简介
戴振学，1984年毕业于长春地质学院水工系，2000年在西班牙拉科鲁尼亚大学获土木工程博士学位。2001至2017年在美国莱特州立大学和Los Alamos国家实验室从事污染物迁移模拟与修复、核废料储藏、放射性核素反应运移的分析与风险评估方面的研究工作，历任助理科学家到高级科学家；2010被评为美国地质学会会士（Fellow）；2017年全职回国在吉林大学建设工程学院工作，现主持国家自然科学基金一项、核污染行业项目2项。 曾先后参加和主持了美国国家基金“污染物在多尺度非均质岩层中运移的地质统计分析”、美国核管理委员会项目“污染物运移的概念模型和观测网优化设计”、美国能源部科学基金“污染物反应运移的三维数值模拟”等多项污染模拟和环境保护相关的研究课题。熟悉并掌握国内外污染监测模拟领域最新动态，在污染监测模拟及风险评估方面有着坚实的专业基础和丰富的科研及管理经验。在多个环境、地学与水文学主流期刊上发表关于污染物运移的尺度效应研究、模型与参数的不确定性分析等论文100 多篇，并自主研发了8套用于污染物迁移模拟与风险评估专业软件（如INVERSE-CORE、GEOST3等）。主要成果获美国能源部国家实验室杰出创新和技术转让奖。
研究领域
1. 水土污染有关的环境质量模拟与风险评估； 2. 核废料储藏和放射性核素反应运移的分析; 3. 多相流体(oil-gas-CO2-water)传输运移与地球化学反应 的耦合模拟; 4. 基于地质统计与随机模拟技术的非均质含水层的特征化（综合利用地质，水文，地球化学和地球物理资料来建立非均质含水层的结构模型）; 5. 水流与化学反应参数在非均质孔隙与裂隙介质中的尺度效应的分析（Upscaling）； 6. 利用不确定性分析技术识别含水层的非均质结构与地球化学反应过程； 7. 抽注水井位及观测网的最优化设计; 8. CO2储藏与强化采油的数值模拟与不确定性分析; 9. 地下水反应溶质运移在多尺度非均质孔隙与裂隙介质中的随机分析； 10.地下水反应溶质运移参数识别与逆问题研究. 1. Environmental statistical modeling and risk assessment; 2. Radionuclide transport modeling and repository science; 3. Coupled simulation of heat transfer, fluid flow (oil-gas-CO2-water) and geochemical reactions in heterogeneous media; 4. Characterizations of multi-scale aquifer/reservoir systems with geological, geochemical and geophysical data ; 5. Upscaling flow and reactive transport parameters in porous and fractured rocks (in aquifers and reservoirs); 6. Identification of hydrogeochemical reaction processes and aquifer heterogeneous structures; 7. Optimal design of injection/pumping wells in the oil reservoirs; 8. Uncertainty quantification and optimization for CO2-Enhanced Oil Recovery (EOR); 9. Stochastic modeling of water flow and reactive solute transport in multimodal heterogeneous formations; 10.Inverse modeling of reactive transport in variably saturated heterogeneous media.
主要论文
2001年以来代表性论著Peer-Reviewed Publications (IF=Impact Factor, * = 通讯作者) 1. Jia, W., McPherson, B., Pan, F., Dai, Z., Moodie, N. and Xiao, T., Impact of Three-Phase Relative Permeability and Hysteresis Models on Forecasts of Storage Associated with CO2-EOR. Water Resour. Res., doi:10.1002/2017WR021273, 54, 1-18, 2018. (分区2, IF4.4) 2. Jia, W., McPherson, B., Pan, F., Dai, Z., Xiao, T., Uncertainty quantification of CO2 storage using Bayesian model averaging and polynomial chaos expansion, Int. J. of Greenhouse Gas Control 71, 104–115, 2018. (分区2, IF3.8) 3. Soltanian, R., Z. Dai, C. Yang, M.A. Amooie, J. Moortgat, Multicomponent competitive monovalent cation exchange in hierarchical porous media with multimodal reactive mineral facies, Stochastic Environmental Research and Risk Assessment, 32(1), 295-310，2018. (分区3, IF2.6) 4. Su, X., G. Cui, H. Wang, Z. Dai, N. Woo, W. Yuan，Biogeochemical zonation of sulfur during the discharge of groundwater to lake in desert plateau (Dakebo Lake, NW China)，Environmental Geochemistry and Health，1-12, 2018. (分区2, IF2.68) 5. Zhang, Y.,  J. Zeng,  Z. Dai, H. Viswanathan, T. Xiao, Y. Ma, X. Feng, Experimental Investigation on oil Migration and Accumulation in Tight Sandstones, J. of Petroleum Science and Engineering 160, 267-275, 2018. (分区3, IF1.9) 6. Dai, Z.*, Pre-test evaluation of data worth for a pump-test in a geologically complex multiple-scale subsurface system, for Water Resour. Res., in review, 2018. 7. Dai, Z., Y. Zhang, P.H. Stauffer, M. Kang, C. Yang, Y. Zhou, W. Ampomah, M. Ding, M. Soltanian, Heterogeneity-enhanced gravitational trapping processes of CO2 sequestration in offshore marine sediments, for Applied Energy, in review, 2018. 8. Wolfsberg, A., Z. Dai*, L. Zhu and P. Reimus, T. Xiao, D. Ware, Colloid-facilitated Plutonium Transport in Fractured Tuffaceous Rock, Environmental Science & Technology, 51 (10), 5582 –5590, 2017. (分区1, IF6.2) 9. Ampomah, W., R.S. Balch, D. Rose-Coss, R. Will, M. Cather, Z. Dai, M.R. Soltanian, Optimum Design of CO2 Storage and Oil Recovery under Geological Uncertainty, Applied Energy, 195, 80-92, 2017. (分区1, IF 7.2) 10. Zhu, L., H. Gong, Z. Dai, G. Guo, and P. Teatini, Modelling 3D permeability distribution in alluvial fans using facies architecture and geophysical acquisitions, Hydrology and Earth System Sciences, 21, 721-733, 2017. (分区2, IF4.4) 11. De Silva, GPD, PG Ranjith, MSA Perera, Z. Dai, SQ Yang, An experimental evaluation of unique CO2 flow behavior in loosely held fine particles rich sandstone under deep reservoir conditions and influencing factors, Energy 119, 121-137, 2017. (分区1, IF4.5) 12. Soltanian, R., Z Dai，Geologic CO2 sequestration: progress and challenges, Geomechanics and Geophysics for Geo-Energy and Geo-Resources, 3(3), 221–223, 2017. 13. Soltanian, R., A Sun, Z Dai*， Reactive transport in the complex heterogeneous alluvial aquifer of Fortymile Wash, Nevada，Chemosphere, 179, 379-386, 2017. (分区2, IF4.2) 14. Xu, W.,  X. Su, Z. Dai, F. Yang, P. Zhu, Y. Huang, Multi-tracer investigation of river and groundwater interactions: a case study in Nalenggele River basin, northwest China, Hydrogeology Journal, 25 (7), 2015-2029, 2017. (分区3, IF2.11) 15. Su, X., S. Lu, R. Gao, D. Su, W. Yuan, Z. Dai & E. N. Papavasilopoulos，Groundwater flow path determination during riverbank filtration affected by groundwater exploitation: a case study of Liao River, Northeast China， Hydrological Sciences Journal，62(14),  2331-2347, 2017. (分区3, IF2.22) 16. Dai, Z.*, H. Viswanathan, T. Xiao, R. Middleton, F. Pan, W. Ampomah, C. Yang, Y. Zou, W. Jia, S. Lee, M. Cather, R. Balch, and B. McPherson, CO2 Sequestration and Enhanced Oil Recovery at Depleted Oil/Gas Reservoirs,  Energy Procedia, 114，6957-6967, 2017. 17. Dai, Z.*, Y. Zhang, P.H. Stauffer, T. Xiao, M. Zhang, W. Ampomah, C. Yang, Y. Zhou, M. Ding, M. Soltanian, J. Bielicki, R. Middleton, Injectivity Evaluation for Offshore CO2 Sequestration in Marine Sediments,  Energy Procedia, 114，2921-2932, 2017. 18. Ampomah, W., R.S. Balch, R. Will, M. Cather, D. Gunda, Z. Dai, Co-optimization of CO2-EOR and Storage Processes under Geological Uncertainty,  Energy Procedia, 114，6928-6941, 2017. 19. Ampomah, W., R.S. Balch, R.B. Grigg, M. White, N. Moodie, R.A. Will, M. Cather, Z. Dai, Performance Assessment of CO2-Enhanced Oil Recovery and Storage in the Morrow Reservoir, Geomechanics and Geophysics for Geo-Energy and Geo-Resources, 3(3), 245-263, 2017. 20. Zhao, X., H. Deng, W. Wang, F. Han, C. Li, H. Zhang, Z. Dai*, Impact of naturally leaking carbon dioxide on soil properties and ecosystems in the Qinghai-Tibet plateau, Scientific Reports, 7, 3002, 2017. (分区2, IF4.3) 21. Xiao, T., Z. Dai*, H. Viswanathan, A. Hakala, M. Cather, W. Jia, Y. Zhang, B. McPherson, Arsenic mobilization in shallow aquifers due to CO2 and brine intrusion from storage reservoirs, Scientific Reports, 7, 2763, 2017. (分区2, IF4.3) 22. Yang, C., Jamison, K., Xue, L., Trevi?o, R., Hovorka, S., Dai, Z., Fredin, L., Quantitative assessment of soil CO2 concentration and stable carbon isotope for leakage detection at geological carbon sequestration sites, Greenhouse Gas Sci Technol., 7 (4), 680–691, 2017. (分区3, IF1.9) 23. Xiao, T., B. McPherson, A. Bordelon, H. Viswanathan, Z. Dai, H. Tian, R. Esser, W. Jia, W. Carey, T. Xu, Reactive transport modeling of CO2-cement-rock interactions at the well-caprock-reservoir interface, Int. J. of Greenhouse Gas Control, 63, 126-140, 2017. (分区2, IF3.7) 24. Xiao, T., Z. Dai, B McPherson, H Viswanathan, W Jia, Reactive transport modeling of arsenic mobilization in shallow groundwater: impacts of CO2 and brine leakage, Geomechanics and Geophysics for Geo-Energy and Geo-Resources, 3(3), 339-350, 2017. 25. Jia, W., B. McPherson, Z. Dai, T. Irons, T. Xiao, Evaluation of Pressure Management Strategies and Impact of Simplifications for A Post-EOR CO2 Storage Project, Geomechanics and Geophysics for Geo-Energy and Geo-Resources, 3(3), 281-293, 2017. 26. Amooie, M.A., M. R. Soltanian, F. Xiong, Z. Dai, J. Moortgat, Mixing and spreading of multiphase fluids in heterogeneous bimodal porous media, Geomechanics and Geophysics for Geo-Energy and Geo-Resources, 3(3), 225-244, 2017. 27. Jia, W., F. Pan, Z. Dai, T. Xiao, B. McPherson, Probabilistic Analysis  of CO2 Trapping Mechanisms in a Sandstone CO2-EOR Field in Northern Texas, USA, Energy Procedia, 114, 4321-4329, 2017.   28. Ampomah, W., R.S. Balch, R.B. Grigg, B. McPherson, B. McPherson, R.A. Will, S. Lee, Z. Dai, F. Pan, Co-optimization of CO2-EOR and storage processes in mature oil reservoirs, Greenhouse Gas Sci Technol. 7 (1), 128-142, 2017. (分区3, IF1.9) 29. Dai, Z*., H. Viswanathan, R. Middleton,  F. Pan, W. Ampomah, C. Yang, W. Jia, S. Lee, B. McPherson, R. Balch, R. Grigg, and M. White, CO2 Accounting and Risk Analysis for CO2 Sequestration at Enhanced Oil Recovery Sites, Environmental Science & Technology, 50 (14), 7546?7554，2016. (分区1, IF6.2) 30. Zou, Y., C. Yang, D. Wu, C. Yan, M. Zeng, Y. Lan, Z. Dai, Probabilistic assessment of shale gas production and water demand at Xiuwu Basin in China, Applied Energy, 180, 185–195, 2016. (分区1, IF7.2) 31. Soltanian, R., M.A. Amooie, Z. Dai, D. Cole, Y. Moortgat, Critical Dynamics of Gravito- Convective Mixing in Geological Carbon Sequestration, Scientific Reports, 6:35921 | DOI: 10.1038/srep35921, 2016. (分区2, IF5.57) 32. Wang, W., Z. Dai*, Y. Zhao, J. Li, L. Duan, Z. Wang, L. Zhu, A quantitative analysis of hydraulic interaction processes in stream-aquifer systems, Scientific Reports, 6: 19876, 2016. (分区2, IF5.57) 33. Ampomah, W., R.S. Balch, R.B. Grigg, R. Will, S.Y., Lee, Z. Dai, Performance of CO2-EOR and Storage Processes under Uncertainty, SPE-180084-MS, Society of Petroleum Engineering, 2016. (no IF) 34. Pan, F., B. J. McPherson, Z. Dai, W. Jia, S. Lee, W. Ampomah, H. Viswanathan, R. Esser, Uncertainty Analysis of Carbon Sequestration in an Active CO2-EOR Field, Int. J. of Greenh. Gas Control, 51, 18-28, 2016. (分区2, IF3.8) 35. Keating, E.H., D.H. Bacon, S. Carroll, K. Mansoor, Y. Sun, L. Zheng, D. Harp, Z. Dai, Applicability of aquifer impact models to support decisions at CO2 sequestration sites, Int. J. Greenh. Gas Control, 52, 319-330, 2016. (分区2, IF3.8) 36. Shang, H., W. Wang, Z. Dai*, L. Duan, Y. Zhao, J. Zhang, An ecology-oriented exploitation mode of groundwater resources in the northern Tianshan Mountain, China, J. of Hydrology, 543, 386-394, 2016. (分区2, IF3.5) 37. Zhu, L., Z. Dai*, H. Gong, C. Gable, P. Teatini, Statistic inversion of multi-zone transition probability models for aquifer characterization in alluvial fans, Stochastic Environmental Research and Risk Assessment, 30(3), 1005-1016, 2016. (分区3, IF2.6) 38. Keating, EH, Harp, DH, Dai, Z., Pawar RJ, Reduced Order Models for Assessing CO2 Impacts in Shallow Unconfined Aquifers, Int. J. of Greenhouse Gas Control, 46, 187-196, 2016.  (分区2, IF3.8) 39. Ampomah, W.,  R.S. Balch, M. Cather, D. Rose-Coss, Z. Dai, J. Heath,T. Dewers, P. Mozley, Evaluation of CO2 Storage Mechanisms in CO2 Enhanced Oil Recovery Sites, Energy and Fuel, 30 (10), 8545–8555, 2016. (分区2, IF3.1) 40. Liu, G., Z. Dai, B Xing, M Wang, Y Meng, J Li, Application and prospect of bionic algorithm in groundwater model inversion, Hydrogeology & Engineering Geology 43 (1), 41-49, 2016. 41. Bacon, D., N. Qafoku, Z. Dai, E. Keating, C. Brown, Modeling the Impact of Carbon Dioxide Leakage into an Unconfined, Oxidizing Carbonate Aquifer, Int. J. of Greenhouse Gas Control, 44, 290-299, 2016. (分区2, IF3.8) 42. Soltanian, R., R. Ritzi, C. Huang, Z. Dai, Relating reactive solute transport to hierarchical and multiscale sedimentary architecture in a Lagrangian-based transport model: 1. Time-dependent effective retardation factor, Water Resour. Res., 51(3), 1586-1600, 2015. (分区2, IF4.4) 43. Soltanian, R., R. Ritzi, C. Huang, Z. Dai, Relating reactive solute transport to hierarchical and multi-scale sedimentary architecture in a Lagrangian-based transport model: 2. Particle displacement variance, Water Resour. Res., 51(3), 1601–1618, 2015. (分区2, IF4.4) 44. Zhu, L., H. Gong, Z. Dai*, T. Xu, X. Su, X. Li, An integrated assessment of the impact of precipitation and groundwater on vegetation growth in arid and semiarid areas, Environmental Earth Science, 74:5009–5021, 2015. (分区3, IF1.7) 45. Zhu, L., Gong, H.L., Li, X., Wang, R., Chen, B., Dai, Z., Teatini P.  Land subsidence due to groundwater withdrawal in the northern Beijing plain, China, Engineering Geology, 193, 243–255, 2015. (分区2, IF2.6) 46. Chen, L, Q Kang, Z Dai, HS Viswanathan, W Tao, Permeability prediction of shale matrix reconstructed using the elementary building block model, Fuel, 160, 346-356, 2015. (分区2, IF3.2) 47. Soltanian, R., R. Ritzi, C. Huang, Z. Dai , H. Deng, A note on upscaling retardation factor in hierarchical porous media with multimodal reactive mineral facies, Transport in Porous Media, 108(2), 355-366, 2015. (分区3, IF1.8) 48. Soltanian, R., R. Ritzi, Z. Dai, C. Huang, D. Dominic, Transport of kinetically sorbing solutes in heterogeneous sediments with multimodal conductivity and hierarchical organization across scales, Stochastic Environmental Research and Risk Assessment, 29(3), 709-726, 2015. (分区3, IF2.1) 49. Soltanian, R., R. Ritzi, Z. Dai, C. Huang, Reactive solute transport in physically and chemically heterogeneous porous media with multimodal reactive mineral facies: The Lagrangian approach, Chemosphere, 122: 235-244, 2015. (分区2, IF4.2) 50. Dai, Z.*, P. Stauffer, J. Carey, R. Middleton, Z. Lu, J. Jacobs, L. Spangle, K. Hnottavange-Telleen, Pre-site characterization risk analysis for commercial-scale carbon sequestration, Environmental Science & Technology, 48 (7), 3908–3915, 2014. (分区1, IF6.2) 51. Dai, Z.*, E. Keating, D. Bacon, H. Viswanathan, R. Pawar, Probabilistic Evaluation for Shallow Groundwater Resources at a Potential Carbon Sequestration Site, Scientific Reports, 4: 4006, DOI: 10.1038/srep04006, 2014. (分区2, IF5.57) 52. Dai, Z.*, R. Middleton, H. Viswanathan, J. Fessenden-Rahn, J. Bauman, R. Pawar, S. Lee and B. McPherson, An integrated framework for optimizing CO2 sequestration and enhanced oil recovery, Environmental Science & Technology Letters, 1:49-54, 2014. (分区2, IF5.31) 53. Yang, C., Z. Dai, K. Romanak, S. Hovorka, R. Trevino, Inverse Modeling of Water-Rock-CO2 Batch Experiments: Implications for Potential Impacts on Groundwater Resources at Carbon Sequestration Sites, Environmental Science & Technology, 48 (5), 2798–2806, 2014. (分区1, IF6.2) 54. Dai, Z.*, H. Viswanathan, J. Fessenden-Rahn, R. Middleton, Uncertainty Quantification for CO2-Enhanced Oil Recovery, Energy Procedia, 63, 7685-7693, 2014. (no IF) 55. Carroll, S., E. Keating, K. Mansoor, Z. Dai, Y. Sun, W. Trainor-Guitton, C. Brown, D. Bacon,  Key Factors for Determining Groundwater Impacts Due to Leakage from Geologic Carbon Sequestration Reservoirs, Int. J. of Greenhouse Gas Control,  29, 153–168, 2014. (分区2, IF3.8) 56. Keating, E., Z. Dai, D. Dempsey, R. Pawar, Effective detection of CO2 leakage: a comparison of groundwater sampling and pressure monitoring, Energy Procedia, 63, 4163-4171, 2014. 分区2, no IF) 57. Bacon, D.H., Z. Dai, L. Zheng, Geochemical impacts of carbon dioxide, brine, trace metal and organic leakage into an unconfined, oxidizing limestone aquifer, Energy Procedia, 63, 4684-4707, 2014. 分区2, no IF) 58. Deng, H., Dai, Z., A. Wolfsberg, Z. Lu and M. Ye, Upscaling sorption coefficient in hierarchical porous media with multimodal reactive mineral facies, Chemosphere, 91(3), 248–257, 2013. (分区2, IF4.2) 59. Viswanathan H., Z. Dai, C. Lopano, E. Keating, J. A. Hakala, G. D. Guthrieb, R. Pawar, The Impact of CO2 Sequestration on Shallow Groundwater, SIAM News, News Journal of the Society for Industrial and Applied Mathematics, v.45(8), p.12, October, 2012. (No IF) 60. Viswanathan H., Z. Dai, C. Lopano, E. Keating, J. A. Hakala, K. G. Scheckel, L. Zheng, G. D. Guthrie, R. Pawar, Developing a robust geochemical and reactive transport model to evaluate possible sources of arsenic at the CO2 sequestration natural analog site in Chimayo, New Mexico, Int. J. of Greenhouse Gas Control, 10, 199–214, 2012. (分区2, IF3.8) 61. Deng, H., P. Stauffer, Z. Dai, Z. Jiao, R. Surdam, Simulation of industrial-scale CO2 storage: Multi-scale heterogeneity and its impacts on storage capacity, injectivity and leakage, Int. J. of Greenhouse Gas Control, 10, 397–418, 2012. (分区2, IF3.8) 62. Dai, Z.*, A. Wolfsberg, P. Reimus, H. Deng, E. Kwicklis, M. Ding, D. Ware and M. Ye, Identification of sorption processes and parameters for radionuclide transport in fractured rock, J. of Hydrol., v 414–415, p220–230, 2012. (分区2, IF3.5) 63. Wang, W., Z. Dai*, J. Li and L. Zhou, A hybrid Laplace transform finite analytic method for solving transport problems with large peclet and courant numbers, Computers & Geosciences, 49, 182-189, 2012. (分区4, IF2.53) 64. Samper, J, C Yang, L. Zheng, L. Montenegro, T. Xu, Z. Dai, G Zhang, C Lu & S Moreira, CORE2D V4: A code for water flow, heat and solute transport, geochemical reactions, and microbial processes, Groundwater Reactive Transport Models, F Zhang, G-T Yeh, C Parker & X Shi (Ed), Bentham Science Publishers, p 161-186, ISBN 978-1-60805-029-1, 2012. (No IF) 65. Dai, Z.*, E. Keating, C.W. Gable, D. Levitt, J. Heikoop, A. Simmons, Stepwise inversion of a groundwater flow model with multi-scale observation data, Hydrogeology Journal, 18: 607-624, 2010. (分区3, IF2.11) 66. Deng, H., Z. Dai*, A. Wolfsberg, Z. Lu, M. Ye and P. Reimus, Upscaling of reactive mass transport in fractured rocks with multimodal reactive mineral facies, Water Resources Research, 46, W06501, 2010. (分区2, IF4.4) 67. Lu, Z., A. Wolfsberg, Z. Dai, and C. Zheng, Characteristics and controlling factors of dispersion in bounded, randomly heterogeneous porous media, Water Resources Research, 46,  W12508,  2010. (分区2, IF4.4) 68. Dong S., Z. Dai and J. Li, The scale dependence of dispersivity in multi-faces heterogeneous sediments, J. of EARTH SCIENCE FRONTIERS, in Chinese, May, 2010. (No IF) 69. Dai, Z.*, A. Wolfsberg, Z. Lu, and H. Deng, Scale dependence of sorption coefficients for contaminant transport in saturated fractured rock, Geophysical Research Letters, 36, L01403, 2009. (分区1, IF4.3) 70. Dai, Z.*, J. Samper, A. Wolfsberg, and D. Levitt, Identification of relative conductivity models for water flow and solute transport in unsaturated compacted bentonite, Physics and Chem. of the Earth, 33, S177-S185, 2008. (分区4, IF1.42) 71. Harp D., Z. Dai, A. Wolfsberg, J. Vrugt, B. Robinson, V. Vesselinov, Aquifer structure identification using stochastic inversion, Geophysical Research Letters, 35, L08404, 2008. (分区1, IF4.3) 72. Huang, C., Z. Dai, Modeling Groundwater in Multimodal Porous Media with Localized Decompositions, Mathematical Geosciences, 40:689-704, 2008. (分区4, IF1.35) 73. Dai, Z.*, A. Wolfsberg, Z. Lu, and P. Reimus, Upscaling matrix diffusion coefficients for heterogeneous fractured rocks, Geophysical Research Letters, 34, L07408, 2007. (分区1, IF4.3) 74. Dai, Z.*, A. Wolfsberg, Z. Lu, and R. Ritzi, Representing Aquifer Architecture in Macrodispersivity Models with an Analytical Solution of the Transition Probability Matrix, Geophysical Research Letters, 34, L20406, 2007. (分区1, IF4.3) 75. Dai, Z.* and J. Samper, Inverse modeling of water flow and multicomponent reactive transport in coastal aquifer systems, J. of Hydrology, 327, 447-461, 2006. (分区2, IF3.05) 76. Samper, J., Z. Dai, J. Molinero, M. Garcia-Gutierrez, T. Missana, M. Mingarro, Interpretation of solute transport experiments in compacted Ca-bentonites using inverse modeling, Physics and Chem. of the Earth, 31, 640-648, 2006. (分区4, IF1.42) 77. Ritzi R., Z. Dai, D. Dominic, Y. Rubin, Reply to comment by Shlomo P. Neuman on “Spatial correlation of permeability in cross-stratified sediment with hierarchical architecture”, Water Resour. Res., 42, W05602, 2006. (分区2, IF4.4) 78. Dai, Z.*, J. Samper, and R. Ritzi, Identifying geochemical processes by inverse modeling of multicomponent reactive transport in Aquia aquifer, Geosphere, 2(4),  210-219, June, 2006. (分区3, IF2.37) 79. Ritzi, R. and Z. Dai, Introduction: Modeling ground-water flow and reactive transport in physically and chemically heterogeneous media, Geosphere, 2(2),  pp. 73, June, 2006. (分区3, IF2.37) 80. Dai, Z., R. Ritzi, and D. Dominic, Improving permeability semivariograms with transition probability models of hierarchical sedimentary architecture derived from outcrop-analog studies, Water Resour. Res., 41, W07032, 2005. (分区2, IF4.4) 81. Samper, J. , Zheng, L., Montenegro, L.,  Fernández, A., Rivas, P., Dai, Z., Forward and inverse modeling of multicomponent reactive transport in single and double porosity media, Advances in Understanding Engineered Clay Barriers, p493-503, 2005. (No IF) 82. Dai, Z.* and J. Samper, Inverse problem of multicomponent reactive chemical transport in porous media: Formulation and applications, Water Resour. Res. 40,  W074071-W**, 2004. (分区2, IF4.4) 83. Dai, Z.*, R. Ritzi, C. Huang, D. Dominic, and Y. Rubin, Transport in heterogeneous sediments with multimodal conductivity and hierarchical organization across scales, J. of Hydrology, 294, 1-3, 68-86, 2004. (分区2, IF3.5) 84. Ritzi, R., Z. Dai, D. Dominic, and Y. Rubin, Spatial correlation of permeability in cross-stratified sediment with hierarchical architecture, Water Resour. Res., 40, 2004. (分区2, IF4.4) 85. Dai, Z., R. Ritzi, and D. Dominic, Estimating Parameters for Hierarchical Permeability Correlation Models, Aquifer Characterization, SEPM Publishers, No. 80, 41–54, 2004. (No IF) 86. Proce, C., R. Ritzi, D. Dominic and Z. Dai, Modeling multi-scale heterogeneity and aquifer interconnectivity, Ground Water, 42(5), 658-670, 2004. (分区4, IF2.1) 87. Samper, J. , Fernández, A., Zheng, L., Montenegro, L., Rivas, P., Dai, Z., Forward and inverse modeling of multicomponent reactive transport in single and double porosity media, Developments in Water Science,v55, 805-816, 2004. (No IF) 88. Dai, Z.*, R. Ritzi, D. Dominic and Y. Rubin, Estimating Spatial Correlation Structure for Permeability in Sediments with Hierarchical Organization, Groundwater Quality Modeling and Management Under Uncertainty, Ed. by S. Mishra, American Society of Civil Engineers, 83-100, 2003. (No IF) 89. Ritzi, R., Z. Dai, D. Dominic, and Y. Rubin, Review of permeability in buried-valley aquifers: centimeter to kilometer scales, International Association of Hydrologic Sciences Redbook, Kovar, K. and Z. Hrkal eds. IAHS Publishers, No. 277, 409-418, 2002. (No IF) 90. Garcia-Gutiérrez, M.,  T. Missana, M. Mingarro, J. Samper, Z. Dai and J. Molinero, Solute Transport Properties of Compacted Ca-bentonite Used in FEBEX Project, J. Contaminant Hydrology, 47, 127-137, 2001. (分区3, IF2.01)
专利成果与技术
1．Patent for “An integrated framework for optimizing CO2 sequestration and enhanced oil recovery”,  Los Alamos National Laboratory, IDEA14-00042, in review, 2017.
获奖与荣誉
1. Superior performance and teamwork awards卓越表现与团队合作奖, Los Alamos National Lab, 2012. 2. A Fellow of the Geological Society of America, 美国地质学会会士, since 2010. 3. Outstanding Innovation and Technology Transfer Awards, 杰出创新和技术转让奖Los Alamos National Lab, 2008. 4. Cum Laude distinction PhD, University of La Coru?a, Spain, 2000.