Chengliang Dong scite author profile

Chengliang Dong

2Publications

8Citation Statements Received

54Citation Statements Given

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China University of Mining and Technology

Publications

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Study on Denoising Method of Photoionization Detector Based on Wavelet Packet Transform

et al. 2023

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Aiming at the task of noise suppression caused by the photoionization detector (PID) monitoring signal of volatile organic compounds (VOCs) due to local non-uniformity of the photocathode surface of PID in the ionization chamber, this paper proposes an analytical method of a PID signal with the adaptive weight of the small wave package decomposition node. The PID signal is transmitted to the upper machine software through the single-chip microcontroller. The appropriate wavelet packet decomposition level is determined according to the time frequency characteristics of the original signal of the PID, and the optimal wavelet packet base is selected through the polynomial fitting of the signal quality evaluation index. By comparing the quality of signals processed by the traditional wavelet packet denoising method and the denoising method presented in this paper, the superiority of the proposed method in the denoising signals of PID was verified. This method can eliminate the noise generated by local non-uniformity on the photocathode surface of the PID ionization chamber in a high humidity environment, which lays a foundation for the accurate monitoring of VOCs in a high humidity environment.

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Mechanochemical treatment for degradation of ciprofloxacin (CIP) in solutions

Feng

Dong

Wang

et al. 2022

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Ciprofloxacin (CIP) is a kind of widely used fluoroquinolone antibiotic, and the widespread presence of CIP in aquatic environment has become a serious issue. Mechanochemical treatment (MCT), as an effective approach to degrade persistent organic pollutants, has many advantages of low-cost, simplicity, and environmentally innocuous. However, few attentions have been paid on employing MCT to treat effluents containing CIP. In this study, MCT was introduced to degrade CIP in aquatic solutions. A series of CIP degradation experiments were conducted by a planetary ball mill, and the influences of main parameters on CIP degradation efficiency were investigated. Furthermore, an optimum combination was selected through orthogonal experiments, and CIP degradation efficiency could reach as high as 99% in certain conditions. Besides, the biotoxicity of CIP solution was also studied. MCT exhibits satisfying performances for degrading CIP in solutions, which make MCT as a promising approach to CIP elimination and also encourages further applications in treating effluents containing other organic pollutants.

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Chengliang Dong

Study on Denoising Method of Photoionization Detector Based on Wavelet Packet Transform

Mechanochemical treatment for degradation of ciprofloxacin (CIP) in solutions

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