dissolution
Characterization of the dissolution of hornblende with application to natural waters
1989
Characterization of the dissolution of hornblende with application to natural waters
Hopkins, Emily Elaine
Master's Thesis
Hydrology
Martha H. Conklin
Roger C. Bales
PDF file of abstract here
A laboratory study of hornblende and tremolite dissolution rates
1993
A laboratory study of hornblende and tremolite dissolution rates
Narusawa, Joel Yutaka
Master's Thesis
Hydrology
Martha H. Conklin
PDF of abstract here
Enhanced dissolution of multiple-component nonaqueous phase organic liquids in porous media using cyclodextrin: theoretical, laboratory, and field investigations
1998
Enhanced dissolution of multiple-component nonaqueous phase organic liquids in porous media using cyclodextrin: theoretical, laboratory, and field investigations
McCray, John Emory Jr.
Doctoral Dissertation
Hydrology
Mark L. Brusseau
PDF of abstract here
Reductive dissolution of manganese (IV) oxides and precipitation of iron (III): implications for redox processes in an alluvial aquifer affected by acid mine drainage
2001
Reductive dissolution of manganese (IV) oxides and precipitation of iron (III): implications for redox processes in an alluvial aquifer affected by acid mine drainage
Villinski, John Eugene
Doctoral Dissertation
Hydrology
Martha H. Conklin
PDF file of abstract here
Dissolution and enhance solubilization of immiscible phase organic liquids in porous media: theoretical, laboratory, and field investigations
2003
Dissolution and enhanced solubilization of immiscible phase organic liquids in porous media: theoretical, laboratory, and field investigations
Tick, Geoffrey Ray
Doctoral Dissertation
Hydrology
Mark L. Brusseau
PDF file of abstract here
The influence of physical heterogeneity on immiscible-liquid dissolution and permeability-based in situ remediation
2005
The influence of physical heterogeneity on immiscible-liquid dissolution and permeability-based in situ remediation
Marble, Justin Carl
Doctoral Dissertation
Hydrology
Mark L. Brusseau
Text of abstract here