Gary Curtis (Former Employee)
Science and Products
Filter Total Items: 27
Physical/chemical processes affecting the subsurface fate and transport of synthetic organic materials Physical/chemical processes affecting the subsurface fate and transport of synthetic organic materials
No abstract available.
Authors
W.P. Ball, G.P. Curtis, P.V. Roberts
Natural chemical attenuation of halogenated hydrocarbon compounds via dehalogenation Natural chemical attenuation of halogenated hydrocarbon compounds via dehalogenation
No abstract available
Authors
M. Reinhard, G.P. Curtis, Jack E. Barbash
Experimental investigation and modeling of uranium (VI) transport under variable chemical conditions Experimental investigation and modeling of uranium (VI) transport under variable chemical conditions
The transport of adsorbing and complexing metal ions in porous media was investigated with a series of batch and column experiments and with reactive solute transport modeling. Pulses of solutions containing U(VI) were pumped through columns filled with quartz grains, and the breakthrough of U(VI) was studied as a function of variable solution composition (pH, total U(VI) concentration...
Authors
M. Kohler, G.P. Curtis, D.B. Kent, J.A. Davis
Science and Products
Filter Total Items: 27
Physical/chemical processes affecting the subsurface fate and transport of synthetic organic materials Physical/chemical processes affecting the subsurface fate and transport of synthetic organic materials
No abstract available.
Authors
W.P. Ball, G.P. Curtis, P.V. Roberts
Natural chemical attenuation of halogenated hydrocarbon compounds via dehalogenation Natural chemical attenuation of halogenated hydrocarbon compounds via dehalogenation
No abstract available
Authors
M. Reinhard, G.P. Curtis, Jack E. Barbash
Experimental investigation and modeling of uranium (VI) transport under variable chemical conditions Experimental investigation and modeling of uranium (VI) transport under variable chemical conditions
The transport of adsorbing and complexing metal ions in porous media was investigated with a series of batch and column experiments and with reactive solute transport modeling. Pulses of solutions containing U(VI) were pumped through columns filled with quartz grains, and the breakthrough of U(VI) was studied as a function of variable solution composition (pH, total U(VI) concentration...
Authors
M. Kohler, G.P. Curtis, D.B. Kent, J.A. Davis