背景介绍

匡星星毕业于中国地质大学(北京)，香港大学博士(水文地质)。在香港大学工作4年，现任南方科技大学环境科学与工程学院副教授。主要研究方向为饱和-非饱和流、水气二相流、溶质运移数值模拟、以及地下水对气候变化的响应。在水资源领域顶级或重要学术期刊上发表论文20多篇。长期担任水资源领域多个学术期刊的审稿人，包括Water Resources Research, Earth and Planetary Science Letters，Geophysical Research Letters，Groundwater，Vadose Zone Journal等。现任国际水资源领域重要期刊Hydrogeology Journal副主编。2014年获得AXA研究基金博士后奖学金。

目前任职

南方科技大学环境科学与工程学院，副教授

教育背景

2008-2012：博士(水文地质)，香港大学

2007-2008：硕士(水文学及水资源)，中国地质大学(北京)

2003-2007：学士(水文与水资源工程)，中国地质大学(北京)

工作经历

2017.04至今：南方科技大学环境科学与工程学院，副教授

2016-2017.04：南方科技大学环境科学与工程学院，助理教授

2014-2016：香港大学地球科学系，AXA博士后

2013-2014：香港大学地球科学系，博士后

2012-2013：香港大学地球科学系，研究助理

学术兼职

2014-至今：国际学术刊物《Hydrogeology Journal》副主编

发表论著

[1] Luo, X., X. Kuang, J. J. Jiao, S. Liang, X. Zhang, and H. Li (2016), Evaluation of lacustrine groundwater discharge, hydrological partition, and nutrient budgets in a proglacial lake in Qinghai-Tibet Plateau: Using 222Rn and stable isotopes, Journal of Geophysical Research: Biogeosciences, submitted.

[2] Kuang, X., J. J. Jiao, and Y. Wang (2016), Chloride as tracer of solute transport in the aquifer-aquitard system in the Pearl River Delta, China, Hydrogeology Journal, 24(5), 1121–1132.

[3] Kuang, X., and J. J. Jiao (2016), Review on climate change on the Tibetan Plateau during the last half century, Journal of Geophysical Research: Atmospheres, 121(8), 3979–4007.

[4] Jiao, J. J., X. Zhang, Y. Liu, and X. Kuang (2015), Increased water storage in the Qaidam Basin, the North Tibet Plateau from GRACE gravity data, PLoS ONE, 10(10), e0141442, doi:10.1371/journal.pone.0141442.

[5] Liu, Y., X. Kuang, J. J. Jiao, and J. Li (2015), Numerical study of variable-density flow and transport in unsaturated-saturated porous media, Journal of Contaminant Hydrology, 182, 117–130.

[6] Kuang, X., J. J. Jiao, and K. Liu (2015), Numerical studies of vertical Cl, δ2H, and δ18O profiles in the aquifer-aquitard system in the Pearl River Delta, China, Hydrological Processes, 29(19), 4199–4209.

[7] Jiao, J. J., L. Shi, X. Kuang, C. M. Lee, Wyss W.-S. Yim, and S. Yang (2015), Reconstructed chloride concentration profiles below the seabed in Hong Kong (China) and their implications for offshore groundwater resources, Hydrogeology Journal, 23(2), 277–286.

[8] Kuang, X., and J. J. Jiao (2014), An integrated permeability-depth model for Earth’s crust, Geophysical Research Letters, 41(21), 7539–7545.

[9] Kuang X., J. J. Jiao, K. Zhang, and D. Mao (2014), Air and water flows induced by pumping tests in unconfined aquifers with low-permeability zones, Hydrological Processes, 28(21), 5450–5464.

[10] Kuang, X., and J. J. Jiao (2014), A new equation for the soil water retention curve, European Journal of Soil Science, 65(4), 584–593.

[11] Kuang, X., J. J. Jiao, and H. Li (2013), Review on airflow in unsaturated zones induced by natural forcings, Water Resources Research, 49(10), 6137–6165.

[12] Huang, H., J. Qian, X. Kuang, B. Chen, and L. Ma (2013), The influence of low-permeability cap on capillary pressure during pumping in unconfined aquifer, Journal of Hydrodynamics, 25(6), 867–870.

[13] Dong, P., X. Wang, L. Wan, X. Kuang, and T. Chen (2013), Sand column experiments and modeling study on coupling between groundwater level change and air flow (in Chinese), Earth Science - Journal of China University of Geosciences, 38(S1), 126–132.

[14] Kuang, X., J. J. Jiao, H. Huang, and J. Qian (2013), Air and water flows in a large sand box with a two layer aquifer system, Hydrogeology Journal, 21(5), 977–985.

[15] Wang, X.-S., J. J. Jiao, Y. Wang, J. A. Cherry, X. Kuang, K. Liu, C. Lee, and Z. Gong (2013), Accumulation and transport of ammonium in aquitards in the Pearl River Delta (China) in the last 10,000 years: conceptual and numerical models, Hydrogeology Journal, 21(5), 961–976.

[16] Huang, H., J. Qian, X. Kuang, Z. Chen, and R. Li (2012), Experimental study of airflow induced by pumping tests in unconfined aquifer with low-permeability cap, Journal of Hydrodynamics, 24(4), 605–608.

[17] Yang, L., X. Wang, J. J. Jiao, Y. Wang, and X. Kuang (2011), Identification of hydraulic parameters with slug test in clay soils (in Chinese), Geotechnical Investigation & Surveying, 39(6), 32–35.

[18] Kuang, X., and J. J. Jiao (2011), A new model for predicting relative nonwetting phase permeability from soil water retention curves, Water Resources Research, 47, W08520, doi:10.1029/2011WR010728.

[19] Kuang, X., J. J. Jiao, L. Wan, X. Wang, and D. Mao (2011), Air and water flows in a vertical sand column, Water Resources Research, 47, W04506, doi:10.1029/2009WR009030.

[20] Chen, C., X. Kuang, and J. J. Jiao (2011), Reply to comments on “Methods to derive the differential equation of the free surface boundary”, Ground Water, 49(2), 142–143.

[21] Chen, C., X. Kuang, and J. J. Jiao (2010), Reply to comments on “Methods to derive the differential equation of the free surface boundary”, Ground Water, 48(4), 490–493.

[22] Chen, C., X. Kuang, and J. J. Jiao (2010), Methods to derive the differential equation of the free surface boundary, Ground Water, 48(3), 329–332.