Combustion Inhibition of Aluminum–Methane–Air Flames by Fine NaCl Particles

Xu, Wu; Jiang, Yong

doi:10.3390/en11113147

Cited by 15 publications

(3 citation statements)

References 41 publications

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“…The nanoparticles fuel mixture affects the speed of the laminar flame. The combustion of aluminum particles methane-air mixture causes the release of additional heat, which will most likely increase the rate of combustion [24]. The laminar flame speed of butane-air has increased by 18.9% and 29.1% in terms of the addition of aluminum nanoparticles by 2 wt% and 5 wt%, respectively [25].…”

mentioning

confidence: 99%

Experimental Study on the Effect of Nano Additives γAl2O3 and Equivalence Ratio to Bunsen Flame Characteristic of Biodiesel from Nyamplung (Calophyllum Inophyllum)

Pambudi

Ilminnafik

Junus

et al. 2021

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Nano γAl2O3 has been one of the nanometal oxides that has improved the characteristics of biodiesel. The effect of γAl2O3 nanoparticles addition on premixed flame combustion is investigated with an experiment on the laminar flame speed of Calophyllum inophyllum methyl ester 30% and 70% petrodiesel mixtures, at atmospheric pressure and preheated temperature T = 473K. The γAl2O3 nanoparticles added to CIME30 biodiesel were 0ppm, 100ppm, 200ppm, and 300ppm. Experiments were carried out on a bunsen burner. The equivalent ratio of the mixture between ϕ = 0.67 to 1.17. Experiments revealed that the addition of nanoparticles to CIME30 biodiesel expands the flammability limit and increases the laminar flame speed. CIME30 without nanoparticles, flame stable between ϕ = 0,76 -1,17. CIME30 with nanoparticles, flame stable between ϕ = 0,67 -1,17. Combustion of CIME30 required a lot of air. The highest laminar flame speed occurred at the equivalent ratio ϕ = 0.83. The highest laminar flame speed of CIME30 0, 100, 200, and 300 ppm were 30.77, 34.50, 35.90, 38.45 cm/s respectively. The higher the nano γAl2O3 concentration the higher the laminar flame speed. This occurs due to the catalytic effect of γAl2O3 on biodiesel and its mixtures.

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confidence: 99%

Experimental Study on the Effect of Nano Additives γAl2O3 and Equivalence Ratio to Bunsen Flame Characteristic of Biodiesel from Nyamplung (Calophyllum Inophyllum)

Pambudi

Ilminnafik

Junus

et al. 2021

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“…Many studies analyzed the effects of inert additives like CO2, H2O, He, and Ar on combustible mixtures' burning velocities. Xu and Jiang [79] studied the effects of adding NaCl to aluminum-methane-air flames over a range of dust concentrations, the LBV, and measured the established by using a modified nozzle burner. As a result, the burning velocity was reduced.…”

Section: Inert Additives Fuelmentioning

confidence: 99%

Flame Speed and Laminar Burning Velocity in Syngas/Air Mixtures: A Review

Mahdi¹,

Al-Dulaimi²

2022

I2M

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Flame speed and laminar burning velocity (LBV) are important properties of fuel combustion. Both have an impact on how combustion systems are designed and operated. As a result, understanding how LBV and flame speed fluctuate as a function of thermodynamic conditions is critical for understanding the impact of practical applications in all combustion systems. Working pressures and temperatures are far higher than those found in the environment. Several studies on flame speed and LBV have been conducted. This study, however, includes a thorough literature analysis of approaches and procedures used to measure these two parameters, as well as the effects of operational factors for various fuels, with a focus on biofuels, for the sake of review simplicity.

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“…Zhao et al [15] studied the inhibitory effect of (NH4) 2 HPO 4 on the explosion of wheat dust and found that as the concentration of diammonium hydrogen phosphate increased, the ionic current in the explosion reaction zone of wheat dust first increased and then decreased, which could consequently inhibit the explosion of wheat dust. Xu and Jiang [16] compared the inhibitory effects of NaCl, SiO 2 and SiC on aluminum-methane-air flames, and NaCl had the best inhibitory effect, significantly slowing down the flame propagation. Lin et al [17] found experimentally that Al(OH) 3 could inhibit polyethylene dust explosion, and when the mass fraction of Al(OH) 3 powder reached above 80 wt%, it could inhibit polyethylene flame propagation.…”

Section: Introductionmentioning

confidence: 99%

Inhibition of Four Inert Powders on the Minimum Ignition Energy of Sucrose Dust

Zhong

Jiang

et al. 2022

Processes

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In order to evaluate the effect of inert powder on the ignition sensitivity of sucrose dust, this study investigated the effects of NaHCO3, NaCl, NH4H2PO4 and Al(OH)3 on the minimum ignition energy (MIE) of sucrose dust. The results showed that all four different inert powders inhibited the MIE of sucrose dust, and all of them showed a trend that the smaller the particle size of the inert powders, the better the inhibition effect. The inhibition effect was ranked as NaHCO3 > NH4H2PO4 > NaCl > Al(OH)3. NaHCO3 and NH4H2PO4 had both physical and chemical inhibition effects, which were better compared to NaCl and Al(OH)3, which had only physical inhibition effects. Analysis of the flame images showed that the inert powder slowed down the combustion of the sucrose dust flame and reduced the flame height. No flame appeared in the region of higher inert powder concentration.

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Combustion Inhibition of Aluminum–Methane–Air Flames by Fine NaCl Particles

Cited by 15 publications

References 41 publications

Experimental Study on the Effect of Nano Additives γAl2O3 and Equivalence Ratio to Bunsen Flame Characteristic of Biodiesel from Nyamplung (Calophyllum Inophyllum)

Experimental Study on the Effect of Nano Additives γAl2O3 and Equivalence Ratio to Bunsen Flame Characteristic of Biodiesel from Nyamplung (Calophyllum Inophyllum)

Flame Speed and Laminar Burning Velocity in Syngas/Air Mixtures: A Review

Inhibition of Four Inert Powders on the Minimum Ignition Energy of Sucrose Dust

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