, notwithstanding that heat release rate and averaged laminar flame speed declined. In all, the presence of carbon dioxide has been shown to lower the ammonia/methane mixture reactivity whilst escalating the reacting flow fluctuation. |
| format |
Article |
| author |
Mong, Guo Ren Chiong, Meng-Choung Chong, Cheng Tung Ng, Jo-Han Syed Mashruk, Syed Mashruk Tran, Manh-Vu Lee, Kiat Moon Samiran, Nor Afzanizam Wong, Keng Yinn Agustin, Valera-Medina |
| author_facet |
Mong, Guo Ren Chiong, Meng-Choung Chong, Cheng Tung Ng, Jo-Han Syed Mashruk, Syed Mashruk Tran, Manh-Vu Lee, Kiat Moon Samiran, Nor Afzanizam Wong, Keng Yinn Agustin, Valera-Medina |
| author_sort |
Mong, Guo Ren |
| title |
Fuel-lean ammonia/biogas combustion characteristics under the reacting swirl flow conditions |
| title_short |
Fuel-lean ammonia/biogas combustion characteristics under the reacting swirl flow conditions |
| title_full |
Fuel-lean ammonia/biogas combustion characteristics under the reacting swirl flow conditions |
| title_fullStr |
Fuel-lean ammonia/biogas combustion characteristics under the reacting swirl flow conditions |
| title_full_unstemmed |
Fuel-lean ammonia/biogas combustion characteristics under the reacting swirl flow conditions |
| title_sort |
fuel-lean ammonia/biogas combustion characteristics under the reacting swirl flow conditions |
| publisher |
Elsevier Ltd |
| publishDate |
2023 |
| url |
http://eprints.utm.my/107173/ http://dx.doi.org/10.1016/j.fuel.2022.125983 |
| _version_ |
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