Prof. Jui-Sheng Chen

現職:中央大學應用地質研究所教授 2010/06~迄今
中央大學應用地質研究所特聘教授 2014/01~迄今
中央大學高等模式研發應用中心主任 2020/06~迄今


中央大學應用地質研究所所長 2012/08~2015/07
中央大學應用地質研究所代理所長 2008/02~2009/01
中央大學應用地質研究所副教授 2007/08-2010/07
中央大學應用地質研究所助理教授 2004/02-2007/07
輔英科技大學環境工程衛生系副教授 2003/01-2004/01
輔英科技大學環境工程衛生系助理教授 2002/08~2003/01
輔英技術學院環境工程衛生系助理教授 1999/08~2002/07
國立台灣大學農業工程學系博士後研究 1997/08~1999/07


五年內期刊論文著作: *通訊作者
1. Suk H*, Yeh GT, Chen JS, 2021 Achieving local mass conservation when using
continuous Galerkin finite element methods to solve solute transport equations
with spatially variable coefficients in a transient state. Journal of Hydrology, 595,
2. Suk H, Chen JS*, Park E, Kihm YH, 2020. Practical application of the Galerkin
finite element method with a mass conservation scheme under Dirichlet boundary
conditions to solve groundwater problem, Sustainability, 12(14), 5627;
3. Liang CP, Hsu WS, Chien YC, Wang SW, Chen JS*. 2019. The combined use of
groundwater quality, drawdown index and land use to establish a multi-purpose
groundwater utilization plan. Water Resources Management, 33, 4231,
4. Chen JS, Ho YC, Liang CP, Wang SW, Liu CW.* 2019. Semi-analytical model for
coupled multispecies advective-dispersive transport subject to rate-limited sorption.
Journal of Hydrology, 579,124794,
5. Chen JS*, Liang CP*, Chang CH, Wan MH. 2019. Simulating three-dimensional
plume migration of a radionuclide decay chain through groundwater. Energies, 12,
3740; doi:10.3390/en12193740.
6. Liang CP, Chen JS, Chien YC, Jang CS, Chen CF, 2018. Spatial analysis of the risk
to human health from exposure to arsenic contaminated groundwater: a kriging
approach. Science of the Total Environment, 627, 1048-1057.
7. Chen JS*, Li LY, Lai KH, Liang CP, 2017. Analytical model for advective-dispersive
transport involving flexible boundary inputs, initial distributions and zero-order
productions. Journal of Hydrology, 554, 187-199.
8. Liang CP, Chien YC, Jang CS, Chen CF, Chen JS*, 2017. Spatial analysis of human
health risk due to arsenic exposure through drinking groundwater in Taiwan’s
Pingtung Plain. International Journal of Environmental Research and Public Health,
14, 81; doi:10.3390/ijerph14010081.
9. Chen JS, Hsu SY, Li MH, Liu CW*, 2016. Assessing the performance of a permeable
reactive barrier-aquifer system using a dual-domain solute transport model. Journal
of Hydrology, 543, 849-860.
10. Lai KH, Liu CW, Liang CP, Chen JS*, Sie BR, 2016. A novel method for
analytically solving a radial advection-dispersion equation. Journal of Hydrology,
542, 532-540.
11. Liang CP, Jang CS, Liang CW, Chen JS*, 2016. Groundwater vulnerability
assessment of the Pingtung Plain in Southern Taiwan. International Journal of
Environmental Research and Public Health, 13, 1167; doi:10.3390/ijerph13111167.
12. Liang CP, Wang SW, Kao YH, Chen JS*, 2016. Health risk assessment of
groundwater arsenic pollution in Southern Taiwan. Environmental Geochemistry
and Health, 38(6):1271-1281.
13. Liang CP, Hsu SY, Chen JS*, 2016. An analytical model for solute transport in an
infiltration tracer test in soil with a shallow groundwater table. Journal of
Hydrology, 540, 129-141.
14. Liang CP, Jang CS, Chen, CF, Chen JS*, 2016. Zonal management of multipurposes groundwater utilization based on water quality and impact on the aquifer.
Environmental Monitoring and Assessment. 188:431, DOI 10.1007/s10661-016-
15. Chen JS, Liang CP, Liu CW*, Li LY, 2016. An analytical model for simulating twodimensional multispecies plume migration. Hydrology and Earth System Sciences,
20, 733-753.
16. Jang CS, Chen CF, Liang CP, Chen JS*, 2016. Combining groundwater quality
analysis and a numerical flow simulation for spatially establishing utilization
strategies for groundwater and surface water in the Pingtung Plain. Journal of
Hydrology, 533, 541-556.
17. Lai KH, Chen JS*, Liu CW, Shu SY, Steefel C, 2016. Effect of medium
permeability anisotropy on the morphological evolution of two non-uniformities in
a geochemical dissolution system. Journal of Hydrology, 533, 224-233.
18. Jang CS, Lin CW, Liang CP, Chen JS*, 2016. Developing a reliable model for
aquifer vulnerability. Stochastic Environmental Research and Risk Assessment,
30(1), 175-187.