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C
Thomson, N. R. . (1993). A continuous simulation technique for the assessment of infiltration basins. New techniques for modelling of stormwater quality impacts (pp. 359-378). Retrieved from https://www.scopus.com/inward/record.uri?eid=2-s2.0-0027836830&partnerID=40&md5=23331ef3f71203b761ee40591dd7eabd
Xiang, Y. , Sykes, J. F. , & Thomson, N. R. . (1993). A composite L1 parameter estimator for model fitting in groundwater flow and solute transport simulation. Water Resources Research, 29, 1661-1673. doi:10.1029/93WR00097
Al-Shamsi, M. A. , & Thomson, N. R. . (2013). Competition by aquifer materials in a bimetallic nanoparticle/persulfate system for the treatment of trichloroethylene. Environmental Sciences: Processes and Impacts, 15, 1964-1968. doi:10.1039/c3em00285c
Cai, Z. , Merly, C. , Thomson, N. R. , Wilson, R. D. , & Lerner, D. N. . (2007). Channel flow and trichloroethylene treatment in a partly iron-filled fracture: Experimental and model results. Journal of Contaminant Hydrology, 93, 284-303. doi:10.1016/j.jconhyd.2007.04.001
Marchesi, M. , Aravena, R. , Sra, K. S. , Thomson, N. , Otero, N. , Soler, A. , & Mancini, S. . (2012). Carbon isotope fractionation of chlorinated ethenes during oxidation by Fe 2+ activated persulfate. Science of the Total Environment, 433, 318-322. doi:10.1016/j.scitotenv.2012.06.051
Marchesi, M. , Thomson, N. R. , Aravena, R. , Sra, K. S. , Otero, N. , & Soler, A. . (2013). Carbon isotope fractionation of 1,1,1-trichloroethane during base-catalyzed persulfate treatment. Journal of Hazardous Materials, 260, 61-66. doi:10.1016/j.jhazmat.2013.05.011
Solano, F. M. , Marchesi, M. , Thomson, N. R. , Bouchard, D. , & Aravena, R. . (2018). Carbon and Hydrogen Isotope Fractionation of Benzene, Toluene, and o-Xylene during Chemical Oxidation by Persulfate. Groundwater Monitoring and Remediation, 38, 62-72. doi:10.1111/gwmr.12228
B
Mumford, K. G. , Thomson, N. R. , & Allen-King, R. M. . (2005). Bench-scale investigation of permanganate natural oxidant demand kinetics. Environmental Science and Technology, 39, 2835-2840. doi:10.1021/es049307e
A
Devlin, J. F. , Schillig, P. C. , Bowen, I. , Critchley, C. E. , Rudolph, D. L. , Thomson, N. R. , Tsoflias, G. P. , et al. (2012). Applications and implications of direct groundwater velocity measurement at the centimetre scale. Journal of Contaminant Hydrology, 127, 3-14. doi:10.1016/j.jconhyd.2011.06.007
Devlin, J. F. , Schillig, P. C. , Bowen, I. , Rudolph, D. L. , Thomson, N. R. , Tsoflias, G. P. , & Roberts, J. A. . (2011). Applications and implications of direct groundwater velocity measurement at the centimetre scale. In IAHS-AISH Publication (Vol. 342, pp. 221-224). Retrieved from https://www.scopus.com/inward/record.uri?eid=2-s2.0-84860563568&partnerID=40&md5=dfccad22ed75af1d2bad76096517a3d3
Bouchard, D. , Hunkeler, D. , Madsen, E. L. , Buscheck, T. , Daniels, E. , Kolhatkar, R. , Derito, C. M. , et al. (2018). Application of Diagnostic Tools to Evaluate Remediation Performance at Petroleum Hydrocarbon-Impacted Sites. Groundwater Monitoring and Remediation, 38, 88-98. doi:10.1111/gwmr.12300
Xiang, Y. , Sykes, J. F. , & Thomson, N. R. . (1995). Alternative formulations for optimal ground-water remediation design. Journal of Water Resources Planning and Management, 121, 171-181. doi:10.1061/(ASCE)0733-9496(1995)121:2(171)
Tomlinson, D. W. , Thomson, N. R. , Johnson, R. L. , & Redman, J. D. . (2003). Air distribution in the Borden aquifer during in situ air sparging. Journal of Contaminant Hydrology, 67, 113-132. doi:10.1016/S0169-7722(03)00070-6
Thomson, N. R. , & Johnson, R. L. . (2000). Air distribution during in situ air sparging: An overview of mathematical modeling. Journal of Hazardous Materials, 72, 265-282. doi:10.1016/S0304-3894(99)00143-0

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