Cookies
Potřebujeme váš souhlas k využití jednotlivých dat, aby se vám mimo jiné mohly ukazovat informace týkající se vašich zájmů. Souhlas udělíte kliknutím na tlačítko „OK“.
ASTM C1308-21
Standard Test Method for Accelerated Leach Test for Measuring Contaminant Releases From Solidified Waste
Přeložit název
NORMA vydána dne 1.2.2021
Informace o normě:
Označení normy: ASTM C1308-21
Datum vydání normy: 1.2.2021
Kód zboží: NS-1023124
Počet stran: 12
Přibližná hmotnost: 36 g (0.08 liber)
Země: Americká technická norma
Kategorie: Technické normy ASTM
Kategorie - podobné normy:
Anotace textu normy ASTM C1308-21 :
Keywords:
accelerated, diffusion, extrapolation, leach, waste,, ICS Number Code 13.030.10 (Solid wastes)
Doplňující informace
| Significance and Use | ||||||
|
5.1?This test method can be used to measure the release of a component from a solidified waste form into water at the reference temperature near 20 ?C and at elevated temperatures that accelerate the rate and extent of leaching relative to the values measured at the reference temperature. Results of this test method can be used to quantify an intrinsic property of a material, but should not be presumed to represent releases in specific disposal environments. Tests can be conducted under conditions that represent a specific disposal environment (for example, by using a representative groundwater) to determine effective parameter values for those conditions. 5.2?This test method can be used to: 5.2.1?Compare releases of waste components from various types of solidification agents and formulations. 5.2.2?Determine the model parameter values quantifying the release of contaminants from a waste or waste form at a specific temperature. 5.2.3?Promote greater extents of reaction than can be achieved under expected service conditions within a laboratory time frame to provide greater confidence in modeled contaminant releases. 5.2.4?Determine the temperature dependence of contaminant release. 5.3?Fitting the experimental results with a mechanistic model allows release behaviors to be extrapolated to long times and to full-scale waste forms under the following constraints: 5.3.1?The same model must be used to represent the results of tests conducted at elevated temperatures and at the reference temperature because the mechanism must be the same. 5.3.2?Projections of releases over long times require that the waste form matrix remain stable, which may be demonstrated by the physical robustness of specimens recovered from tests conducted at elevated temperatures. 5.3.3?Extrapolations in time at any temperature within the range tested are limited to values that correspond to the maximum CFL value that was measured. |
||||||
| 1. Scope | ||||||
|
1.1?This test method provides a procedure for measuring the release rates of elements from a solidified matrix material under conditions that mitigate solution feedback effects. Results can be analyzed by using different models to determine if the elemental releases are controlled by mass transport though the matrix (that is, by diffusion), by a surface dissolution process, or by a combination of processes. This test method is applicable to any material that does not deform during the test. 1.1.1?If mass diffusion is the dominant process in the release mechanism, then the results of this test can be used to derive diffusion coefficients for use in diffusion-based mathematical models. 1.1.2?If surface dissolution is the dominant process, then the results of this test can be used to derive the kinetic dissolution rate in the absence of reaction affinity effects for use in dissolution-based mathematical models. 1.1.3?If release is controlled by coupled or combined dissolution and mass transport processes, then the results of this test can be used to derive effective coefficient values for a mechanistic or empirical model. 1.2?Tests at elevated temperatures are used to accelerate the release process to determine the temperature range over which the release mechanism does not change and to generate results that can be used for calculating releases at lower temperatures over long times, provided that the release mechanism does not change with temperature. 1.2.1?Tests conducted at high temperatures can be used to determine the temperature dependence of model coefficients. 1.2.2?The mechanism is considered to remain unchanged over a range of temperatures if the model coefficients show Arrhenius behavior over that range. 1.2.3?Releases at any temperature within that range can be projected in time up to the highest cumulative fractional release value that has been measured for that material. 1.3?The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard. 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, health, and environmental practices and determine the applicability of regulatory limitations prior to use. 1.5?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. |
||||||
| 2. Referenced Documents | ||||||
|
Doporučujeme:
Aktualizace zákonů
Chcete mít jistotu o platnosti užívaných předpisů?
Nabízíme Vám řešení, abyste mohli používat stále platné (aktuální) legislativní předpisy.
Chcete vědět více informací? Podívejte se na tuto stránku.
