Numerical Investigation of the Plasma-Assisted MILD Combustion of a CH4/H2 Fuel Blend Under Various Working Conditions

Mousavi, Seyed Mahmoud; Kamali, Reza; Sotoudeh, Freshteh; Karimi, Nader; Lee, Bok Jik

doi:10.1115/1.4048507

Cited by 18 publications

(2 citation statements)

References 46 publications

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“…In recent years, several studies have investigated various aspects of the modelling and thermodynamic analysis of the effects of low-temperature plasma on combustion processes, specifically for gaseous fuels [21], liquid hydrocarbons [22], and coal [23]. However, these studies have primarily focused on fuel-burning devices operating on a single fuel type.…”

Section: Mathematical Modellingmentioning

confidence: 99%

Investigation of the Efficiency of a Dual-Fuel Gas Turbine Combustion Chamber with a Plasma‒Chemical Element

Serbin

Diasamidze

Dzida

et al. 2023

Polish Maritime Research

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The study is devoted to the possibility of increasing the efficiency of the working process in dual-fuel combustion chambers of gas turbine engines for FPSO vessels. For the first time, it is proposed to use the advantages of plasma‒chemical intensification of the combustion of hydrocarbon fuels in the dual-fuel combustion chambers, which can simultaneously operate on gaseous and liquid fuels. A design scheme of a combustion chamber with a plasma‒chemical element is proposed. A continuous type mathematical model of a combustion chamber with a plasma‒chemical element has been developed, which is based on the solution of a system of differential equations describing the processes of chemical reactions in a turbulent system, taking into consideration the initiating effect of the products of plasma‒chemical reactions on the processes of flame propagation. A modified six-stage kinetic scheme of hydrocarbon oxidation was used to simultaneously predict the combustion characteristics of the gaseous and liquid fuels, taking into account the decrease in the activation energy of carbon monoxide oxidation reactions when the products of the plasma‒chemical element are added. The results reveal that the addition of plasma‒chemical products significantly reduces CO emissions in the outlet section of the flame tube (from 25‒28 ppm to 3.9‒4.6 ppm), while the emission of nitrogen oxides remains practically unchanged for the studied combustion chamber. Further research directions are proposed to enhance the working process efficiency of a dual-fuel combustion chamber for gas turbine engines as part of the power plant of FSPO vessels.

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Section: Mathematical Modellingmentioning

confidence: 99%

Investigation of the Efficiency of a Dual-Fuel Gas Turbine Combustion Chamber with a Plasma‒Chemical Element

Serbin

Diasamidze

Dzida

et al. 2023

Polish Maritime Research

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“…Nonetheless, this still poses a substantial concern, hence there exist active plans for decarbonization of gas grids. , Injection of hydrogen to natural gas pipelines has been identified as a practical approach to reduce carbon emissions. , As a result, in recent years, there has been a surge of research interest in the combustion of hydrogen and methane mixtures, for example, refs , . Although these studies , have provided a wealth of insights into the problem, they are chiefly focused on lean premixed and partially premixed flames . This makes them pertinent to high-temperature applications typically more than 1500 K. There are, however, an increasing number of applications in which high temperatures are not needed, and generation of heat at moderate temperatures is preferred .…”

Section: Introductionmentioning

confidence: 99%

On the Response of Ultralean Combustion of CH₄/H₂ Blends in a Porous Burner to Fluctuations in Fuel Flow—an Experimental Investigation

et al. 2021

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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 CH 4 (90%)–H 2 (10%) and CH 4 (70%)–H 2 (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 CH 4 (70%)–H 2 (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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Effects of Plasma-Produced Ozone on Flame Chemiluminescence and Pollutant Emissions of Biogas with Different CO2 Content

Paulauskas

Bykov

Zakarauskas

et al. 2023

Plasma Chem Plasma Process

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Numerical Investigation of the Plasma-Assisted MILD Combustion of a CH4/H2 Fuel Blend Under Various Working Conditions

Cited by 18 publications

References 46 publications

Investigation of the Efficiency of a Dual-Fuel Gas Turbine Combustion Chamber with a Plasma‒Chemical Element

Investigation of the Efficiency of a Dual-Fuel Gas Turbine Combustion Chamber with a Plasma‒Chemical Element

On the Response of Ultralean Combustion of CH₄/H₂ Blends in a Porous Burner to Fluctuations in Fuel Flow—an Experimental Investigation

Effects of Plasma-Produced Ozone on Flame Chemiluminescence and Pollutant Emissions of Biogas with Different CO2 Content

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Numerical Investigation of the Plasma-Assisted MILD Combustion of a CH4/H2 Fuel Blend Under Various Working Conditions

Cited by 18 publications

References 46 publications

Investigation of the Efficiency of a Dual-Fuel Gas Turbine Combustion Chamber with a Plasma‒Chemical Element

Investigation of the Efficiency of a Dual-Fuel Gas Turbine Combustion Chamber with a Plasma‒Chemical Element

On the Response of Ultralean Combustion of CH4/H2 Blends in a Porous Burner to Fluctuations in Fuel Flow—an Experimental Investigation

Effects of Plasma-Produced Ozone on Flame Chemiluminescence and Pollutant Emissions of Biogas with Different CO2 Content

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Product

Resources

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On the Response of Ultralean Combustion of CH₄/H₂ Blends in a Porous Burner to Fluctuations in Fuel Flow—an Experimental Investigation