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| Institute | Department of Environmental Science and Engineering |  | | Research Area | • Wastewater treatment and reclamation
• Monitoring of water quality
• Anaerobic digestion of solid wastes
• Water environmental restoration
• Design and debugging of wastewater treatment processes
• Membrane separation technology and its application | | Contact Info. | zhouhaidong@usst.edu.cn |
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| | Project Experiences | | 1. Wastewater treatment project of new high-tech industry base of Science Academy of China in Guangzhou. (Technical director, 2006) | | 2. Monitoring and evaluation of reclaimed water and control technologies to reduce environmental risks. A major international cooperation project granted by NSFC and JST. (Main participant, 2007-2009) | | 3. Investigation and assessment of the ecological security of the national key lakes and reservoirs. (Main participant, 2008-2009) | | 4. Water environmental restoration project of an agro-ecological park. (Project leader, 2010) | | 5. Leachate treatment station project of garbage power plant in Dongguan City. (Project leader, 2010-2012) | | 6. Wastewater Treatment and Resource project of the highway service area. (Project leader, 2012) | | 7. Regulation mechanisms of enhanced anaerobic digestion to remove PhACs. (Project Source: Innovation Program of Shanghai Municipal Education Commission, China. Project leader, 2011-2012) | | 8. Environmental characteristics of typical wastewater-marking pharmaceuticals and their risk-associated mechanisms in urban rivers. (Project Source: National Natural Science Foundation of China. Project leader, 2013-2016) | | 9. Mechanisms of harmful cyanobacterial bloom interacting with nutrient salts and its regulation and control. (Project Source: Major Basci Research Project of Shanghai Municipal Science and Technology Commission. Project leader, 2013-2016) | | 10. Mechanisms of removal of typical antibiotics in sewage sludge using in-situ advanced anaerobic digestion. (Project Source: Natural Science Foundation of Shanghai, China. Project leader, 2018-2020) |
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| | Main Publications | | 1. H. Zhou, X. Liu, X. Chen, Characteristics of removal of waste-water marking pharmaceuticals with typical hydrophytes in the urban rivers. Science of the Total Environment, 2018. 636: 1291-1302. | | 2. H. Zhou, J. Liu, X. Chen, Fate of pharmaceutically active compounds in sewage sludge during anaerobic digestions integrated with enzymes and physicochemical treatments. Waste Management, 2018. 78: 911-916. | | 3. H. Zhou, Z. Zhang, M. Wang, T. Hu, Z. Wang, Enhancement with physicochemical and biological treatments in the removal of pharmaceutically active compounds during sewage sludge anaerobic digestion processes, Chemical Engineering Journal, 2017, 316 : 361-369. | | 4. H. Zhou, Y. Wangjin, J. Liu, T. Ying, Y. Xuan, Temporal and spatial features of selected wastewater-marking pharmaceuticals and potential mechanisms of their removal from urban rivers, Environmental Science and Pollution Research, 2017, 24: 15712-15726. | | 5. Y. Zhan, R. Wei, H. Zhou*, Improvement on the treatment of thick oil sewage by using integrated biochemical treatment technology, International Journal of Environmental Science and Technology, 2017, DOI: 10.1007/s13762-017-1366-3. | | 6. H. Zhou, T. Ying, X. Wang, J. Liu, Occurrence and preliminarily environmental risk assessment of selected pharmaceuticals in the urban rivers, China, Scientific Reports, 2016, 6: 34928. | | 7. H. Zhou, J. Zhou, M. Wang, X. Wang, Q. Zhang, Q. Zhang, Removal of typical pharmaceutically active compounds in sewage sludge using mesophilic and thermophilic anaerobic digestion processes, International Journal of Environmental Science and Technology, 2015, 12: 2169-2178. | | 8. H. Zhou, J. Liu, Q. Zhang, T. Ying, T. Hu, Removal and reduction of selected organic micro-pollutants in effluent sewage by the ozone-based oxidation processes, Chemical Engineering Journal, 2015, 269: 245-254. | | 9. Haidong Zhou, Qingjun Zhang, Xuelian Wang, Qianqian Zhang, Lixin Ma, Yong Zhan. Systematic screening of common wastewater-marking pharmaceuticals in urban aquatic environments: implications for environmental risk control. Environmental Science and Pollution Research, 2014, 21 (11): 7113-7129. | | 10. Haidong Zhou, Daniel Loffler, Martin Kranert. Model-based predictions of anaerobic digestion of agricultural substrates for biogas production [J]. Bioresource Technology, 2011, 102(23): 10819-10828. | | 11. Haidong Zhou, Yanfen Zhou, Han Li, Fengfei Wang. Fate and removal of selected endocrine-disrupting compounds in sewage using activated sludge treatment [J]. Water and Environment Journal, 2012, 26: 435-444. | | 12. Haidong Zhou, Han Li, Fengfei Wang. Anaerobic digestion of different organic wastes for biogas production and its operational control performed by the modified ADM1 [J]. Journal of Environmental Science and Health. Part A, 2012, 47(1): 84-92. | | 13. Haidong Zhou, Chunying Wu, Xia Huang, Mijun Gao, Xianghua Wen, Hiroshi Tsuno, Hiroaki Tanaka. Occurrence of selected pharmaceuticals and caffeine in sewage treatment plants and receiving rivers in Beijing, China [J]. Water Environment Research, 2010, 82(11): 2239-2248. | | 14. Haidong Zhou, Xia Huang, Xiaolin Wang, Xiahui Zhi, Chengdui Yang, Xianghua Wen, Qunhui Wang, Hiroshi Tsuno, Hiroaki Tanaka. Behaviour of selected endocrine-disrupting chemicals in three sewage treatment plants of Beijing, China [J]. Environmental Monitoring and Assessment, 2010, 16(1-4): 107-121. |
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