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Publications (peer-reviewed):

  1. Yu, L., Zeng, Y., Fatichi, S., and Su, Z.: How vadose zone mass and energy transfer physics affects the ecohydrological dynamics of a Tibetan meadow?, The Cryosphere Discuss., https://doi.org/10.5194/ tc-2020-88, in review, 2020.
  2. Wang, Y., Zeng, Y., Yu, L., Yang, P., Van de Tol, C., Cai, H., and Su, Z.: Integrated Modeling of Photosynthesis and Transfer of Energy, Mass and Momentum in the Soil-Plant-Atmosphere Continuum System, Geosci. Model Dev. Discuss., https://doi.org/10.5194/gmd-2020-85, in review, 2020
  3. Mwangi, S., Zeng, Y., Montzka, C., Yu, L., & Su, Z. (2020). Assimilation of cosmic‐ray neutron counts for the estimation of soil ice content on the eastern Tibetan Plateau. Journal of geophysical research : Atmospheres, 125(3), 1-23. [e2019JD031529]. https://doi.org/10.1029/2019JD031529.
  4. Yu, L., Zeng, Y., & Su, Z. (2020). Understanding the mass, momentum, and energy transfer in the frozen soil with three levels of model complexities. Hydrology and Earth System Sciences, 24(10), 4813-4830. https://doi.org/10.5194/hess-24-4813-2020
  5. Yu, L., Zeng, Y., Wen, J. & Su, Z. 2018, Liquid-Vapor-Air Flow in the Frozen Soil, Journal of geophysical research : Atmospheres. Doi: 10.1029/2018jd028502, 23 p.
  6. Yu, L., Zeng, Z. Su, H. Cai and Z. Zheng (2016). “The effect of different evapotranspiration methods on portraying soil water dynamics and ET partitioning in a semi-arid environment in Northwest China.” Hydrol. Earth Syst. Sci. 20(3): 975-990. download
  7. Zeng, Y. and Su, Z. (2013) Reply to comment by Binayak P. Mohanty and Zhenlei Yang on “A simulation analysis of the advective effect on evaporation using a two-phase heat and mass flow model”. Water resources research, 49: 7836-7840. download
  8. Zeng Y., Z. Su, L. Wan and J. Wen, (2011): A simulation analysis of the advective effect on evaporation using a two-phase heat and mass flow model. Water Resources Research, 47(10), W10529, doi: 10.1029/2011WR010701. download
  9. Zeng Y., Z. Su, L. Wan and J. Wen, (2011): Numerical Analysis of Air-Water-Heat Flow in the Unsaturated Soil Is it Necessary to Consider Air Flow in Land Surface Models. Journal of Geophysical Research – Atmosphere, 116(20), D20107, doi: 10.1029/2011JD015835. download
  10. Zeng Y., Su, Z., Wan, L., Yang, Z., Zhang, T., Tian, H., Shi, X., Wang, X., Cao, W. (2009): Diurnal pattern of the drying front in desert and its application for determining the effective infiltration. Hydrol. Earth Syst. Sci (HESS), 13:703-714. download
  11. Zeng Y., Wan, L., Su Z. Saito, H., Huang, K., Wang, X. (2009): Diurnal soil water dynamics in the shallow vadose zone (field site of China University of Geosciences, China), Environmental Geology, 58:11-23. download

Monographs/Edited Books:

  1. Zeng, Y. (2013) Coupled Dynamics in Soil : Experimental and Numerical Studies of Energy, Momentum and Mass Transfer : e-book. Berlin, Springer, 2013. Springer Theses : Recognizing Outstanding Ph.D. Research , ISBN: 978-364234073-4. Full text
  2. Zeng, Y. and Su, Z. (2013) STEMMUS : Simultaneous Transfer of Engery, Mass and Momentum in Unsaturated Soil : ITC-WRS Report : also as e-book. Enschede, University of Twente Faculty of Geo-Information and Earth Observation (ITC), 2013. ISBN: 978-90-6164-351-7. Full text

Source Codes:

You can download STEMMUS from here: https://github.com/yijianzeng/STEMMUS

Please contact y.zeng@utwente.nl for assistance.