基本概況：

助理教授、博士生導師，深圳河套學院兼職教授。在清華大學水利系獲得學士和博士學位，并先后在美國德州理工大學、英國倫敦大學學院開展博士后研究工作。2022年9月加入南科大，獲深圳市高層次引進人才。

研究方向為生態(tài)河流動力學，重點開展天然水域中的湍流結(jié)構(gòu)、泥沙輸移和底棲動物的相互作用關(guān)系。在Communications Earth & Environment、Water Resources Research、Journal of Fluid Mechanics、Journal of Geophysical Research等多個領(lǐng)域主流期刊上發(fā)表論文20余篇。主持國自然科學基金委面上項目1項、科技部重點研發(fā)項目子課題2項、廣東省海上風電聯(lián)合基金項目1項、深圳市面上項目1項。擔任《International Journal of Sediment Research》期刊、《應用基礎(chǔ)與工程科學學報》青年編委，是中國水利學會泥沙專委會和國際地質(zhì)災害與減災協(xié)會海洋地質(zhì)災害和環(huán)境分委會的委員，獲IAHR-SHCS最佳報告獎。

工作經(jīng)歷（包括現(xiàn)在的任職）：

2022.09至今 助理教授, 環(huán)境科學與工程學院, 南方科技大學

2020.05 – 2022.08 博士后研究員, 土木與環(huán)境工程系, 倫敦大學學院.

2018.01 – 2020.01 博士后研究員, 土木、環(huán)境與結(jié)構(gòu)工程系, 德州理工大學.

教育背景：

2012.09-2017.07 清華大學,博士,水利水電工程系

2014.10-2015.10  卡迪夫大學,聯(lián)合培養(yǎng)博士,土木工程系

2008.09-2012.07 清華大學,本科,水利水電工程系

社會兼職：

1. International Journal of Sediment Research 青年編委

2. 應用基礎(chǔ)與工程科學學報 青年編委

3. 中國水利學會泥沙專委會 委員

4. 國際地質(zhì)災害與減災協(xié)會海洋地質(zhì)災害和環(huán)境分委會 委員

獲獎及榮譽：

1. 深圳市高層次引進人才

2. 北京市優(yōu)秀畢業(yè)生

3. 清華大學優(yōu)秀畢業(yè)生

研究方向：

1. 生態(tài)河流動力學

2. 環(huán)境流體力學

3. 潛流力學及環(huán)境效應

代表性科研項目：

1. 國家自然科學基金委員會, 面上項目, 12372383, 泥水界面處底棲動物與水沙運動、溶氧輸移的交互作用機理研究, 2024-01-01 至 2027-12-31, 53萬元, 在研, 主持

2. 深圳市科技創(chuàng)新委員會, 面上項目, JCYJ20230807093507015, 植被-波流耦合作用下水沙輸移的數(shù)值模擬模型研發(fā)及應用, 2023-11 至 2026-11, 30萬元, 在研, 主持

3. 廣東省基礎(chǔ)與應用基礎(chǔ)研究基金，海上風電聯(lián)合基金面上項目，2024A1515240054, 近海樁基礎(chǔ)影響下的水沙輸移和海床演變數(shù)值模擬研究, 2024-11至2027-10，30萬元，在研，主持

4. 中華人民共和國科學技術(shù)部, 國家重點研發(fā)計劃, 2022YFC3201800, 長江中游新水沙情勢下水文連通變化機理及其生態(tài)效應研究, 2022-11 至 2026-10, 1460萬元, 在研, 子課題負責人

5. 國家自然科學基金委員會, 專項項目, 52442901, 戰(zhàn)略與管理研究類：水利工程青年學者學術(shù)沙龍-2024, 2024-07 至 2027-12, 10萬元, 結(jié)題, 參與

教學（教學課程和任導師經(jīng)歷/指導的優(yōu)秀學生）:

1. 生態(tài)學概論

2. 生態(tài)河流動力學

3. 大渦模擬在水力學中的應用

學術(shù)成果（發(fā)表論著或者論文或者專利）：

2025:

1. Jiao, M., Wang, K., He, G., Liu, Y. ^*, & Fang, H. (In press) Modeling microplastic transport in open channel flows and ingestion dynamics by benthos, Water Research.

2. Tang, Z., Stoesser, T., Huang, L., Liu, Y. ^*, & Fang, H. (In press) Drag and lift forces on bed spheres in open-channel flow through boulder arrays at various Froude numbers. Journal of Geophysical Research – Earth Surface.

3. Liu, Y. ^*, Stoesser, T. & Fang, H. (In press) Effect of secondary currents on the wall pressure and turbulence structures in partially filled pipes. Journal of Hydraulic Research

4. Tang, Z., Stoesser, T., Huang, L., Liu, Y. ^*, & Fang, H. (2025). Impact of the relative submergence on turbulence structures in open-channel flow through arrays of large spherical roughness elements. Water Resources Research, 61, e2024WR038282.

5. Liu, J., He, G., Wang, K., Liu, Y. ^*, & Fang, H. (2025) Insights into the enhanced flow resistance due to coarsened riverbed sediments via large eddy simulations. Flow, 5:E20.

6. Huang, Y., Zhang, P., Peng, H., Pan, F., Liu, Y. ^*, et al. (2025). Benthic bioturbations weaken the stability of blue carbon storage. National Science Open, 4 2, 20240052.

7. Chen, Z., He, G., Liu, Y., Huang, L., & Dey, S. (2025). Effects of U-burrow bioirrigation on turbulence characteristics. Journal of Hydraulic Research, 63(1), 102-116.

2024:

8. Liu, Y., Tang, Z., Huang, L., Stoesser, T., & Fang, H. (2024). On the role of the Froude number on flow, turbulence, and hyporheic exchange in open-channel flow through boulder arrays. Physics of Fluids. 2024, 36 (9): 095141.

9. Xiao, K., Wu, Y., Pan, F., ..., Liu, Y. ^*, … & Santos, I. R. (2024). Widespread crab burrows enhance greenhouse gas emissions from coastal blue carbon ecosystems. Communications Earth & Environment, 5(1), 437.

10. Li Z., Xiao K., Li Y., Pan F., Li H., Zheng Y. Zheng C., & Liu Y. ^* (2024). Surface water-groundwater interactions drive the spatial variability of dissolved heavy metals and interfacial fluxes in mangrove intertidal zones. Journal of Hydrology, 632, 130884

11. Hei, P., Yang, T., Huang, L., Liu, Y., Yang, J., Shang, Y., ... & Huang, G. (2024). Unraveling eutrophication controversies: Innovative strategies and holistic perspectives. Critical Reviews in Environmental Science and Technology, 1-22.

12. Chen, Z., He, G., Fang, H., Liu, Y., & Dey, S. (2024). Influence of Bioroughness Density on Turbulence Characteristics in Open-Channel Flows. Journal of Hydraulic Engineering, 150(4), 04024021.

13. Guo, X., Han, F., Liu, Y., Wu, N., Zhang, C., & Zhang, N. (2024). Methods and advances in marine geology and hydrodynamics environment. Frontiers in Marine Science, 11, 1362605.

14. Wang, K., Huang, L., He, G., Liu, Y., Xu, S., He, D., ... & Fang, H. (2024). Crucial Role of Tributary Bays in the Carbon Burial of Three Gorges Reservoir. ACS ES&T Water.

Before SUSTech:

15. Liu, Y., Reible, D., & Hussain, F., (2022). Roles of tidal cycling, hyporheic exchange and bioirrigation on metal release from estuary sediments. Water Resources Research, e2021WR030790.

16. Liu, Y. ^*, Stoesser, T., & Fang, H. (2022). Effect of secondary currents on the flow and turbulence in partially filled pipes. Journal of Fluid Mechanics, 938, A16.

17. Liu, Y. ^*, Stoesser, T., & Fang, H., (2022). Impact of turbulence and secondary flow on the water surface in partially-filled pipes. Physics of Fluids, 34, 035123.

18. Adzic, F., Stoesser, T., Liu, Y., & Xie, Z., (2022). LES of supercritical free-surface flow in an open-channel contraction. Journal of Hydraulic Research, 60:4, 628-644.

19. Zhao, C., Fang, H., Liu, Y., Dey, S. & He, G., (2020). Impact of particle shape on saltating mode of bedload transport sheared by turbulent flow. Journal of Hydraulic Engineering, 146(5), p.04020034.

20. Liu, Y., Reible, D., Hussain, F. & Fang, H. (2019). Role of bioroughness, bioirrigation and turbulence on oxygen dynamics at the Sediment-Water Interface. Water Resources Research, 55(10), 8061-8075.

21. Liu, Y., Fang, H., Huang, L., & He, G. (2019). Numerical simulation of the production of three-dimensional sediment dunes. Physics of Fluids, 31(9), 096603.

22. Liu, Y., Stoesser, T., Fang, H., Papanicolaou, A., & Tsakiris, A. G. (2017). Turbulent flow over an array of boulders placed on a rough, permeable bed. Computers & Fluids, 158, 120-132.

23. Fang, H., Liu, Y. ^*, & Stoesser, T. (2017). Influence of boulder concentration on turbulence and sediment transport in open‐channel flow over submerged boulders. Journal of Geophysical Research: Earth Surface, 122(12), 2392-2410.