Your search keyword '"Zhou, Yuqiang"' showing total 2 results

1. Efficient Treatment of Oily Sludge via Fast Microwave-Assisted Pyrolysis, Followed by Thermal Plasma Vitrification.

Author

Xie, Qinglong, Chen, Zhen, Zhou, Yuqiang, Pan, Tongbo, Duan, Ying, Yu, Shangzhi, Liang, Xiaojiang, Wu, Zhenyu, Ji, Weirong, and Nie, Yong

Subjects

THERMAL plasmas, VITRIFICATION, PYROLYSIS kinetics, PYROLYSIS, ACTIVATION energy

Abstract

Oily sludge, as a critical hazardous waste, requires appropriate treatment for resource recovery and harmfulness reduction. Here, fast microwave-assisted pyrolysis (MAP) of oily sludge was conducted for oil removal and fuel production. The results indicated the priority of the fast MAP compared with the MAP under premixing mode, with the oil content in solid residues after pyrolysis reaching below 0.2%. The effects of pyrolysis temperature and time on product distribution and compositions were examined. In addition, pyrolysis kinetics can be well described using the Kissinger-Akahira-Sunose (KAS) and the Flynn-Wall-Ozawa (FWO) methods, with the activation energy being 169.7–319.1 kJ/mol in the feedstock conversional fraction range of 0.2–0.7. Subsequently, the pyrolysis residues were further treated by thermal plasma vitrification to immobilize the existing heavy metals. The amorphous phase and the glassy matrix were formed in the molten slags, resulting in bonding and, hence, immobilization of heavy metals. Operating parameters, including working current and melting time, were optimized to reduce the leaching concentrations of heavy metals, as well as to decrease their volatilization during vitrification. [ABSTRACT FROM AUTHOR]

Published

2023

2. Characterization and Transcriptome Analysis of Maize Small-Kernel Mutant smk7a in Different Development Stages.

Author

Wang, Jing, Wang, Hongwu, Li, Kun, Liu, Xiaogang, Cao, Xiaoxiong, Zhou, Yuqiang, Huang, Changling, Peng, Yunling, and Hu, Xiaojiao

Subjects

ENDOSPERM, TRANSCRIPTOMES, RECESSIVE genes, GENE mapping, STARCH, AUXIN

Abstract

The kernel serves as a storage organ for various nutrients and determines the yield and quality of maize. Understanding the mechanisms regulating kernel development is important for maize production. In this study, a small-kernel mutant smk7a of maize was characterized. Cytological observation suggested that the development of the endosperm and embryo was arrested in smk7a in the early development stage. Biochemical tests revealed that the starch, zein protein, and indole-3-acetic acid (IAA) contents were significantly lower in smk7a compared with wild-type (WT). Consistent with the defective development phenotype, transcriptome analysis of the kernels 12 and 20 days after pollination (DAP) revealed that the starch, zein, and auxin biosynthesis-related genes were dramatically downregulated in smk7a. Genetic mapping indicated that the mutant was controlled by a recessive gene located on chromosome 2. Our results suggest that disrupted nutrition accumulation and auxin synthesis cause the defective endosperm and embryo development of smk7a. [ABSTRACT FROM AUTHOR]

Published

2023