2. The title:
Dr. ruogu Li (Lecturer)
3. Email: liruogu@cumt.edu.cn
4. The research direction: Urban wastewater treatment process and simulation, Drought-tolerant mosses in the low hills of Xuzhou.
5. Details:
Education
From 2008.9 to 2012.6, PhD of Environmental Engineering, China University of Mining and Technology, China;
From 1999.09 to 2002.06, MSc Environmental Engineering, China University of Mining and Technology, China
Work Experience
From 2002.07 to Present, Lecturer at the School of Environment Science & Spatial Informatics in China University of Mining and Technology;
Publications (2010~2021)
[1]Li Ruogu et al, Carbon source utilization analysis of ECOSUNIDE process in low carbon source wastewater treatment plants, China Water Supply and Drainage, 2013,29(13),97-100.
[2]Li Ruogu et al, Determination and analysis of autotrophic bacteria concentration in activated sludge in the ECOSUNIDE process, Journal of Environmental Engineering, 2012,6(3),878-882.
[3]Li Ruogu et al, Determination of biological metabolic activity of activated sludge in the ECOSUNIDE process, Environmental Science and Technology, 2012,35(3),55-58.
[4]Li Ruogu et al, Study on the determination of heterotrophic bacteria yield coefficient in activated sludge by differential pressure instrument, China Water Supply and Drainage, 2012,28(21),113-116
[5]Liruogu, Simulation of Substrate Removal inStep-Feed Process with Model ASM1, 4th international conference on environmentaltechnology and knowledge transfer (4thICET), 2012.5, AnhuiHefei
[6]Liruogu, Optimizing theStep-Feed Ratio and Modeling the Effluents of AerobicTank with ASM1 in ECOSUNIDE Process, Trans TechPeriodicals: Applied Mechanics and Materials, 2012,5
Research Projects (2015-2020)
[1] National Key R&D Program Sub-project, 2020YFC1908801, Collaborative Solid Waste Utilization in Key Industries in the Central Plains City Group of the Yellow River Basin. Integrated Demonstration of Utilization 2020-11 to 2023-10, RMB 600,000, Participated.
[2]National Natural Science Foundation of China, Top Project, 51574238, Fluid transfer mechanism of multi-scale solid-liquid particle cluster formation based on collision theory, 2015. 2015-01 to 2018-12, RMB 400,000, Completed, Participated.
Invention Patent and Software Copyright
