LIU, Sitong

LIU, Sitong

Assistant Professor
Department: Environmental Engineering
Research interests: Wastewater treatment
Tel/fax: 86-10-62754290
E-mail: liusitong@iee.pku.edu.cn
Websites:

EDUCATION

Ph.D., Dalian University of Technology, 2009
B.S., Northeast University, 2004

PROFESSIONAL EXPERIENCE

2012–present, Assitant Professor, College of Environmental Sciences and Engineering, Peking University
2011, Alexander von Humboldt Research Fellow, Munich University of Technology, Germany

TEACHING EXPERIENCE

Graduate course: Frontier of Environmental Science and Technology

RESEARCH INTERESTS

ANAMMOX biotechnology for nitrogen removal from wastewater; Dynamic microbiological community and DNA-based finger print; High-efficient bioreactor for wastewater treatment

SELECTED PUBLICATIONS

1. Sitong Liu, Zuotao Zhang, Jinren Ni. Effects of Ca2+ on activity restoration of the damaged anammox consortium. Bioresource Technology, 2013, 143, 315-321
2. Sitong Liu, Elizabeth Mueller, Harald Horn. A systematic insight into a single-stage deammonification process operated in granular sludge reactor with high-loaded reject-water: characterization and quantification of microbiological community. Journal of Applied Microbiology. 2013, 114(2), 339-351  
3. Sitong Liu, Harald Horn. Effects of biofilm geometry on deammonification biofilm performance: A simulation study. Bioresource technology. 2012, 116, 252-258
4. Sitong Liu, Harald Horn. Effects of Fe(II) and Fe(III) on the single-stage deammonification process treating high-strength reject water from sludge dewatering. Bioresource technology. 2012,114, 12-19 
5. Sitong Liu, Zheng Gong, Fenglin Yang et al. Combined process of urea nitrogen removal in anaerobic anammox reactor. Bioresource Technology. 2008, 99(6), 1722-1728
6. Sitong Liu, Fenglin Yang, Zheng Gong et al. Application of anaerobic ammonium-oxidizing consortium to achieve completely autotrophic completely autotrophic ammonium and sulfate removal. Bioresource Technology. 2008, 99(15), 6817-6825
7. Sitong Liu, Fenglin Yang, Yuan Xue et al. Evaluation of oxygen adaptation and identification of functional bacteria composition for anammox consortium in non-woven biological rotating contactor. Bioresource Technology. 2008, 99(17), 8273-8279
8. Sitong Liu, Fenglin Yang, Zheng Gong et al. Assessment of the positive effect of salinity on the nitrogen removal performance and microbial composition during the start-up of CANON process. Applied Microbiology and Biotechnology. 2008, 80(2), 339-348 
9. Sitong Liu, Fenglin Yang, Fangang Meng et al. Enhanced Anammox Consortium Activity for Nitrogen Removal: Impacts of Static Magnetic Field. Journal of Biotechnology. 2008, 138(3-4), 96-102  
10. Sitong Liu, Fenglin Yang, Zheng Gong et al. The enrichment of anammox bacteria in non-woven rotating biological contactor reactor. The 2nd International Conference on Bioinformatics and Biomedical Engineering in Shanghai, 2008

SELECTED BOOKS AND PATENTS

1. Fenglin Yang, Sitong Liu, Zheng Gong et al. Simultaneous nitrification and anammox innon-woven biological contactor reactor. Patent, No: ZL200610047605.1

AWARDS AND HONORS

1. “Alexander von Humboldt Stiftung/Foundation“ in 2009
2. “The super-star for the research activity at DUT” in 2008
3. “First-classical Scholarship of Guanghua at DUT” in 2008

PROFILE

Her research focuses on anammox biotechnology, which is cost-effective and needs less energy for removing nitrogen from wastewater. Although this technology has been investigated for more than ten years, the stringent metabolism conditions and extremely slow growth rate of the anammox bacteria have restricted its application to pilot-scale plants. To solve these problems, her work was performed with the anammox consortium; including the corresponding strategies to shorten the start-up period of anammox process in via of enhancing the anammox bacteria activity, as well as the basic mechanisms of multi-species coupling processes based on anammox to enlarge the application scale of anammox process. Major progresses include: (1) the discovery of new species, named Anammoxoglobus sulfate, to perform the NH4+-N oxidization with SO42- deoxidization to produce NO2—N, and the development of coupled processes based on anammox for the nitrogen removal from wastewaters containing urea, sulfate and high salinity; (2) the application of physical energy fields, including magnetic field and electric field, to increase the anammox process performance, which is also useful for fast start-up of anammox process since it is proved as a convenient approach to enhance anaerobic ammonium oxidizing activity;  (3) the start-up of single-stage anammox-based bioreactors for treating reject-water produced in Munich wastewater treatment plant, and (4) the inveitgation into the biomass profile, optimal parameters and treatment performance of the anammox based process in different geometrically biofilms by AQUASIM 2.1 software. Guide the upgrading of conventional wastewater treatment plant by nitrification and denitrification process to novel anmmox-based process.