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30 results on '"Hong, Peidong"'

27. High-efficiency adsorption of norfloxacin using octahedral UIO-66-NH2 nanomaterials: Dynamics, thermodynamics, and mechanisms

Author

Fang, Xun, primary, Wu, Shibiao, additional, Wu, Yaohua, additional, Yang, Wu, additional, Li, Yulian, additional, He, Junyong, additional, Hong, Peidong, additional, Nie, Mingxing, additional, Xie, Chao, additional, Wu, Zijian, additional, Zhang, Kaisheng, additional, Kong, Lingtao, additional, and Liu, Jinhuai, additional

Published
2020
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28. Effect of snowmelt infiltration on groundwater recharge in a seasonal soil frost area: a case study in Northeast China

Author

Hang Lv, Chang Liu, Du Xinqiang, Hong Peidong, Cheng Tingting, and Min Fang

Subjects
Hydrology, China, 010504 meteorology & atmospheric sciences, Water table, δ18O, General Medicine, Groundwater recharge, 010501 environmental sciences, Management, Monitoring, Policy and Law, Snow, 01 natural sciences, Pollution, Infiltration (hydrology), Soil, Snowmelt, Water Resources, Environmental science, Precipitation, Seasons, Groundwater, 0105 earth and related environmental sciences, General Environmental Science, Environmental Monitoring
Abstract

The effect of spring snowmelt infiltration in a seasonal soil frost area on groundwater recharge was evaluated by systematically monitoring meteorological factors, soil temperature and humidity, groundwater table and temperature, electrical conductivity, and the value of δ18O in a small field site over a 2-year period. The variation of soil temperature and humidity, groundwater table during the freezing period, and the snowmelt period respectively, as well as their correspondence to the relevant environmental factors, and the influencing factors of the permeability of frozen layer were analyzed. The results showed that the evaluation of precipitation infiltration in seasonal soil frost areas should be divided into three stages: a non-freezing period, a freezing period, and a snowmelt period. Snow is the main form of precipitation during the freezing period, and groundwater cannot be recharged. During the snowmelt period of spring, the snow cover that accumulated during the freezing period infiltrates together with rainfall and has a significant effect on groundwater recharge. The general precipitation infiltration process occurs after the frozen soil thaws completely. These research results can improve the accuracy of groundwater recharge calculations for snowmelt infiltration in the seasonal soil frost area of Northeast China and provide a scientific basis for the evaluation and management of regional water resources.

Published
2018

30. Mechanism of adsorption of tetracycline–Cu multi‐pollutants by graphene oxide (GO) and reduced graphene oxide (rGO).

Author

Zhao, Chuanqi, Hong, Peidong, Li, Yajuan, Song, Xiaoming, Wang, Yinggang, and Yang, Yuesuo

Subjects
HEAVY metals, GRAPHENE oxide
Abstract

BACKGROUND The adsorption of single pollutants onto graphene oxide (GO), such as heavy metals or organics, has been widely investigated, however, the simultaneous removal of the antibiotic–heavy metal multi‐pollutants from the intensive livestock and poultry industry has been investigated little. In this study, the GO/reduced GO(rGO) were prepared as adsorbent and the adsorption performance of tetracycline (TC), Cu2+, and the multi‐pollutants TC–Cu were investigated. RESULTS: The GO surface was abundant in oxygen‐containing functional groups but was affected by a reduction effect, and thus rGO lost a large amount of –OH. In the presence of Cu2+, GO's adsorption quantity of TC increased by 96.64%, which was considerably higher than the increase (23.31%) observed in the case of rGO. In contrast, the adsorptivity of GO/rGO in Cu2+ increased slightly with the addition of TC. Further, X‐ray photoelectron spectroscopy (XPS) analysis revealed that the Cu2+ participated in a bridging interaction between TC and the adsorbent, forming a complexation TC–Cu. CONCLUSION: GO and rGO showed favorable adsorption of TC, Cu2+, and TC–Cu. The adsorption capacity of multi‐pollutants was increased compared with individual adsorption, indicating a cooperative adsorption between the TC and Cu2+. The adsorption mechanism mainly included π–π conjugation, electrostatic interactions, and the bridge connection by Cu2+, which contributed to the performance of GO/rGO with respect to the adsorption of the antibiotic–heavy metal multi‐pollutants. © 2018 Society of Chemical Industry [ABSTRACT FROM AUTHOR]

Published
2019
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