1, Sub-topic of National Science and Technology Support Plan (2012bac20b12-13) —— Analysis of the current situation of carbon emission trading in Chongqing and its model design.
2. The key scientific and technological project of Chongqing Education Commission (KJ110403)-Study on the treatment of mustard tuber wastewater with high-salt aerobic granular sludge.
3. The Key Laboratory of Water Conservancy and Waterway Engineering established by the Ministry of Education is an open fund project (SLK2010B09)-a simulation study on the influence of the tail water discharge mode of salty wastewater on the salt rise distribution and water quality in the nearby sea area.
4. Experimental study on high-efficiency flocculation clarifier of Chongqing Saidi Smelting Equipment System Integration Engineering Technology Research Center Co., Ltd.
5. Chongqing Jiaotong University Talent Introduction Fund Project-Study on Mechanism of Phosphorus Removal by Aerobic Phosphate Reduction
6. Chongqing Jiaotong University Laboratory Open Fund Project (SYK201007)-Discussion on the effectiveness of biological contact oxidation method in treating urban sewage.
7. Chongqing Jiaotong University Specialty Construction Special Plan-New Specialty Construction Project of Water Supply and Drainage Science and Engineering
8. Chongqing Jiaotong University Curriculum Reform Project "Water Supply and Drainage Network System"
9. Chongqing Jiaotong University School Textbook Project "New Technology and Technology of Water Treatment"
Second, participate in the project.
1, national science and technology support project (2011bab09b0103) —— Research on key technologies of navigation engineering construction in perennial backwater area of Three Gorges Reservoir (Task 4: Research on green waterway construction technology of Three Gorges Reservoir).
2. The central government supports local universities to develop special fund projects-environmental water conservancy and urban water affairs teaching experimental platform.
3. The national key scientific and technological project of water pollution control and treatment (2008ZX073 15-004)—— Research and demonstration on key technologies of wastewater treatment in food industrial park in Three Gorges reservoir area.
4. National Major Science and Technology Project of Water Pollution Control and Treatment (2008zx07315-005)-Research and demonstration on key technologies of water pollution control in mountainous towns in the Three Gorges reservoir area.
5. Chongqing Municipal Management Committee's scientific research project-Chongqing sewage treatment plant sludge treatment and disposal special planning.
6. Study on the open fund project of Guangxi Key Laboratory of Environmental Engineering and Protection Evaluation (Guikeneng, 0704k 03 1)-AMBR- activated sludge combined process for nitrogen removal of low-carbon municipal domestic sewage.
7. Chongqing Higher Education Teaching Reform Research Project (103222)-Research and practice of bilingual teaching mode for science and engineering majors in colleges and universities.
8. Chongqing Higher Education Teaching Reform Research Project (133031)-Construction and Practice of Bilingual Teaching Quality Assurance System in Colleges and Universities
Third, the compilation of teaching materials.
1. Participated in the compilation of Chongqing Urban Sewage Treatment Industry Development Plan (the eighth finisher)
2. Participate in the compilation of chapters 16 (natural biological treatment of sewage), 17 (sludge treatment of sewage treatment plant) and 18 (design of urban sewage treatment plant) in the drainage engineering fascicle.
3. Participate in the "Twelfth Five-Year" college textbook "Water Supply and Drainage Network", the application and practice of water supply and drainage science and engineering series.
Fourth, publish a paper.
1, Yao Chen, Li Chunlong, Lei Xiaoling, etc. Simulation of the influence of tail water discharge of salty wastewater on the water quality in the nearby sea area. Jiangsu Agricultural Sciences, 2014,42 (8): 313-345.
2. Yao Chen, Li Li, Yang Bailu and Li Chunlong. Simulation study on the influence of saline wastewater discharge mode on the increase of salt content near sewage outlet. Advanced materials research, 2013,777 777: 440-443 (EI retrieval number: 20134416915690).
3. Yao Chen, Yang Bailu, Yu Gang, et al. Study on formation process and mechanism of aerobic granular sludge with high salinity. China water supply and drainage, 20 13, 29 (23): 8- 13.
4. Yao Chen, Zhou Jian, Gan Chunjuan, etc. Rapid start-up and decontamination characteristics of ultra-high salinity anaerobic biological treatment system. Water treatment technology, 20 1 1, 37 (6): 90-94.
5. Yao Chen, Long Tengrui, Zhou Jian, Li Xiaoping. Effect of substrate conditions on phosphorus removal efficiency of aerobic phosphate reduction. China water supply and drainage, 20 10/0,26 (9): 29-32.
6. Yao Chen, Long Tengrui, Zhou Jian, Liu Jun, Gan Chunjuan. Analysis of phosphorus system transformation in the construction of phosphate reduction system for ultra-high salinity and high phosphorus wastewater. Environmental Science, 2009,30 (9): 2592-2597.
7. Zeng, Long Tengrui, Li Xiaoping. Selection of aerobic biological treatment process for mustard tuber wastewater. Water supply and drainage in China, 25, 2009 (15): 21-24.
8. Yao Chen, Zhai Jun, Long Tengrui. Process design of baffled biological aerated filter for treating small town sewage. Water supply and drainage in China, 2007,23 (8): 38-41.
9. Yao Chen, Zhou Jian, Gan Chunjuan and Li Jingjing. Effect of initial pH on aerobic phosphate reduction process. Journal of Environmental Engineering, 20 1 1, 5 (1 1): 2428-2432.
10, Yao Chen, Zhou Jian, He Qiang, Li Jingjing. Effect of environmental factors on phosphorus removal efficiency of aerobic phosphate reduction. China water supply and drainage, 20 1 1, 27 (23): 2 1-25.
Effect 1 1, Yao Chen, Zhou Jian, Gan Chunjuan, Li Jingjing. Effects of dissolved oxygen and aeration methods on phosphorus removal by phosphate reduction. Industrial water treatment, 20 1 1, 3 1 (10): 365438+.
12, Yao Chen, Gan Chun-Juan and Zhou Jian. Influence of environmental factors on phosphorus removal efficiency of phosphate reduction system. Advanced materials research, 20 1 1, Vol. 255-260: 2797-280 1
Yao Chen, Gan Chun 13. Effect of substrate conditions on phosphorus removal efficiency of phosphate reduction system. The 5th International Conference on Bioinformatics and Biomedical Engineering (icbb 20 1 1), Wuhan, 201,Vol. 4: 3698-3701.
14, Yao Chen, Zhou Jian, Long Tengrui, Li Zhigan. Phosphorus speciation transformation in the construction of phosphate reduction system for high-salt and high-phosphorus wastewater. 2009 International Conference on Energy and Environment Technology, Guilin, 2009, Volume 2: 892-896.
15, Yao Chen, Lei Xiaoling, Qin Yu. Reflections on bilingual teaching of science and engineering majors in colleges and universities. Higher architectural education, 2012,21(1): 69-71.
16, Yu Gang, Yao Chen (correspondent), Li Chunlong. Numerical simulation study on the influence of tail water discharge of saline wastewater on salt rise distribution in near water area. Anhui Agricultural Sciences, 2013,41(19): 8276-8278,8339.
17, Long Tengrui, Yao Chen, Zhou Jian, Liu Jun. Effect of nitrate on phosphorus removal efficiency of phosphate reduction system. Civil architecture and environmental engineering. 2009, 3 1 (5): 127- 13 1.
Zhou Jian Yao Chen Long Tengrui 18. Phosphorus removal mechanism of extended sludge age SBBR in the treatment of saline and high phosphorus wastewater. Journal of Central South University of Technology, 2009, 16(s 1):363-367.
Yao Chen Lei Xiaoling, 19. Discussion on improvement measures of bilingual teaching for science and engineering majors in colleges and universities. Journal of Chongqing Institute of Education, 20 1 1, 24 (4): 22-26
20. Lei Xiaoling, Huang Fang, Yao Chen and Ding Sheguang. Study on adsorption of typical dyes by activated carbon. Industrial water treatment, 2013,33 (5): 56-60.
2 1, Zhou Jian, Liu Jun, Yao Chen, Long Tengrui, Gan Chunjuan, Li Xiaopin. Study on biological reduction and phosphorus removal of mustard tuber wastewater treated by ASBBR. Water supply and drainage in China, 25, 2009 (19): 8-11.
22. Zhai Jun, He Qiang, and Xiao. Process design of wastewater treatment demonstration project in fengjie county Town, Chongqing. Water Supply and Drainage, 2007,33 (8): 23-26
23. Zhou Jian, Liang Dong, Yao Chen, Liu Yi. Experimental study on biochemical synergistic phosphorus removal efficiency of SBBR reactor for mustard tuber wastewater treatment. Industrial water treatment, 20 10/0,30 (3): 56-58.
24. Zhou Jian, Chen Bo, Yao Chen, Long Tengrui and Hu Bin. Nitrogen removal effect of iron-carbon micro-electrolysis process on pharmaceutical wastewater with high nitrate nitrogen. China water supply and drainage, 20 1 1, 27 (9): 78-80.
25. Gao Xiang, Long Tengrui, Yao Chen, Wang Xiaodan. Selection of drainage system for small towns in mountainous areas of Three Gorges reservoir area. Environment and Ecology of Three Gorges, 20 10/0,32 (6): 21-23,38.
26. Zhou Jian, Duan Songhua, Yao Chen and Hu Bin. Nitrogen removal efficiency of iron-carbon micro-electrolysis system in treating organic pharmaceutical wastewater with high nitrate nitrogen. Journal of Central South University of Technology, 2009, 16(s 1):368-373.
27. Chai Hongxiang, Li Xiaoping, Zhou Jian, Yao Chen, Long Tengrui. Treatment of mustard tuber wastewater by ASBBR-two-stage SBBR-chemical dephosphorization combined process. Journal of Environmental Engineering, 20 10/0,4 (4): 785-788.
28. Zhou Jian, Qi Jianhua, He Qiang, Yao Chen and Hu Bin. Study on the treatment of pharmaceutical wastewater by iron-carbon microelectrolysis/biological combined process. China water supply and drainage, 20 10/0,26 (21):109-12.
29,,, Jiang,,, Li Xiaoping. Treatment of mustard tuber wastewater by phosphate biological reduction and phosphorus removal in anaerobic sequencing batch reactor. The 3rd International Conference on Bioinformatics and Biomedical Engineering, Beijing, 2009, 1-4.
30. Dou Yanyan, He Qiang, Li Jingjing, Tao. Study on the effect of staged influent mode on nitrogen removal efficiency in multistage biofilm reactor. Water treatment technology, 20 10/0,36 (1)106-109.
Verb (abbreviation of verb) patent application and authorization
Six patents were applied, including three invention patents.
1, the third licensee, invention patent: high-efficiency combined anaerobic biological treatment system for treating high-concentration organic wastewater.
2. Fourth holder, invention patent: integrated bio-ecological collaborative sewage treatment method and reactor.
Third, the sixth licensee, invention patent: sewage treatment reactor with intermittent/continuous flow alternating operation.
4. The second applicant, invention patent: rapid construction technology of high salinity wastewater biological treatment system.
5. The fourth applicant, utility model patent: integrated bio-ecological cooperative sewage treatment reactor.
Fifth applicant, utility model patent: integrated biofilm/physicochemical cooperative sewage treatment equipment.