Significance and Use
The principal characteristic of geomembranes is their intrinsically low permeability to a broad range of gases, vapors, and liquids, both as single-component fluids and as complex mixtures of
many constituents. As low permeable materials, geomembranes are being used in a wide range of engineering applications in geotechnical, environmental, and transportation areas as barriers to
control the migration of mobile fluids and their constituents. The range of potential permeants is broad and the service conditions can differ greatly. This guide shows users test methods
available for determining the permeability of geomembranes to various permeants.
The transmission of various species through a geomembrane is subject to many factors that must be assessed in order to be able to predict its effectiveness for a specific service.
Permeability measurements are affected by test conditions, and measurements made by one method cannot be translated from one application to another. A wide variety of permeability tests have
been devised to measure the permeability of polymeric materials; however, only a limited number of these procedures have been applied to geomembranes. Test conditions and procedures should be
selected to reflect actual service requirements as closely as possible. It should be noted that field conditions may be difficult to model or maintain in the laboratory. This may impact
apparent performance of geomembrane samples.
This guide discusses the mechanism of permeation of mobile chemical species through geomembranes and the permeability tests that are relevant to various types of applications and permeating
species. Specific tests for the permeability of geomembranes to both single-component fluids and multicomponent fluids that contain a variety of permeants are described and discussed.
1. Scope
1.1 This guide covers selecting one or more appropriate test methods to assess the permeability of all candidate geomembranes for a proposed specific application to various permeants. The
widely different uses of geomembranes as barriers to the transport and migration of different gases, vapors, and liquids under different service conditions require determinations of
permeability by test methods that relate to and simulate the service. Geomembranes are nonporous homogeneous materials that are permeable in varying degrees to gases, vapors, and liquids on a
molecular scale in a three-step process ( 1 ) by dissolution in or absorption by the geomembrane on the upstream side, ( 2 ) diffusion
through the geomembrane, and ( 3 ) desorption on the downstream side of the barrier.
1.2 The rate of transmission of a given chemical species, whether as a single permeant or in mixtures, is driven by its chemical potential or in practical terms by its concentration gradient
across the geomembrane. Various methods to assess the permeability of geomembranes to single component permeants, such as individual gases, vapors, and liquids are referenced and briefly
described.
1.3 Various test methods for the measurement of permeation and transmission through geomembranes of individual species in complex mixtures such as waste liquids are discussed.
1.4 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to
establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.
2. Referenced Documents (purchase separately) The documents listed below are referenced within the subject standard but are not provided as part of the standard.
ASTM Standards
D471 Test Method for Rubber Property--Effect of Liquids
D814 Test Method for Rubber Property--Vapor Transmission of Volatile Liquids
D815
D1434 Test Method for Determining Gas Permeability Characteristics of Plastic Film and Sheeting
D4439 Terminology for Geosynthetics
D4491 Test Methods for Water Permeability of Geotextiles by Permittivity
E96/E96M Test Methods for Water Vapor Transmission of Materials
F372 Test Method for Water Vapor Transmission Rate of Flexible Barrier Materials Using an Infrared Detection Technique
F739 Test Method for Permeation of Liquids and Gases through Protective Clothing Materials under Conditions of Continuous Contact
Keywords
barriers; diffusion of gases and vapors; flexible membrane liners (FMLs); gas transmission; leachate; organic vapor transmission; permeability; polymeric geomembranes; reservoirs; transport
of chemical species; transport of ions; waste disposal; water vapor transmission; Barrier materials/systems; Diffusion (gases/vapors); Flexible membrane liners (FMLs); Ion transport;
Leachates/leaching; Organic vapor transmission; Permeability--geosynthetics; Polymeric geomembranes; Reservoirs; Transport of ions; Waste materials/processing/analysis; Water vapor
transmission (WVT);
ICS Code
ICS Number Code 13.060.30 (Sewage water); 17.120.01 (Measurement of fluid flow in general)
DOI: 10.1520/D5886-95R11
ASTM International is a member of CrossRef.
ASTM D5886