Abstract
AbstractLight non-aqueous phase liquid (LNAPL) mobility, transmissivity (Tn), and recoverability are controlled by a suite of factors, namely release characteristics, the environment in which it resides, its age, physical/chemical properties, and others. LNAPL plumes are dynamic, but typically trend toward field stability after a release stops. Unlike groundwater mobility, finite LNAPL releases represent an ever-diminishing mobile mass due to degradation, residualization, and other factors that will be subsequently examined. For these and other reasons, mobility aspects vary both spatially and temporally. Tn is a useful, but complex, related parameter. It is commonly used to determine the applicability of LNAPL hydraulic recovery. But since it is not constant, a cutoff must be carefully considered, along with its manner of determination. Further, even if a plume is theoretically “recoverable” on a Tn rate basis that has very little relationship to whether that action would be expected to have any net environmental benefit. LNAPL hydraulic recovery is inherently self-limiting and has little net benefit unless a plume is mobile (and contained) or a significant mass recovery percentile is possible, which is rare.
Publisher
Springer International Publishing
Reference30 articles.
1. API (2002) American Petroleum Institute Publication #4715. Evaluating Hydrocarbon Removal from Source Zones and its Effect on Dissolved Plume Longevity and Magnitude
2. API (2006) API Interactive LNAPL Guide Version 2.0.4
3. ASTM (2021) Standard guide for estimation of LNAPL transmissivity. Active Standard ASTM E2856-13
4. Beckett GD, Huntley D (1994) Characterization of Flow Parameters Controlling Soil Vapor Extraction: Ground Water, 32(2): 239–247
5. Beckett GD, Joy S (2003) Light non-aqueous phase liquid (LNAPL) Parameters Database-Version 2.0-User Guide. API #4731