Measurement of radial temperature distributions of the blown CO<sub>2</sub> arcs under different conditions

Li, Yang; Fan, Shaodi; Wu, Yi; Sun, H.; Chang, Haodong; Liang, Luqi; Guan, Weiping

doi:10.1088/2058-6272/ab40da

Cited by 3 publications

(1 citation statement)

References 21 publications

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“…The gas flow rate was fixed at 300 l min −1 and the anode shape was the same as the condition in section 2. The detailed arrangement of this kind of model circuit breaker can be found in [43].…”

Section: Anode Erosion In Cathodic Blowing Arcmentioning

confidence: 99%

Evolution of anodic erosion components and heat transfer efficiency for W and W₈₀Ag₂₀ in atmospheric-pressure arcs

Cui¹,

Wu²,

Niu³

et al. 2020

J. Phys. D: Appl. Phys.

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Based on the in situ diagnostic system and the digital image post-processing technique, quantifications of the anodic erosion components and heat transfer efficiency for tungsten and the W 80 Ag 20 material in arcs of argon, helium, and nitrogen were achieved. The leading vaporization of silver has been found to result in evidently lower anodic heat transfer efficiency and much smaller molten pools compared with those of the tungsten anode, but the intensive generation of silver vapor under the melt layer causes higher splashing erosion of the W 80 Ag 20 anode. However, these characteristics can be strongly changed by the cathodic blowing, which leads to a much higher splashing erosion of tungsten anode but a lower erosion rate of W 80 Ag 20 anode. Through the visualization of the erosion behavior and the post microanalysis of the anode surface, the possible driving mechanisms for the generation of the splashing droplet were discussed. The result indicates that the local high pressure caused by the vapor blasting during the bubble explosion plays a key role in the detachment of splashing droplets. Furthermore, as for the tungsten-based anode, the comparison of erosion behavior between the W 80 Ag 20 anode and the previous-studied W 70 Cu 30 anode makes it clear that increasing the temperature difference between the melting point (MP) of tungsten and the boiling point (BP) of the other material has the pros and cons. It is effective for the decrease of the anode erosion when the anode heat energy is relatively weak, while it can promote the splashing erosion when the liquid tungsten layer has been formed on the anode tip. These results are beneficial for the optimal design of the electrode system in circuit breakers.

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Section: Anode Erosion In Cathodic Blowing Arcmentioning

confidence: 99%

Evolution of anodic erosion components and heat transfer efficiency for W and W₈₀Ag₂₀ in atmospheric-pressure arcs

Cui¹,

Wu²,

Niu³

et al. 2020

J. Phys. D: Appl. Phys.

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Spectral and electric diagnostics of low-current arc plasmas in CO₂ with N₂ and H₂O admixtures

Becerra,

Nilsson,

Franke

et al. 2023

J. Phys. D: Appl. Phys.

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Plasma diagnostics is a key tool to support the further development of plasma-induced chemical conversion of greenhouse gases (such as CO2) into high-value chemicals. For this reason, spectroscopic and electric measurements of low current (below 1.7 A), stationary arc plasmas in CO2 at atmospheric pressure with addition of N2 or H2O are reported. High-speed photography, imaging emission spectroscopy and time-resolved electrical measurements are used to obtain time-space resolved gas temperatures as well as the electric-field current characteristics of the discharge. It is found that the lowest average electric field in a CO2 arc plasma at atmospheric pressure is ~20 kV/mm at a current between 0.8−1 A. If the current decreases below this level, the arc remains in vibrational-translational (VT) equilibrium by increasing the electric field. However, VT equilibrium conditions can be only maintained until a threshold minimum current of 0.33±0.05 A, at which the arc transitions into a non-equilibrium condition with further increasing electric fields (reaching 68±15 V/mm at 0.03 A). The addition of N2 or H2O did not influence the electrical characteristics of the CO2 arc within to the tested mixtures. However, there is only a significant decrease in the electric field of the formed transition arcs and the threshold minimum current in the presence of N2. The spectra of the low-current CO2 arc is found to be dominated by emission from the C2 Swan band system and the O I 777 nm triplet peak. However, the CN band dominates the spectra even when small amounts (0.5 wt%) of N2 is present in the plasma. The gas temperature at the axis of the CO2 arc plasma decreased slightly with decreasing current, from an estimated 7000 K at 1 A down to 6300 K at 0.4 A. The thermal radius of the arc is estimated to be larger than 1.2 mm, more than two times larger than the optical radius obtained from the emitted radiation. The addition of N2 and H2O (up to 7 and 9 wt% respectively) lead to only to a 500 K decrease in the axial arc temperature.

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Diagnostics of Post-Arc Electron Number Density in a Model Circuit Breaker

Wang,

Zhao,

Deng

et al. 2024

2024 7th International Conference on Electric Power Equipment - Switching Technology (ICEPE-ST)

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Measurement of radial temperature distributions of the blown CO₂ arcs under different conditions

Cited by 3 publications

References 21 publications

Evolution of anodic erosion components and heat transfer efficiency for W and W₈₀Ag₂₀ in atmospheric-pressure arcs

Evolution of anodic erosion components and heat transfer efficiency for W and W₈₀Ag₂₀ in atmospheric-pressure arcs

Spectral and electric diagnostics of low-current arc plasmas in CO₂ with N₂ and H₂O admixtures

Diagnostics of Post-Arc Electron Number Density in a Model Circuit Breaker

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Measurement of radial temperature distributions of the blown CO2 arcs under different conditions

Cited by 3 publications

References 21 publications

Evolution of anodic erosion components and heat transfer efficiency for W and W80Ag20 in atmospheric-pressure arcs

Evolution of anodic erosion components and heat transfer efficiency for W and W80Ag20 in atmospheric-pressure arcs

Spectral and electric diagnostics of low-current arc plasmas in CO2 with N2 and H2O admixtures

Diagnostics of Post-Arc Electron Number Density in a Model Circuit Breaker

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Measurement of radial temperature distributions of the blown CO₂ arcs under different conditions

Evolution of anodic erosion components and heat transfer efficiency for W and W₈₀Ag₂₀ in atmospheric-pressure arcs

Evolution of anodic erosion components and heat transfer efficiency for W and W₈₀Ag₂₀ in atmospheric-pressure arcs

Spectral and electric diagnostics of low-current arc plasmas in CO₂ with N₂ and H₂O admixtures