Dr. Xueqiang Zhu (Associate Professor)

Email: zhuxq0615@163.com

Research Interests: Soil-groundwater pollution and remediation; Water resource planning and management; Protection of water resource in mining area

 

Education

2007.09-2014.12, PhD of Environmental Science, China University of Mining and Technology

2002.092005.07, Master of Environmental Science, China University of Mining and Technology

1998.09-2002.07, Bachelor of Environmental Science, China University of Mining and Technology

Work Experience

2021.01~, Associate Professor at School of Environment Science and Spatial Informatics, CUMT

2019.11~2020.11, Research Scholar, University of Florida, USA

2008.01~2020.12, Lecturer at School of Environment Science and Spatial Informatics, CUMT

2005.07~2007.12, Assistant Lecturer at School of Environment Science and Spatial Informatics, CUMT

Publications

2021

Zhu Xueqiang, Zhou Lai , Yuncong Li, Han Baoping, Feng Qiyan. Rapid Degradation of Carbon Tetrachloride by Microscale Ag/Fe Bimetallic Particles[J]. International Journal of Environmental Research and Public Health, 2021, 18(4):2124.

2020

Zhu Xueqiang, Han Baoping, Feng Qiyan. Common Anions Affected Removal of Carbon Tetrachloride in Groundwater Using Granular Sponge Zerovalent Iron. Water Air and Soil Pollution, 2020(231):138

2019

Zhu Xueqiang, Han Bao-ping, Feng Qi-yan. Enhanced degradation of carbon tetrachloride with iron-based bimetallic particles in groundwater [J]. China Environmental Science, 2019, 39(8): 3358-3364 (EI)(In Chinese)

Lu Ping, Zhou Lai, Cheng Sen-en, Zhu Xueqiang, Yuan Tao, Chen Di, Feng Qiyan. Main challenges of closed/abandoned coal mine resource utilization in China. Energy Sources Part A Recovery Utilization and Environmental Effects, 2019, 42(5):1-9

Zhang Shuang-sheng, Qiang Jing, Liu Han-hu, Liu Xi-kun, Zhu Xueqiang. Identification of groundwater pollution sources based on Bayes’ theorem[J]. China Environmental Science, 2019, 39(4): 1568~1578(In Chinese)

2018

Zhu Xueqiang, Han Baoping. Influence factors on long-term performance of zero-valent Iron permeable reactive barriers[J]. Environmental Engineering, 2018, 36(2):163-167(In Chinese)

Zhang Shuangsheng, LiuXikun, Liu Hanhu, Zhu Xueqiang. Treatment of carbon tetrachloride in karst groundwater by Spray-aeration combination process[J]. Environmental Engineering, 2018, 36(10):5-8(In Chinese)

Zhang Shuangsheng, Qiang Jing, LiuXikun, Liu Hanhu, Zhu Xueqiang. Inverse problems of pollution source identification based on Bayesian-DE[J]．Journal of Shandong University (Engineering Science), 2018, 48(1): 131-136(In Chinese)

2017

Wu Hongwei, Feng Qiyan, Yang Hong, Zhu Xueqiang, Gao Bo，Chen Di. Nanoscale zero valent iron stabilized on modified biochar to remove cefotaxime from aqueous solutions[J]. Acta Scientiae Circumstantiae, 37(7): 2691-2698(In Chinese)

2016

Zi-Bo Wang, Shi-Chang Xiong, Yu-JiangGuan, Xueqiang Zhu. Synthesization of SnO₂-modified carbon nanotubes and their application in microbial fuel cell[J]. Applied Physics A, 2016, 122(3):1-6.

Zi-Bo Wang, Min Ge, Shi-Chang Xiong, Xueqiang Zhu. Preparation of graphene/polyaniline-modified carbon nanotubes and their electrochemical properties in microbial fuel cell[J]. Ionics, 2016:1-6.

Han Baoping, Zhu Xueqiang, Yuan Tao, Pei Zongping, Liang Zhi. Transport of carbon tetrachloride in complex karst aquifer[M]. CUMT Press, 2016 (In Chinese)

Xu Xiao, Zhou Lai, Feng Qiyan, Zhu Xueqiang, Gao Bo. Research Progress of Gas-water-rock Interaction for Gas Occurrence and Migration in Abandoned Coal Mine[J]. Safety in Coal Mines, 2016, 47(6): 1-4 (In Chinese)

2015

Xiong Shicang, Guan Yujiang, Jia Xianle, Zhu Xueqiang, Wang Zibo. Application of Ag-CNTs electrode in microbial fuel cell[J]. Journal of Yangzhou University (Natural Science Edition)，2015(1)：74-78. (In Chinese)

2014

Li Ting, Feng Qiyan, Zhou Lai, Zhu Xueqiang. Design and development of groundwater contamination risk assessment system for abandoned coal mines[J]. Energy Environmental Protection, 2014, 28(2):13-16. (In Chinese)

2013

Xueqiang Zhu, Baoping Han. Adsorption behavior of chromium (VI) on the HDTMA-modified-zeolite[J]. Journal of Food, Agriculture & Environment, 2013, 11(3&4): 2488-2492

Zhu Xueqiang, Han Baoping, Xu Aiqin. Green and sustainable remediation of contaminated sites: concepts, framework and assessment methods. Proceedings of Academic Annual Conference of Chinese Society of Environmental Sciences, 2013：4978-4986 (In Chinese)

2012

Zhu Xueqiang, Han Baoping. An experimental study on remediation on TCE contaminated groundwater by zero-valent iron[J]. Chinese Journal of Environmental Engineering, 2012,6（1）：94-98 (In Chinese)

He Chundong, Zhu Xueqiang, Liu Hanhu. Experiment on the Removal of Carbon Tetrachloride by Activated Alumina in Water[J]. Environmental Science and Technology, 2012（4）:14-18 (In Chinese)

2011

Zhu Xueqiang, Han Baoping, Wu Guojun, Zhang Xiaoqing. Column study on the effect of nitrate and chloride on TCE removal by granular iron. 2011 International Conference on Energy, Environment and Sustainable Development, Shanghai, 2011:1642-1646

2010

Zhang Xiaoqing, Zhu Xueqiang, Bu Danyang, Xu Yingjun, Chen Qiang. Effect of Sulfate and Chloride Ion in Groundwater on TCE Degradation by ZVI-PRB[J]. Environmental Science & Technology, 2011, 34(11): 46-49. (In Chinese)

Xiang Wei, Han Baoping, Zhu Xueqiang. Physicochemical and emission properties of desulfurized fly ash from coal fired power plant[J]. Environmental Science and Technology, 2011, 24(6): 22-25. (In Chinese)

Baoping Han, Xueqiang Zhu, Zongping Pei, Xikun Liu.Transport of carbon tetrachloride in a karst aquifer in a northern city, China. In: M. Stoytcheva. Pesticides in the Modern world - Risks and benefits[M]. InTech, 2011: 435-452

2009

Li Chao, Han Baoping, Zhu Xueqiang, Xiang Wei. Dynamic evolution and analysis of carbon tetrachloride pollution in karst groundwater in a city[J]. Water Resources Protection, 2009(3): 11-13. (In Chinese)

2008

Zhu Xueqiang, Han Baoping, Sun Yan. Spatial and temporal characteristics of carbon tetrachloride pollution in a karst aquifer. The 2^nd International Conference on Bioinformaics and Biomedical Engineering, Shanghai, 2008:3076-3079

2007

Xiang Wei, Han Baoping Zhu Xueqiang. Health-based risk assessment of carbon tetrachloride to human in karst aquifer[J]. Journal of Agro-Environment Science, 2007,26(5):1702- 1706 (In Chinese)

2006

Zhu Xueqiang, Han Baoping, Zhou Donglai. Pollution Char acter istics of Carbon Tetr achlor ide in Soils Near A Pesticide Plant[J]. Journal of Agro-Environment Science, 2006, 25(2): 393-397. (In Chinese)

Han Baoping, Zhu Xueqiang，Sun Xiaofei， Wang Xiaoying. Carbon tetrachloride pollution pathway of a karst groundwater supply source[J]. Journa l of China University of Mining& Technology, 2006, 35(1):61-65. (In Chinese)

2005

Zhu Xueqiang, Han Baoping, Yin Erqin. Research Progress on Groundwater Contamination by DNAPLs[J]. Sichuan Environment, 2005, 24(2):65-70. (In Chinese)

Zhu Xueqiang, Han Baoping, Bai Xiangyu. The difficult problem of the sustainable development of coal mining cities in China needs prompt settlement[J]. Environmental Economy, 2005(12)：34-37. (In Chinese)

2004

Zhu Xueqiang, Han Baoping, Liu Xikun. Pollution characteristics of carbon tetrachloride in X water supply wells in a city[J]. Journal of Agro-Environment Science, 2004, 23(6): 1188-1191. (In Chinese)

Han Baoping, Wang Xiaoying, Zhu Xueqiang, He Kanglin. Groundwater contamination by carbon tetrachloride in Karstic area in China. Acta Scientiae Circumstantiae，2004，24(6)：982-988. (In Chinese)

Projects

[1]     Multiple remediation technologies for organic compound contaminated sites(2020YFC1806502), 2020.10-2023.12, 1200000RMB, The National Key Research and Development Program of China

[2]     Study on remediation technology of heavy metal-VOC/SVOC co-contaminated site 〔2017〕487-10, 2018.03-2019.12, 200000RMB, Scientific Research Project of China National Administration of Coal Geology

[3]     The 13^th Five-Year Plan for water-saving society construction of Fengxian, 180,000 RMB, 2016

[4]     The Plan for water-saving society construction of Xinyi, 80,000 RMB, 2015

[5]     Assessment of treatment on carbon tetrachloride pollution in Qiligou karst aquifer, 150,000 RMB, 2015

[6]     Transport of typical pollutants of landfill leachates in soil, 40,000 RMB, 2014

[7]     Study on Halogenated Hydrocarbons and Hardness Control Technology of Groundwater Sources and engineering demonstration (2015ZX07406005), 2015/01~2018/12, National Major Science and Technology Special Project of China

[8]     Study on environmental safety monitoring, evaluation and early warning technology of centralized drinking water sources (2018002), 2018.12-2020.12, Jiangsu Provincial Environmental Protection Office Project, 350000 RMB, Major participants

[9]     Study on gas-water-coal and rock interactions and dynamics of two phase flow in the abandoned coal mine (41572218), 2016.01-2019.12, the National Natural Science Foundation of China, Major participants

[10]  Degradation and migration mechanism of the polycyclic aromatic hydrocarbons (PAHs) in the groundwater of abandoned coal mine (41472223), 2015.01-2018.12, the National Natural Science Foundation of China, Major participants

[11]  Bioremediation mechanism and regulation of carbon tetrachloride pollution in karst aquifer(21146005), 2012.01-2012.12, the National Natural Science Foundation of China, Major participants

[12]  Transport of carbon tetrachloride in karst aquifer (40373044), 2004-2006, the National Natural Science Foundation of China, Major participants

Awards

[1]     2020, China coal industry science and Technology Award (II, R3)

[2]     2012, Science and Technology Progress Award in Jiangsu Province（III, R4）

[3]     2010, Science and Technology Progress Award in Xuzhou（I, R4）

Professional Memberships

[1]     Member of International Mine Water Association（IMWA）