1.1 This guide is designed for application at a wide range of sediment sites where non-aqueous phase liquid (NAPL) is present or suspected to be present. This guide describes emplacement mechanisms that can result in NAPL presence within sediment and how the characteristics of the sediment, aquatic environment, and NAPL will influence NAPL movement (that is, NAPL mobility, NAPL migration, or both) within sediment. This guide provides example conceptual models for NAPL emplacement in sediment to establish a common evaluation framework that can be used to assess conditions influencing NAPL movement by advection in sediment. This evaluation framework for advective NAPL movement categorizes the NAPL as being either mobile or immobile at the pore scale, or migrating or stable at the NAPL body scale.

1.2 The conceptual models for NAPL emplacement in sediment presented in this guide are a component of the overall Conceptual Site Model (CSM) of the sediment site. A robust CSM is typically needed to optimize potential future work efforts at a sediment site, which may include various risk management and remedial strategies for the site, as well as subsequent monitoring after remedy implementation.

1.3 This guide discusses three broad categories of NAPL emplacement mechanisms.

1.4 This guide concerns the advective movement of NAPL in sediment. Ebullition-facilitated transport of NAPL from the sediment into the water column by gas bubbles is not within the scope of this guide. The measurement and evaluation of ebullition and associated NAPL/contaminant transport are discussed in Guides E3300 and E3447. Processes associated with NAPL movement due to erosion (for example, caused by propeller wash) are also beyond the scope of this guide.

1.5 Petroleum hydrocarbon, coal tar, and other tar NAPLs (including fuels, oils, and creosote) are the primary focus of this guide. These forms of contamination are commonly related to historical operations at petroleum refineries, petroleum distribution terminals, manufactured gas plants (MGPs), and various large industrial sites.

1.6 Related ASTM Standards—This guide is related to several other guides that cover various aspects of NAPL mobility and migration in sediment. Guide E3268 provides guidance on the collection and handling of sediment samples that are representative of in situ conditions for laboratory geotechnical and NAPL mobility testing. Guide E3281 discusses the use of field screening methodologies to select sediment samples to be submitted for laboratory NAPL mobility testing. Guide E3282 discusses metrics (for various lines-of-evidence (LOE)) to evaluate whether NAPL is mobile or immobile at the pore scale and, if the NAPL is mobile, describes other metrics (using additional LOE) to evaluate whether NAPL is migrating or stable at the NAPL body scale. Guide E3282 also presents example decision analysis frameworks for ascertaining whether NAPL is mobile at the pore scale or migrating at the NAPL body scale (or both). Guide E3300 discusses ebullition fundamentals and how to obtain ebullition-facilitated transport (EFT) rates for NAPL and associated contaminants (which can be used to estimate NAPL/contaminant loadings to the water body). Guide E3447 discusses the use of flux chambers to obtain the data used to calculate EFT rates.

1.7 Units—The values stated in SI units are to be regarded as the standard. No other units of measurement are included in this standard.

1.8 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of users of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use.

1.9 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.