Flammability and Propagation Dynamics of Planar Freely Propagating Dimethyl Ether Premixed Flame

Liu, Congcong; Zhang, Yi; Xiong, Deyang; Huang, Xiaomei; Zhang, Pengyuan; Kang, Yinhu; Lu, Xiaofeng; Wang, Quanhai

doi:10.1021/acsomega.0c00792

Cited by 3 publications

(4 citation statements)

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“… 16 Furthermore, the typical negative temperature coefficient (NTC) behavior was reported for larger alkanes. 17 Recently, Yu et al first investigated the effect of equivalence ratio and N 2 addition on the explosion limit of propane. 18 After that, Liu et al investigated the effect of O 3 addition on the cool flame region of the explosion limit of propane.…”

Section: Introductionmentioning

confidence: 99%

“…At the same time, low-temperature combustion is accompanied by a cool flame, which not only affects the safety of the engine but also plays an important role in the combustion technology of the advanced engine . Furthermore, the typical negative temperature coefficient (NTC) behavior was reported for larger alkanes . Recently, Yu et al first investigated the effect of equivalence ratio and N 2 addition on the explosion limit of propane .…”

Section: Introductionmentioning

confidence: 99%

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On the Second Explosion Limits of Hydrogen, Methane, Ethane, and Propane

Tang

2020

ACS Omega

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In this work, we have first investigated the explosion limit behaviors from hydrogen to propane through numerical simulations and validated with the available experimental data. The shape of the explosion limit curves and the possible turning points ( P 1–2 , T 1–2 ), first to second limit transition, and ( P 2–3 , T 2–3 ), second to third limit transition that bound the second explosion limit as a function of the fuel carbon number, have been examined. Results show that with an increase of methane mole fraction in the hydrogen/methane system, the upper turning point ( P 1–2 , T 1–2 ) remains almost unchanged and the lower transition point ( P 2–3 , T 2–3 ) rotates counterclockwise around ( P 1–2 , T 1–2 ). With a further increase of carbon number, ( P 1–2 , T 1–2 ) moves to the lower-pressure and -temperature region and ( P 2–3 , T 2–3 ) gradually moves to the lower-pressure and higher-temperature region. The slope of the second explosion limit is inversely proportional to the carbon number, k PT = 0.0069 – 0.005/( X c – 0.7), approximately. Second, a sensitivity analysis has been conducted to study the elementary reaction on the second explosion limits. The results show that the chain branching and termination reactions governing the explosion limit of hydrogen have a little effect on the second explosion limit of methane. The C 2 H 5 O 2 H decomposition to form OH radicals is dominant in controlling the nonmonotonic behavior of the second explosion limit of C 2 H 6 . The second explosion limit behavior of propane is governed by three sets of reactions in the low-temperature oxidation process.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

On the Second Explosion Limits of Hydrogen, Methane, Ethane, and Propane

Tang

2020

ACS Omega

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“…Therefore, it is important to study the flammability of BVG under different conditions. The critical composition delineating the flammable and nonflammable mixture is called the flammability limit, which includes the lean (lower) flammability limit (LFL) and the rich (upper) flammability limit (UFL) . The flammability limit is of great significance in gas production and fire safety .…”

Section: Introductionmentioning

confidence: 99%

“…The critical composition delineating the flammable and nonflammable mixture is called the flammability limit, which includes the lean (lower) flammability limit (LFL) and the rich (upper) flammability limit (UFL). 19 The flammability limit is of great significance in gas production and fire safety. 20 On the research of BVG, Karp experimentally measured the LFL and the UFL of BVG at 100% SOC.…”

Section: Introductionmentioning

confidence: 99%