Modeling surface energy budget under ecohydrological recovery. Advisor is Jingfeng Wang.
Revisiting the global surface energy budgets with maximum-entropy-production model of surface heat fluxes. Huang, S.-Y., Y. Deng, and J. Wang (2017): Climate Dynamics 49 (5-6): 1531-1545
A coupled force-restore model of surface temperature and soil moisture using the maximum entropy production model of heat fluxes. Huang, S.-Y., and J. Wang (2016): Journal of Geophysical Research Atmospheres 121(13): 7528-7547
Papers and books that explicitly acknowledge a CZO grant are highlighted in PALE ORANGE.
A modeling study of land surface processes and surface energy budgets using the maximum entropy production theory. Huang, Shih-Yu (2017): PhD Dissertation, Civil Engineering, Georgia Institute of Technology, Atlanta, Georgia
A force-restore model of near-surface air temperature using a new parameterization of sensible heat flux. Huang, Shih-Yu, and Jingfeng Wang (2017): American Geophysical Union 2017 Fall Meeting, New Orleans, Louisiana, 11-15 December 2017
Historical data digitization and micrometeorological measurements at Calhoun Critical Zone Observatory (CCZO). Tang, Yao, Sabina Shahnaz, Yawen Shen, Jinge Huo, Minjae Kim, Shih-Yu Huang, Husayn El Sharif, Cheng Yao, Satish Bastola, Rafael Bras, Jingfeng Wang (2017): Calhoun CZO 2017 Summer Science Meeting, Union, SC, 17-18 May 2017
A comparison study of terrestrial evapotranspiration models. El Sharif, H., S.-Y. Huang, Y. Tang, S. Shahnaz, and J. Wang (2016): Asia Oceania Geosciences Society 13th Annual Meeting, 31 Jul - 5 Aug, 2016, Beijing, China
Soil Moisture and Vegetation Controls on Surface Energy Balance using MEP Model of ET. Wang, J., Parolari, A., and Huang, S.-Y. (2014): American Geophysical Union annual meeting, San Francisco, California, December, 2014