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Standard Guide for Use of Coal Combustion Products for Solidification/Stabilization of Inorganic Wastes
NORMA vydaná dňa 1.11.2022
Označenie normy: ASTM E2060-22
Dátum vydania normy: 1.11.2022
Kód tovaru: NS-1096681
Počet strán: 7
Približná hmotnosť: 21 g (0.05 libier)
Krajina: Americká technická norma
Kategória: Technické normy ASTM
Keywords:
coal combustion products, inorganic waste, solidification, stabilization,, ICS Number Code 13.030.40 (Installations and equipment for waste disposal and treatment)
| Significance and Use | ||||||||||||||||||||||||||||||||||||||||||||||||
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4.1?GeneralCCPs can have chemical and mineralogical compositions that are conducive to use in the chemical stabilization of trace elements in wastes and wastewater. These elements include, but are not limited to, arsenic, barium, boron, cadmium, chromium, cobalt, lead, molybdenum, nickel, selenium, vanadium, and zinc. Chemical stabilization may be accompanied by solidification of the waste treated. Solidification is not a requirement for the stabilization of many trace elements, but does offer advantages in waste handling and in reduced permeability of the stabilized waste. This guide addresses the use of CCPs as a stabilizing agent with or without addition of other materials. Note 1:?In the United States, S/S is considered the BDAT for
the disposal of some wastes that contain metals since they cannot
be destroyed by other means 4.1.1?Advantages of Using CCPsAdvantages of
using CCPs for waste stabilization include their availability in
high volumes, and generally good product consistency from a single
source. In addition, in some instances certain CCPs can partly or
entirely replace other expensive stabilization materials such as
Portland cement. CCPs vary depending on the combustion or emission
control process and the coal or sorbents used, or both, and CCPs
contain trace elements, although usually at very low
concentrations. CCPs are generally an environmentally suitable
materials option for waste stabilization, but the compatibility of
a specific CCP must be evaluated with individual wastes or
wastewater through laboratory-scale tests followed by full-scale
demonstration and verification. CCPs suitable for the chemical
stabilization have the ability to incorporate large amounts of free
water via hydration reactions. These same hydration reactions
frequently result in the formation of mineral phases that stabilize
or chemically immobilize the trace elements of concern. CCPs that
exhibit high pHs (>11.5) offer advantages in stabilizing trace
elements that exist as oxyanions in nature (such as arsenic, boron,
chromium, molybdenum, selenium, and vanadium) and trace elements
that form oxyhydroxides, carbonates or other low-solubility
precipitates at high pH (such as cadmium, barium, nickel, and
zinc).
4.2?Chemical/Mineralogical CompositionSince many CCPs are generated at higher temperature, reactions with water during contact with aqueous solutions can be expected. Mineral formation may contribute to the chemical stabilization and/or solidification achieved in the waste treatment process. One example of this type of chemical stabilization is achieved by ettringite formation. Reduced leachability of several trace elements has been correlated with ettringite formation in hydrated high-calcium CCPs typically from U.S. lignite and subbituminous coal, and dry FGD materials. These materials worthy candidates for use in this chemical stabilization process. Lower-calcium CCPs in presence of sulfate sources, may also be effective with the addition of a calcium source that maintains the pH above 11.5. Ettringite forms as a result of hydration of many high-calcium CCPs in presence of sulfate sources, so adequate water must be available for the reaction to occur. The mineral and amorphous phases of CCPs contribute soluble elements required for ettringite formation, and the ettringite formation rate can vary based on the mineral and amorphous phase compositions. 4.3?Regulatory Framework:? 4.3.1?Waste Management FrameworkWaste stabilization activities most often occur within a regulatory waste management framework. This regulatory framework will generally establish minimum waste sampling and characterization requirements as well as establish documentation, qualification, and performance criteria for waste management activities. The framework may also prescribe or prohibit certain waste management practices. The applicable requirements of the regulatory framework may be formalized in a permit. This guide is intended to be applied within the context of a regulatory waste management framework. Note 2:?The U. S. regulatory framework is briefly described in
Stabilization/Solidification of CERCLA and RCRA Wastes: Physical
Tests, Chemical Testing Procedures, Technology Screening, and Field
Activities 4.3.2?Beneficial Use FrameworkBeneficial use
activities often occur within a regulatory framework. In some
locations, new beneficial uses require prior regulatory approval as
part of a beneficial use determination. Beneficial use
determinations may require specific characterization of the
material and the beneficial use. Jurisdictions that require
approval of beneficial use may also maintain exemptions or
predeterminations for certain materials or beneficial uses.
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| 1. Scope | ||||||||||||||||||||||||||||||||||||||||||||||||
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1.1?This guide covers methods for selection and application of coal combustion products (CCPs) for use in the chemical stabilization of trace elements in wastes and wastewater. These elements include, but are not limited to, arsenic, barium, boron, cadmium, chromium, cobalt, lead, molybdenum, nickel, selenium, vanadium, and zinc. Chemical stabilization may be accompanied by solidification of the waste treated. Solidification is not a requirement for the stabilization of many trace elements, but does offer advantages in waste handling and in reduced permeability of the stabilized waste. 1.1.1?Solidification is an important factor in treatment of wastes and especially wastewaters. Solidification/Stabilization (S/S) technology is often used to treat wastes containing free liquids. This guide addresses the use of CCPs as a stabilizing agent (with or without the addition of other materials. Stabilization may be achieved by using combinations of CCPs and other products such as lime, lime kiln dust, cement kiln dust, cement, and others. CCPs used alone or in combination with other reagents promote stabilization of many inorganic constituents through a variety of mechanisms. These mechanisms include precipitation as hydrates, carbonates, silicates, sulfates, and so forth; microencapsulation of the waste particles through pozzolanic reactions; formation of metal precipitates; and formation of hydrated phases (1-4).2 Long-term performance of the stabilized waste is an issue that must be addressed in considering any S/S technology. In this guide, several tests are recommended to aid in evaluating the long-term performance of the stabilized wastes. 1.2?The CCPs that are suited for this application include fly ash, dry flue gas desulfurization (FGD) material, and and fluidized-bed combustion (FBC) ash. 1.3?The wastes or wastewater, or both, containing the inorganic species may be highly variable, so the chemical characteristics of the waste or wastewater to be treated must be determined and considered in the selection and application of any stabilizing agent, including CCPs. In any waste stabilization process, laboratory-scale tests for compatibility between the candidate waste or wastewater for stabilization with one or more selected CCPs and final waste stability are recommended prior to pilot-scale and full-scale application of the stabilizing agent. 1.4?This guide does not intend to recommend pilot-scale or full-scale processes or procedures for waste stabilization. Full-scale processes should be designed and carried out by qualified scientists, engineers, and environmental professionals. It is recommended that stabilized materials generated at the full-scale stabilization site be subjected to testing to verify laboratory test results. 1.5?The utilization of CCPs under this guide is a component of a pollution prevention program. Utilization of CCPs in this manner conserves land, natural resources, and energy. 1.6?This guide applies only to CCPs produced primarily from the combustion of coal. It does not apply to ash or other combustion products derived from the burning of waste; coal coking byproducts; municipal, industrial, or commercial garbage; sewage sludge or other refuse, or both; derived fuels; wood waste products; rice hulls; agricultural waste; or other noncoal fuels. 1.7?Regulations governing the use of CCPs vary by nation, state and locality. The user of this guide has the responsibility to determine and comply with applicable regulations. 1.8?It is recommended that work performed under this guide be designed and carried out by qualified scientists, engineers, and environmental professionals. 1.9?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. 1.10?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. |
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| 2. Referenced Documents | ||||||||||||||||||||||||||||||||||||||||||||||||
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