Description
Taylor & Francis Sequenced Reactive Barriers for Groundwater Remediation 1999 Edition by Stephanie Fiorenza, Carroll L. Oubre, C. H. Ward
Permeable, reactive barriers have the potential to minimize operation times and operation costs as well as limiting the migration of contaminated groundwater plume. Sequenced Reactive Barriers for Groundwater Remediation brings us one step closing to utilizing this promising remediation technology.The plumes chosen for this study contain a mix of chlorinated and aromatic hydrocarbons. And unlike previous tests, this one expands the investigation of beyond the use of granular iron. In fact, the object is to use combinations of several technologies in succession. This in situ sequencing of reactive barriers is an extension of the treatment etraini approach.Sequenced Reactive Barriers for Groundwater Remediation is a record of research performed by the Advanced Applied Technology Demonstration Facility (AATDF) at Rice University. A Department of Defense grant funds the AATDF. The project's goal is the development of innovative remediation technologies. Table of Contents : Introduction and Technology ReviewSequential In Situ Treatment Using Granular Iron and ORC (TM)- Gate 1 CFB Borden ExperimentIntrinsic Remediation - Gate 2, CFB BordenSequential Anaerobic/Aerobic Bioremediation - Gate 3, CFB BordenIn Situ Sequential Treatment of a Mixed Organic Plume Using Granular Iron and Oxygen Sparging - NAS AlamedaProject Review and ConclusionsIntroduction to the Technology EvaluationApplication of a Sequential Treatment System at a Hypothetical SiteMeasurement Procedures and Monitoring ProgramCost and PerformanceApplicability of SPRB Technology