Animation illustrates enhanced plume contamination recovery through the injection, and recovery, of Ivey-Sol® into, and from, the subsurface. Enhanced recovery reduces remediation time for site closure over typical pump-and-treat systems.
Animation illustrates enhanced plume contamination recovery through the injection, and recovery, of Ivey-Sol® into, and from, the subsurface. Enhanced recovery reduces remediation time for site closure over typical pump-and-treat systems.
Animation illustrates enhanced plume contamination recovery through the injection, and recovery, of Ivey-Sol® into, and from, the subsurface. Enhanced recovery reduces remediation time for site closure over typical pump-and-treat systems.
Animation illustrates injection of Ivey-sol® particles through an injection gallery into the subsurface.
Animation illustrates enhanced plume contamination recovery through the injection, and recovery, of Ivey-Sol® into, and from, the subsurface. Enhanced recovery reduces remediation time for site closure over typical pump-and-treat systems.
Video discusses and compares standard pump and treat system with optimized enhanced remediation or Active Remediation systems which are designed to expedite the clean up sites.
Animated flow diagram illustrating the use of Ivey-sol surfactant in ex-situ soil washing system.
Hydrocyclones are used to separate sand particles from sludges, and are integral to soil washing processes.
A simulation of a buried contamination source consisting of barrels containing Dense Non-Aqueous Phase Liquids (DNAPL) and Light Non-Aqueous Phase Liquids (LNAPL). The simulation is a pseudo-physical simulation. Contaminant particles follow either gradients