Yiqing Wang scite author profile

Yiqing Wang

5Publications

44Citation Statements Received

78Citation Statements Given

How they've been cited

How they cite others

163

Affiliations

Peking University

Publications

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Development of an optically accessible apparatus to characterize the evolution of spherically expanding flames under constant volume conditions

Halter

Chen

Dayma

et al. 2020

Combustion and Flame

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Flame speed is extremely important as it affects the performances of many industrial systems. Moreover, its significance makes it a major target for the validation of kinetic mechanisms, which explains the necessity to provide ever more accurate data. Flame speed dependence on pressure and temperature conditions is interestingly assessed using, among others, spherically expanding flame in constant volume chambers. In these conditions, the flame speed derivation, based solely on the pressure evolution in the chamber, requires empirical models. The current study describes a perfectly spherical chamber with full optical access allowing simultaneous recording of the pressure inside the chamber and, fully innovative, of the flame radius evolution until the flame vanishes at wall. A careful description of the new set-up and of the accuracy of the measurements, in particular of the flame radius, are presented here. In parallel with experiments, one-dimensional transient simulations were carried out to identify the limits of the proposed new method. Then, the simultaneous use of pressure and flame radius information is compared to the traditional constant volume method based on empirical models. A first advantage relies in the direct detection of the development of instabilities during the flame propagation. In addition, although the flame speed is extremely sensitive to the flame radius determination, the actual experimental accuracy allows significant improvements in terms of accuracy, notably as initial pressure and temperature are elevated. This new set-up will allow major advances in the measurement of laminar flame velocity under extreme thermodynamic conditions.

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Effects of Particle Size on the Ignition of Static CH₄/Air and H₂/Air Mixtures by Hot Particles

Wang

Chen

2020

Combustion Science and Technology

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In-situ flame particle tracking based on barycentric coordinates for studying local flame dynamics in pulsating Bunsen flames

Zirwes

Zhang

Wang

et al. 2021

Proceedings of the Combustion Institute

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Ignition of dimethyl ether/air mixtures by hot particles: Impact of low temperature chemical reactions

Wang

Zhang

Zirwes

et al. 2021

Proceedings of the Combustion Institute

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Skeletal and reduced kinetic models for methane oxidation under engine-relevant conditions

Wang

et al. 2021

Fuel

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Yiqing Wang

Development of an optically accessible apparatus to characterize the evolution of spherically expanding flames under constant volume conditions

Effects of Particle Size on the Ignition of Static CH₄/Air and H₂/Air Mixtures by Hot Particles

In-situ flame particle tracking based on barycentric coordinates for studying local flame dynamics in pulsating Bunsen flames

Ignition of dimethyl ether/air mixtures by hot particles: Impact of low temperature chemical reactions

Skeletal and reduced kinetic models for methane oxidation under engine-relevant conditions

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Yiqing Wang

Development of an optically accessible apparatus to characterize the evolution of spherically expanding flames under constant volume conditions

Effects of Particle Size on the Ignition of Static CH4/Air and H2/Air Mixtures by Hot Particles

In-situ flame particle tracking based on barycentric coordinates for studying local flame dynamics in pulsating Bunsen flames

Ignition of dimethyl ether/air mixtures by hot particles: Impact of low temperature chemical reactions

Skeletal and reduced kinetic models for methane oxidation under engine-relevant conditions

Contact Info

Product

Resources

About

Effects of Particle Size on the Ignition of Static CH₄/Air and H₂/Air Mixtures by Hot Particles