Augustus C. Resurreccion
 Academic Group: Environment and Energy Engineering Group Contact Info: Office Address: EEEG Room, 2nd floor NCTS Telephone: Email Ad: URL: Specialization: Soil Physics, Gas Transport in porous media Research Interests: Landfill gas production, predictive models for gas transport parameters subsurface flow, wetland systems Education: Ph.D. in Biological and Environmental Sciences Saitama University, Japan M. Engg., in Civil and Environmental Engineering Saitama University, Japan BS Geodetic Engineering, 1997 University of the Philippines Diliman Resurreccion, A. C., P. Moldrup, K. Kawamoto, S. Hamamoto, D.E. Rolston and T. Komatsu (2009). Hierarchical, bimodal model for gas diffusivity in aggregated unsaturated soils, Soil Science Society of America Journal, Doi:10.2136/sssaj2009.0055 Hamamoto, S., S. A. P. Mandadige, A. Resurreccion, K. Kawamoto, S. Hasegawa, T. Komatsu, and P. Moldrup (2009) The solute diffusion coefficient in variably-compacted, unsaturated volcanic ash soils, Vadose Zone Journal, Vol. 8, pp. 942-952 Resurreccion, A. C., T. Komatsu, K. Kawamoto, M. Oda, S. Yoshikawa and P. Moldrup (2008) Linear model to predict soil-gas diffusivity from two soil-water retention points in unsaturated volcanic ash soils, Soils and Foundations, Vol. 4, pp. 397-406. Resurreccion, A. C., P. Moldrup, K. Kawamoto, S. Yoshikawa, D. E. Rolston, and T. Komatsu (2008) Variable pore connectivity factor model for gas diffusivity in unsaturated, aggregated soil, Vadose Zone Journal, Vol. 7, pp. 397-405. Resurreccion, A. C., K. Kawamoto, T. Komatsu, P. Moldrup, K. Sato, and Dennis E. Rolston (2007) Gas diffusivity and air permeability in a volcanic ash soil profile: Effect of organic matter and water retention, Soil Science, Vol. 172, pp. 431-443. Resurreccion, A. C., K. Kawamoto, T. Komatsu, P. Moldrup, N. Ozaki, and Dennis E. Rolston (2007) Gas transport parameters along field transects of a volcanic ash soil, Soil Science, Vol. 172, pp. 3-16. |