On the response of ultralean combustion of CH4/H2 blends in a porous burner to fluctuations in fuel flow—an experimental investigation
On the response of ultralean combustion of CH4/H2 blends in a porous burner to fluctuations in fuel flow—an experimental investigation
Fluctuations in the fuel flow rate may occur in practical combustion systems and result in flame destabilization. This is particularly problematic in lean and ultralean modes of burner operation. In this study, the response of a ceramic porous burner to fluctuations in the flow rate of different blends of methane and hydrogen is investigated experimentally. Prior to injection into the porous burner, the fuel blend is premixed with air at equivalence ratios below 0.275. The fuel streams are measured and controlled separately by programmable mass flow controllers, which impose sinusoidal fluctuations on the flow rates. To replicate realistic fluctuations in the fuel flow rate, the period of oscillations is chosen to be on the order of minutes. The temperature inside the ceramic foam is measured using five thermocouples located at the center of the working section of the burner. The flame embedded in porous media is imaged while the fuel flow is modulated. Analysis of the flame pictures and temperature traces shows that the forced oscillation of the fuel mixture leads to flame movement within the burner. This movement is found to act in accordance with the fluctuations in methane and hydrogen flows for both CH4(90%)–H2(10%) and CH4(70%)–H2(30%) mixtures. However, both fuel mixtures are noted to be rather insensitive to hydrogen flow fluctuation with a modulation amplitude below 30% of the steady flow. For the CH4(70%)–H2(30%) mixture, the flame in the porous medium can be modulated by fluctuations between 0 and 30% of steady methane flow without any noticeable flame destabilization.
8909-8921
Habib, Rabeeah
4a0a29f8-dcfe-4002-b369-d534c4e63985
Yadollahi, Bijan
76b7347b-00ec-482c-863f-9e6a60b1815b
Saeed, Ali
d21accb0-c60c-4375-9117-2e44096048d1
Doranehgard, Mohammad Hossein
93bdb781-6a63-47fb-b201-3009c95b4642
Karimi, Nader
620646d6-27c9-4e1e-948f-f23e4a1e773a
20 May 2021
Habib, Rabeeah
4a0a29f8-dcfe-4002-b369-d534c4e63985
Yadollahi, Bijan
76b7347b-00ec-482c-863f-9e6a60b1815b
Saeed, Ali
d21accb0-c60c-4375-9117-2e44096048d1
Doranehgard, Mohammad Hossein
93bdb781-6a63-47fb-b201-3009c95b4642
Karimi, Nader
620646d6-27c9-4e1e-948f-f23e4a1e773a
Habib, Rabeeah, Yadollahi, Bijan, Saeed, Ali, Doranehgard, Mohammad Hossein and Karimi, Nader
(2021)
On the response of ultralean combustion of CH4/H2 blends in a porous burner to fluctuations in fuel flow—an experimental investigation.
Energy & Fuels, 35 (10), .
(doi:10.1021/acs.energyfuels.1c00081).
Abstract
Fluctuations in the fuel flow rate may occur in practical combustion systems and result in flame destabilization. This is particularly problematic in lean and ultralean modes of burner operation. In this study, the response of a ceramic porous burner to fluctuations in the flow rate of different blends of methane and hydrogen is investigated experimentally. Prior to injection into the porous burner, the fuel blend is premixed with air at equivalence ratios below 0.275. The fuel streams are measured and controlled separately by programmable mass flow controllers, which impose sinusoidal fluctuations on the flow rates. To replicate realistic fluctuations in the fuel flow rate, the period of oscillations is chosen to be on the order of minutes. The temperature inside the ceramic foam is measured using five thermocouples located at the center of the working section of the burner. The flame embedded in porous media is imaged while the fuel flow is modulated. Analysis of the flame pictures and temperature traces shows that the forced oscillation of the fuel mixture leads to flame movement within the burner. This movement is found to act in accordance with the fluctuations in methane and hydrogen flows for both CH4(90%)–H2(10%) and CH4(70%)–H2(30%) mixtures. However, both fuel mixtures are noted to be rather insensitive to hydrogen flow fluctuation with a modulation amplitude below 30% of the steady flow. For the CH4(70%)–H2(30%) mixture, the flame in the porous medium can be modulated by fluctuations between 0 and 30% of steady methane flow without any noticeable flame destabilization.
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on-the-response-of-ultralean-combustion-of-ch4-h2-blends-in-a-porous-burner-to-fluctuations-in-fuel-flow-an
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e-pub ahead of print date: 4 May 2021
Published date: 20 May 2021
Identifiers
Local EPrints ID: 509279
URI: http://eprints.soton.ac.uk/id/eprint/509279
ISSN: 0887-0624
PURE UUID: b76d7b35-ea67-4b65-90f5-6587275f732e
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Date deposited: 17 Feb 2026 17:47
Last modified: 18 Feb 2026 03:15
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Author:
Rabeeah Habib
Author:
Bijan Yadollahi
Author:
Ali Saeed
Author:
Mohammad Hossein Doranehgard
Author:
Nader Karimi
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