Your search keyword '"DENG, Jiewen"' showing total 4 results

1. Rapid degradation of sulfamethoxazole by permanganate combined with bisulfite: efficiency, influence factors and mechanism.

Author

Liu, Shenglan, Liu, Yiqing, Deng, Jiewen, and Fu, Yongsheng

Subjects

SULFAMETHOXAZOLE, HYDROXYL group, WATER pollution, SCISSION (Chemistry)

Abstract

In this study, permanganate combined with bisulfite (PM/BS), a novel advanced oxidation process, was used for rapidly removing sulfamethoxazole (SMX) from contaminated water. The results showed that 80% SMX was removed within 10 s in the PM/BS system, while no obvious SMX degradation was observed in the PM or BS alone system within 300 s. Reactive manganese species (RMnS, Mn(III), Mn(V) and Mn(VI)), sulfate radical (SO4•−) and hydroxyl radical (HO•) formed in the PM/BS system all played a role in accelerated degradation of SMX. Due to the loss of RMnS, SMX degradation was significantly inhibited with the increase in pH. The best [BS]:[PM] ratio for SMX removal was 7.5:1-10:1. The presence of Cl−, HCO3− or natural organic matter (NOM) significantly inhibited the degradation of SMX, while SO42− and NO3− had little impact on SMX removal. Based on the detected transformation products, two degradation pathways of SMX by PM/BS, namely N-S bond cleavage and amino oxidation, were proposed. [ABSTRACT FROM AUTHOR]

Published

2024

2. Heat-activated peracetic acid for degradation of diclofenac: kinetics, influencing factors and mechanism.

Author

Deng, Jiewen, Liu, Shenglan, Fu, Yongsheng, and Liu, Yiqing

Subjects

PERACETIC acid, ELECTRON paramagnetic resonance, DICLOFENAC, RADICALS (Chemistry), FORMYLATION, HUMIC acid

Abstract

Heat-activated peracetic acid (PAA) was used to degrade diclofenac (DCF) in this study. Electron paramagnetic resonance and radical scavenging experiments proved that organic radicals (i.e. CH3C(=O)O• and CH3C(=O)OO•) were the primary active species for DCF removal in the heat/PAA process. The degradation efficiency of DCF increased with the increase of temperature or initial PAA concentration in the heat/PAA process, and the optimal reaction pH for DCF removal was neutral. The presence of NO3− or SO42− insignificantly affected DCF degradation, while Cl− was favourable for DCF removal in this process. In contrast, an obvious inhibition on the removal of DCF was observed with the addition of natural organic matter, which might be responsible for the lower DCF removal in real waters. Finally, dechlorination, formylation, dehydrogenation and hydroxylation were proposed to be four degradation pathways of DCF in the heat/PAA system based on the five detected transformation products. [ABSTRACT FROM AUTHOR]

Published

2023

3. Microwave drying of fabrics.

Author

Fu, Wenjie, Deng, Jiewen, and Li, Xiaoyun

Subjects

*MICROWAVE drying, *SPRAY drying, *TENSILE strength, *TEXTILES

Abstract

In this study, the microwave drying of fabrics at 2.45 GHz was investigated experimentally. The effect and efficiency of microwave drying on different fabrics at powers of 700 W and 300 W are discussed. The loss tangent of the fabrics was measured to analyze the relationship between drying efficiency and the fabric characteristics. By investigating the breaking tensile strength variation and the changes in the microstructure of the fabrics, we found that microwave drying of fabric samples was similar to natural air-drying and that excessive microwave drying destroyed the fabrics. Based on these results, an optimized process for microwave drying is proposed. [ABSTRACT FROM AUTHOR]

Published

2019

4. IL4 (interleukin 4) induces autophagy in B cells leading to exacerbated asthma.

Author

Xia, Fucan, Deng, Changwen, Jiang, Yanyan, Qu, Yulan, Deng, Jiewen, Cai, Zhijian, Ding, Yuanyuan, Guo, Zhenhong, and Wang, Jianli

Abstract

Allergic asthma is a common airway inflammatory disease in which B cells play important roles through IgE production and antigen presentation. SNP (single nucleotide polymorphism) analysis showed that Atg (autophagy-related) allele mutations are involved in asthma. It has been demonstrated that macroautophagy/autophagy is essential for B cell survival, plasma cell differentiation and immunological memory maintenance. However, whether B cell autophagy participates in asthma pathogenesis remains to be investigated. In this report, we found that autophagy was enhanced in pulmonary B cells from asthma-prone mice. Autophagy deficiency in B cells led to attenuated immunopathological symptoms in asthma-prone mice. Further investigation showed that IL4 (interleukin 4), a key effector Th2 cytokine in allergic asthma, was critical for autophagy induction in B cells both in vivo and in vitro, which further sustained B cell survival and enhanced antigen presentation by B cells. Moreover, IL4-induced autophagy depended on JAK signaling via an MTOR-independent, PtdIns3K-dependent pathway. Together, our data indicate that B cell autophagy aggravates experimental asthma through multiple mechanisms. [ABSTRACT FROM AUTHOR]

Published

2018