ASTM D4793-93(1999)

NOTICE: This standard has either been superceded and replaced by a new version or discontinued.
Contact ASTM International (www.astm.org) for the latest information.
Designation: D 4793 – 93 (Reapproved 1999)
Standard Test Method for
Sequential Batch Extraction of Waste with Water
This standard is issued under the fixed designation D 4793; the number immediately following the designation indicates the year of
original adoption or, in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval. A
superscript epsilon (e) indicates an editorial change since the last revision or reapproval.
1. Scope D 2777 Practice for Determination of Precision and Bias of
Methods of Committee D-19 on Water
1.1 This test method is a procedure for the sequential
D 3370 Practices for Sampling Water
leaching of a waste containing at least five % solids to generate
solutions to be used to determine the constituents leached
3. Terminology
under the specified testing conditions.
3.1 Definitions:
1.2 This test method calls for the shaking of a known weight
3.1.1 For definitions of terms used in this test method, see
of waste with water of a specified purity and the separation of
Terminology D 1129.
the aqueous phase for analysis. The procedure is conducted ten
3.2 Symbols:Symbols:
times in sequence on the same sample of waste and generates
3.2.1 Variables listed in this test method are defined in the
ten aqueous solutions.
individual sections where they are discussed. A list of defined
1.3 This test method is intended to describe the procedure
variables is also given in Section 11.
for performing sequential batch extractions only. It does not
3.2.2 Explanation of Variables:
describe all types of sampling and analytical requirements that
may be associated with its application.
1.4 This standard does not purport to address all of the
¯
X = total mean value
t
safety problems, if any, associated with its use. It is the
¯
X = analytical mean value (calculated using data from
a
responsibility of the user of this standard to establish appro-
analysis of standards)
priate safety and health practices and determine the applica-
S = total standard deviation
tt
bility of regulatory limitations prior to use.
S = analytical standard deviation
ta
S = estimated standard deviation due to the extraction
te
2. Referenced Documents
procedure
2.1 ASTM Standards:
S = total single operator standard deviation
ot
D 75 Practices for Sampling Aggregates S = analytical single operator standard deviation
oa
S = estimated single operator standard deviation due to
D 420 Practice for Investigating and Sampling Soil and
oe
the extraction procedure
Rock for Engineering Purposes
D 653 Terminology Relating to Soil, Rock, and Contained
3 4. Significance and Use
Fluids
4.1 This test method is intended as a means for obtaining
D 1129 Terminology Relating to Water
sequential extracts of a waste. The extracts may be used to
D 1193 Specification for Reagent Water
estimate the release of certain constituents of the waste under
D 2216 Test Method for Laboratory Determination of Water
the laboratory conditions described in this test method.
(Moisture) Content of Soil, Rock, and Soil-Aggregate
4.2 This test method is not intended to provide extracts that
Mixtures
are representative of the actual leachate produced from a waste
D 2234 Test Method for Collection of a Gross Sample of
in the field or to produce extracts to be used as the sole basis
Coal
of engineering design.
4.3 This test method is not intended to simulate site-specific
This test method is under the jurisdiction of ASTM Committee D34 on Waste
leaching conditions. It has not been demonstrated to simulate
Management and is the direct responsibility of Subcommittee D34.01.04 on
actual disposal site leaching conditions.
Ancillary Topics.
4.4 An intent of this test method is that the final pH of each
Current edition approved Jan. 15, 1993. Published March 1993. Originally
published as D 4793 – 88. Last previous edition D 4793 – 88.
of the extracts reflects the interaction of the extractant with the
Annual Book of ASTM Standards, Vol 04.03.
buffering capacity of the waste.
Annual Book of ASTM Standards, Vol 04.08.
Annual Book of ASTM Standards, Vol 11.01.
Annual Book of ASTM Standards, Vol 05.05.
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NOTICE: This standard has either been superceded and replaced by a new version or discontinued.
Contact ASTM International (www.astm.org) for the latest information.
D 4793
4.5 An intent of this test method is that the water extractions approximately 95 % of the container. Containers must have
reflect conditions where the waste is the dominant factor in water-tight closure. Containers for samples where gases may
determining the pH of the extracts. be released should be provided with a venting mechanism.
4.6 This test method produces extracts that are amenable to
NOTE 2—Suitable container sizes range from 4.0 to 4.5 in. (102 to 114
the determination of both major and minor constituents. When
mm) in diameter and 8.5 to 13.0 in. (216 to 330 mm) in height.
minor constituents are being determined, it is especially
NOTE 3—The venting of the container has the potential to affect the
important that precautions are taken in sample storage and
concentration of volatile compounds in the extracts.
handling to avoid possible contamination of the samples.
5.15.1 Extraction vessels should be cleaned in a manner
4.7 This test method has been tested to determine its
consistent with the analyses to be performed. See Practices
applicability to certain inorganic components in the waste. This
D 3370, Section 13.
test method has not been tested for applicability to organic
substances, volatile matter (see Note 3 in 5.15), or biologically
6. Reagents
active samples.
6.1 Purity of Reagents—Reagent grade chemicals shall be
4.8 The agitation technique, rate, liquid-to-solid ratio, and
used in all tests. Unless otherwise indicated, it is intended that
filtration conditions specified in the procedure may not be
all reagents shall conform to the specifications of the American
suitable for extracting all types of wastes (see Sections 7, 8,
Chemical Society, where such specifications are available.
and the discussion in Appendix X1).
Other grades may be used, provided it is first ascertained that
the reagent is of sufficiently high purity to permit its use
5. Apparatus
without lessening the accuracy of the determination.
5.1 Straightedge (such as a thin-edged yard stick).
6.2 Purity of Water—Unless otherwise indicated, references
5.2 Impermeable Sheet, of glazed paper, oil cloth, or other
to water shall be understood to mean Type IV reagent water at
flexible material of a composition suitable to the analytes of
18 to 27°C (Specification D 1193). The method by which the
interest.
water is prepared, that is, distillation, ion exchange, reverse
5.3 Drying Pans or Dishes—Two per waste (for example,
osmosis, electrodialysis, or a combination thereof, should
aluminum tins, porcelain dishes, or glass weighing pans),
remain constant throughout testing.
suitable to the waste being tested and the instructions given in
9.2.
7. Sampling
5.4 Drying Oven—Any thermostatically controlled drying
7.1 Obtain a representative sample of the waste to be tested
oven capable of maintaining a steady temperature of 62°C in
using ASTM sampling methods developed for the specific
a range from 100 to 110°C.
industry where available (see Practices D 75 and D 420,
5.5 Desiccator, having the capacity to hold the drying pans
Terminology D 653, and Test Method D 2234).
described in 5.3 and the crucibles described in 5.8.
7.2 Where no specific methods are available, sampling
5.6 Laboratory Balance, capable of weighing to 0.1 g.
methodology for material of similar physical form shall be
5.7 Pipet, 10-mL capacity.
used.
5.8 Crucibles—Two per waste, porcelain, 20-mL capacity
7.3 The amount of sample to be sent to the laboratory
each.
should be sufficient to perform the solids content determination
5.9 Analytical Balance, capable of weighing to 0.1 mg.
as specified in 9.2 and to provide 100 g of sample on a dry
5.10 Large Glass Funnel.
weight basis for each extraction.
5.11 Wash Bottle, 500-mL capacity.
7.4 It is important that the sample of the waste be represen-
5.12 pH Meter—Any pH meter with a readability of 0.01
tative with respect to surface area, as variations in surface area
units and an accuracy of 60.05 units at 25°C is acceptable.
would directly affect the leaching characteristics of the sample.
5.13 Agitation Equipment, of any type that rotates the
Waste samples should contain a representative distribution of
extraction vessel in an end-over-end fashion at a rate of 30 6 2
particle sizes.
r/min such that the axis of rotation is horizontal and it goes
NOTE 4—Information on obtaining representative samples can also be
through the center of the bottle, (see Fig. 1 and the discussion
found in Pierre Gy’s Sampling Theory and Sampling Practice, Volumes I
of agitation in Appendix X1).
and II, by F. Picard, CRC Press, 1989.
NOTE 1—Similar devices having a different axial arrangement may be
7.5 In order to prevent sample contamination or constituent
used if equivalency can be demonstrated.
loss prior to extraction, keep samples in closed containers
5.14 Pressure Filtration Assembly—A pressure filtration
appropriate to the sample type and desired analysis. See
device of a composition suitable to the nature of the analyses
Practices D 3370 for guidance. Record the storage conditions
to be performed and equipped with a 0.45 or 0.8-μm pore-size
and handling procedures in the report.
filter (see Note 7, pertaining to 9.4).
5.15 Extraction Vessels, cylindrical, wide-mouth, of a com-
position suitable to the nature of the waste and analyses to be
“Reagent Chemicals, American Chemical Society Specifications,” Am. Chemi-
performed, constructed of materials that will not allow sorption
cal Soc., Washington, DC. For suggestions on the testing of reagents not listed by
of constituents of interest, and sturdy enough to withstand the
the American Chemical Society, see “Reagent Chemicals and Standards,” by Joseph
impact of the falling sample fragments. Container size should
Rosin, D. Van Nostrand Co., Inc., New York, NY, and the “United States
be selected so that the sample plus extraction fluid occupy Pharmacopeia.”
NOTICE: This standard has either been superceded and replaced by a new version or discontinued.
Contact ASTM International (www.astm.org) for the latest information.
D 4793
FIG. 1 Extractors
7.6 The time between collection and extraction of the 8.1.1 Empty the sample container into the center of the
sample should be determined by the nature of the sample and
sheet.
the information desired. See Practices D 3370 for guidance.
8.1.2 Flatten out the sample gently with a suitable straight-
Report the length of time between sample collection and
edge until it is spread uniformly to a depth at least twice the
extraction.
maximum particle diameter.
8. Sample Preparation
8.1.3 Remix the sample by lifting a corner of the sheet and
drawing it across, low down, to the opposite corner in a manner
8.1 For free-flowing particulate solid wastes, obtain a
that the material is made to roll over and over and does not
sample of the approximate size required in the test by quarter-
merely slide along. Continue the operation with each corner,
ing the sample (Section 7) received for testing on an imper-
meable sheet of glazed paper, oil cloth, or other flexible proceeding in a clockwise direction. Repeat this operation ten
times.
material as follows:
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D 4793
8.1.4 Lift all four corners of the sheet towards the center
S = solids content, g/g.
and, holding all four corners together, raise the entire sheet into
Average the two values obtained. Record the solids content.
the air to form a pocket for the sample.
9.3 Extraction Procedure—If the entire procedure cannot be
8.1.5 Repeat 8.1.2.
conducted without interruption, at least the first four extraction
8.1.6 With a straightedge (such as a thin-edged yard stick),
sequences must be conducted without interruption.
one at least as long as the flattened mound of sample, gently
9.3.1 Determine the mass of the extraction vessel to be used
divide the sample into quarters. Make an effort to avoid using
in the extraction procedure to the nearest 0.1 g. Record the
pressure on the straightedge sufficient to cause damage to the
mass of the extraction vessel, M . Use one extraction vessel
v1
particles.
per waste throughout the sequence of extractions.
8.1.7 Discard alternate quarters.
9.3.2 Add 100 g (weighed to 60.1 g) of solid waste on a dry
8.1.8 If further reduction of sample size is necessary, repeat
weight basis to the extraction vessel. Calculate the amount of
8.1.3-8.1.7. Use a sample size to give 100 g of solid for each
waste as received to add using the following equation:
extraction. Provide additional samples for determination of
solids content. If smaller samples are used in the test, report
M 5 (2)
this fact.
S
NOTE 5—For other acceptable methods for mixing and subsampling
where:
free-flowing solid particulate wastes, see Pierre Gy’s Sampling Theory
M = mass of waste as received to add to the extraction
and Sampling Practice, Volumes I and II, by F. Picard, CRC Press, 1989.
vessel to give 100 g (weighed to 60.1 g) of solid
The method of subsampling should be determined by the physical
waste.
properties of the waste, analytes of interest, and equipment available.
9.3.2.1 If a mass of solid waste on a dry weight basis other
8.2 For field-cored solid wastes or castings produced in the
than 100 g is used, (Eq 2) through (4) must be modified to
laboratory, cut a representative section weighing approxi-
reflect the use of a mass other than 100 g. Replace 100 in these
mately 100 g for testing plus samples for determination for
equations with the mass used. Use of a mass other than 100 g
solids content. Shape the sample so that the leaching solution
is not recommended.
will cover the material to be leached.
9.3.3 Add a volume in millilitres, V , of test water (see 6.2)
vl
8.3 For multiphasic wastes, mix thoroughly to ensure that a
to the extraction vessel determined using the following equa-
representative sample will be withdrawn. Take samples for
tions:
determination of solids content at the same time as the test
M 5 M 2 100 (3)
samples.
sw
9. Procedure
where:
9.1 Record the physical description of the sample to be
M = mass of moisture in the sample added to the
sw
tested
...