Location:
State Key Laboratory of Water Pollution Control and Green Resource Recycling is based on the Environmental Science and Engineering subject group of Tongji University and Nanjing University, covering three national key disciplines including environmental engineering, environmental science, and municipal engineering, and seven doctoral programs. The laboratory was approved by the National Development and Reform Commission in 1989, construction began in 1991, and passed the national acceptance in 1995. The laboratory has passed national evaluations four times in 2000, 2005, 2010, and 2015.
The laboratory aims at national major needs and the forefront of discipline development, positioning itself as an applied basic research and high-tech research institution on environmental complex pollution control and resource utilization, exploring the process and mechanism of environmental complex pollution, clarifying the environmental effects of complex pollution, developing high-tech pollution control technologies with "pollutant resource utilization" as the core and independent intellectual property rights, and promoting the practical application of pollution control and resource utilization technologies. The laboratory has become a national key laboratory representing the national level and an internationally first-class laboratory by attracting outstanding talents and innovation teams domestically and internationally, innovative talent cultivation, international cooperation and exchange, and discipline development.
The laboratory focuses on comprehensive advantages and characteristics in water pollution control and resource utilization, solid waste treatment and disposal, targeting the forefront of international environmental disciplines and national strategic needs. It is building corresponding talent teams, continuously improving operation and management mechanisms, and forming innovative applied basic results in complex pollution processes, mechanisms and effects, and pollution control and resource utilization theories and methods. In sewage treatment and resource utilization, industrial wastewater treatment and resource utilization, solid waste treatment and disposal and resource utilization, the laboratory develops high-tech with independent intellectual property rights, making it an internationally influential environmental science and technology innovation platform, international cooperation and academic exchange center, and high-level talent training base.
Research directions of the laboratory include the environmental behavior and ecological effects of pollutants, water pollution control and resource utilization, solid waste treatment and resource utilization, environmental restoration and watershed pollution control, as well as environmental health and risk management. The laboratory focuses on studying the behaviors of multiple pollutants in complex media environments, exploring the biological effects and toxic mechanisms of new organic pollutants, evaluating the environmental health effects of new pollutants, and providing theoretical support for the traceability and risk prevention and control of high-risk substances in complex pollution water environment. It also studies principles and technologies for the treatment of high-concentration organic wastewater, highly toxic compound industrial wastewater, urban sewage phosphorus removal and denitrification, control and resource utilization of toxic substance pollution, and sludge treatment and resource utilization, providing scientific and technological support for water pollution control and governance. Additionally, it studies odor control technology of landfill sites, biotreatment technology of leachate, heavy metal stabilization technology in solid waste disposal and utilization processes, and solid waste resource recycling technology, providing technical support for solid waste resource utilization and secondary pollution control. It also studies pollution control models of watersheds, development of new technologies for treating heavily polluted rivers, restoration and guarantee water quality of heavily polluted watershed river systems, and urban water environment restoration and comprehensive management, exploring long-term environmental management mechanisms to lay a foundation for comprehensive improvement of water environment quality. Finally, it studies the health hazards and risks caused by typical regional/watershed environmental pollution, develops high-throughput screening and hazardous and risk assessment technologies for toxic factors in the environment, risk prevention and control strategies and risk interruption technologies, and environmental quality benchmark technologies that conform to China's ecological environment and population characteristics, providing technical support for solving major environmental problems and health risk control in China.
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