On the Stability and Characteristics of Biogas/Methane/Air Flames Fired by a Double Swirl Burner

Abdulnaim, A.; Elkholy, A.; Elmously, Mohamed; Moneib, H. A.; Roberts, William L.; Elbaz, Ayman M.

doi:10.1007/s10494-023-00427-0

Flow Turbulence Combust

2023

DOI: 10.1007/s10494-023-00427-0

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On the Stability and Characteristics of Biogas/Methane/Air Flames Fired by a Double Swirl Burner

A. Abdulnaim

A. Elkholy

Mohamed Elmously

et al.

Abstract: CO 2 -diluted methane fuel is relevant to biogas combustion applications. Despite its poor heating value and low reactivity, which limit its practical applicability, biogas gains popularity as a renewable fuel.However, implementing it in combustion systems requires either modifying or replacing the existing burners. This study investigates the stability, temperature eld, and pollutant emissions of CH 4 /CO 2 /airpremixed ames red by a double-swirl burner. A CH 4 /air mixture of equivalence ratio, Φ out was use… Show more

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Cited by 4 publications

References 36 publications

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Numerical and experimental investigation of microturbine combustion chamber performance and emissions through biogas consumption with varied component ratios

Bastani,

Tabejamaat,

Mani

et al. 2025

Fuel

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Numerical and experimental investigation of microturbine combustion chamber performance and emissions through biogas consumption with varied component ratios

Bastani,

Tabejamaat,

Mani

et al. 2025

Fuel

View full text Add to dashboard Cite

Experimental and Numerical Investigation of Methane/Air and Biogas/Air Coflow Flames in a Confined Coaxial Burner

Pattanashetti,

Santhosh

2024

Journal of Thermal Science and Engineering Applications

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The present experimental-cum-numerical work reports three different types of transitions (Type I, Type II, and Type III) observed in the flame topology of non-premixed methane/air and biogas/air coflow flames as the coannular air Reynolds number (Rea) is varied from zero to maximum limit or till flame blows off/blows out for a given range of fuel Reynolds number (Ref). Type I transition represents the transformation from burner lip-attached flame to lifted flame and then backward propagation towards the burner exit plane as Rea is increased. In Type II transition, the burner lip-attached flame lifts off from the burner exit, stabilizes at a new location, and then extinguishes as Rea is increased. In Type III transition, the burner lip-attached flame directly extinguishes as Rea is increased. RANS-based 3D numerical simulations are performed to simulate these three types of transitions (Type I, Type II, and Type III) using GRI 2.11 detailed reaction mechanism. Flow turbulence is modelled by employing standard k-∈ turbulent model. Flamelet Generated Manifold (FGM) approach is used as the turbulent combustion model. To validate the numerical method/models, the numerical temperature profiles have been compared against the experimental temperature measurements as a part of the present work. The numerical results are employed to gain further insights to understand flame-flow interactions.

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Influence of Thermal Physical Properties of Biogas Combustion Products on the Thermal Parameters of Water Heating Boilers

Leonov,

Trubaev

2024

Bulletin of Belgorod State Technological University Named After. V. G. Shukhov

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The combustion products of biogas and natural gas differ in the content of components, which affects their heat content and heat exchange in boilers. To determine the possibility of using biogas in boilers designed for burning natural gas, the work compares the thermophysical properties of the combustion products of natural gas and biogas and their influence on the results of boiler calculations. Methods were obtained for calculating the thermal conductivity and viscosity of a mixture of gases depending on their composition and temperature. The comparison showed that the calorimetric and thermophysical properties of biogas combustion products differ from the properties of natural gas combustion products by up to 4 %, and the difference from the reference properties of combustion products given in the standard method for calculating boiler units is on average 6 %. A comparison has been made of the results of verification thermal calculations of low-power hot water boilers KVMG-1.0 and KSV-1.0 using the properties of combustion products given in the standard method for calculating boiler units, and when calculating them using the proposed equations. Calculations have shown that the results of calculations based on reference data of the standard method lead to higher values of exhaust gas temperatures and fuel consumption. It can be concluded that natural gas in boilers can be replaced by biogas without the need to reconstruct the boiler, but for thermal calculations it is necessary to take into account changes in the composition and properties of fuel combustion products.

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On the Stability and Characteristics of Biogas/Methane/Air Flames Fired by a Double Swirl Burner

Cited by 4 publications

References 36 publications

Numerical and experimental investigation of microturbine combustion chamber performance and emissions through biogas consumption with varied component ratios

Numerical and experimental investigation of microturbine combustion chamber performance and emissions through biogas consumption with varied component ratios

Experimental and Numerical Investigation of Methane/Air and Biogas/Air Coflow Flames in a Confined Coaxial Burner

Influence of Thermal Physical Properties of Biogas Combustion Products on the Thermal Parameters of Water Heating Boilers

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