Pengfei HEI
Position: Associate Professor, Supervisor for Master degree
Email:heipf2010@muc.edu.cn
Education and Work Experience:
· Since 2010.12: School of Life and Environmental Sciences, Minzu University of China
· 2010.12: Postdoctoral Fellow, Department of Hydraulic Engineering, Tsinghua University
· 2009.07: Ph.D. in Hydraulic Engineering, Tsinghua University
· 2006.07: M.Sc. in Biochemistry, Minzu University of China
· 2002.07: B.Sc. in Environmental Science, Lanzhou University
Teaching Courses:
· Undergraduate: Environmental Monitoring, Environmental Mathematical Methods
· Graduate: Environmental Monitoring Techniques
Research Interests:
· Ecological Restoration of Surface Water Pollution
· Dynamic Simulation of Water Pollution and Optimization of Treatment Strategies
Research Activities:
· Experimental studies on the evolution mechanisms and driving forces of eutrophication in lakes based on in-situ observations.
· Experimental research on the mechanisms of pollutant transport across phases and interfaces using laboratory circulation tanks and micro-ecological experimental systems.
· Development of a unified water quantity-water ecology joint scheduling system based on "one-dimensional river network-three-dimensional clear water area" for the Yellow River-Hetao Irrigation Area-Wuliangsuhai system.
· Exploration of bottlenecks in the development of coupled models for hydrodynamics, chemistry, and biology to accelerate the development of ecological models for surface water pollution.
Representative Research Achievements:
Books:
o Hei P., Jia D., Shang Y., Zhou G., Ye Y., Guan J. Computational River Hydrodynamics. Beijing: Ocean Press, 2017.
Selected Articles:
o Pengfei Hei*, Tingting Yang, Lei Huang, Yan Liu, Jing Yang, Yizi Shang, Lian Feng, Guoxian Huang. Unraveling eutrophication controversies: innovative strategies and holistic perspectives. Critical Reviews in Environmental Science & Technology. 2024. https://doi.org/10.1080/10643389.2024.2392987 (SCI Q1; IF:14.3)
o Tingting Yang, Yaqin Wang, Tong Zhou, Jing Yang, Manman Liu, Yizi Shang, Yingyuan Zhang, Pengfei Hei*. Modeling microbial impact on macrophyte debris decomposition in macrophyte-dominated eutrophic lakes. Science of The Total Environment. 2024, 946: 174442. (SCI Q1; IF:8.6)
o Tingting Yang, Yingyuan Zhang, Tong Zhou, Yaqin Wang, Lu Wang, Jing Yang, Yizi Shang, Feng Chen, Pengfei Hei*. Phosphorus accumulation during the ice-on season in macrophyte-dominated eutrophic lakes and its implications. Journal of Environmental Management, 2024.360: 121096. (SCI Q2; IF:7.9)
o Te Luo, Tingting Yang, Lu Wang, Ranran Wang, Yaqin Wang, Jing Yang, Zhou Tong, Feng Chen , Shanjun Wei , Pengfei Hei*, Three-stage carbon release model during macrophyte decomposition. Ecological Indicators, 2023, 147: 109956. (SCI Q2; IF:6.6)
o Lu Wang, Tingting Yang, Pengfei Hei*, Jing Zhang, Jing Yang, Te Luo, Gang Zhou, Chunlan Liu, Ranran Wang, Feng Chen. Internal phosphorus cycling in macrophyte-dominated eutrophic lakes and its implications. Journal of Environmental Management. 2022,306:114424. (SCI Q2; IF:7.9)
o Jing Zhang, Pengfei Hei*, Yizi Shang, Jing Yang, Lu Wang, Tingting Yang, Gang Zhou, and Feng Chen. Internal Nitrogen Cycle in Macrophyte-Dominated Eutrophic Lakes:Mechanisms and Implications for Ecological Restoration. ACS EST Water, 2021, 1, 2359−2369. (IF: 4.8)
o Pengfei Hei*,Tingting Yang, Jindong Song. Integration of cleaner production (CP) and sustainable supply chain management (SSCM):CP+ SSCM→CPSSCM-Inspired from impacts of Cleaner production on China's macrophyte-dominated eutrophic lakes. Journal of Cleaner Production, 2019,234:1446-1458. (SCI Q1; IF:10.2)
o Tingting Yang,Pengfei Hei*, Jindong Song. Nitrogen variations during the ice-on season in eutrophic lakes. Environmental pollution, 2019,247:1089-1099.(SCI Q2;IF:8.3)
o Yizi Shang,Pengfei Hei*, Shibao Lu. China's energy-water nexus: Assessing water conservation synergies of the total coal consumption cap strategy until 2050.Applied Energy, 2018, 210: 643–660. (SCI Q1;IF:10.2)
Patents:
· Multi-cylinder alternation control system for circulating water tank experiments. State Intellectual Property Office, 2023, 10, 10, ZL 2016 1 1235634.0.
· Cross-scale coupling experimental system for pollutant transport between overlying water and bed sand in circulating water tank experiments. State Intellectual Property Office, 2023, 10, 10, ZL 2016 1 1235649.7.
· River environmental monitoring experimental system. State Intellectual Property Office, 2023, 10, 7, ZL 201611237740.2.
Recent Projects (Past 5 Years):
· National Natural Science Foundation General Project: Mechanisms of accelerated deposition and burial in herbaceous eutrophic lakes. Project Approval No. 51979297, 2020-2023 (Principal Investigator).
· Key Special Project of the Ministry of Water Resources: Experimental study on the dispersion coefficient in the emergency water quality control model of the main canal of the Middle Route Project of the South-to-North Water Diversion, 2017-2019 (Sub-project Leader).
· State Key Laboratory of Water Resources Engineering and Dispatching: Mechanism and numerical simulation of sedimentation in herbaceous eutrophic lakes based on optimized dynamic water tank experiments, 2020-2022 (Responsible Person).
· National Key Laboratory of Water Science and Hydroelectric Engineering: Research on three-dimensional surface water quality mathematical models optimized based on dynamic water tank experiments, 2018-2020 (Responsible Person).
· Horizontal Project: Long-distance water transfer numerical simulation technology development and practice, 2021-2022 (Responsible Person; Contract No. HX2021117; 210,000 RMB).
· Horizontal Project: Hydrodynamic numerical calculation technology consulting service for the estuary section of Dagujia River, Qingdao City, 2022-2023 (Responsible Person, Contract No. HX2023022, 248,000 RMB).
