Science & Technology
-
SW-846 Test Method 8000D: Determinative Chromatographic Separations
method to provide guidance on analytical chromatography and describes calibration and quality control requirements that are common to all SW-846 chromatographic methods
-
SW-846 Test Method 8082A: Polychlorinated Biphenyls (PCBs) by Gas Chromatography
procedure used to determine the concentrations of PCBs as Aroclors or as individual PCB congeners in extracts using open-tubular, capillary columns with ECD or ELCD
-
Chapter Three of the SW-846 Compendium: Inorganic Analytes
This document page displays chapter 3 of the SW-846 Test Methods Compendium
-
Chapter Four of the SW-846 Compendium: Organic Analytes
This document page displays Chapters four of the SW-846 Test Methods Compendium
-
Chapter Six of the SW-846 Compendium: Physical and Chemical Properties of Materials
This document page displays chapter six of the SW-846 Test Methods Compendium
-
Chapter Seven of the SW-846 Compendium: Introductory and Regulatory Definitions Pertaining to Hazardous Waste Characteristics
This document page displays chapter seven of the SW-846 Test Methods Compendium
-
Chapter Eight of the SW-846 Compendium: Methods for Determining Hazardous Waste Characteristics
This document page displays chapter eight of the SW-846 Test Methods Compendium
-
SW-846 Test Method 1010B: Test Methods for Flash Point by Pensky-Martens Closed Cup Tester
procedure used in the determination of the ignitability characteristic in liquid wastes
-
Policy Statement about the Test Methods for Evaluating Solid Waste: Physical/Chemical Methods Compendium (SW-846)
all about EPA's dedication to maintain the SW-846 compendium
-
SW-846 Test Method 0010: Modified Method 5 Sampling Train
This method is applicable to the determination of Destruction and Removal Efficiency (DRE) of semivolatile Principal Organic Hazardous Compounds (POHCs) from incineration systems (PHS, 1967).
-
SW-846 Test Method 0011: Sampling for Selected Aldehyde and Ketone Emissions from Stationary Sources
This method is applicable to the determination of Destruction and Removal Efficiency (DRE) of the analytes listed in a table within the method.
-
SW-846 Test Method 0020: Source Assessment Sampling System (SASS)
This method is applicable to the preparation of semiquantitative estimates (within a factor of three) of the amounts and types of semivolatile organic and particulate materials that are discharged from incineration systems.
-
SW-846 Test Method 0023A: Sampling Method for Polychlorinated Dibenzo-p-Dioxin and Polychlorinated Dibenzofuran Emission From Stationary Sources
This method describes the sampling procedure to be used for determining stack emissions of polychlorinated dibenzo-p-dioxins (PCDDs) and polychlorinated dibenzofurans (PCDFs) from stationary sources.
-
SW-846 Test Method 0051: Midget Impinger HCl/Cl2 Emission Sampling Train
This method describes the collection of hydrogen chloride (HCl, CAS Registry Number 7647-01-0) and chlorine (Cl2, CAS Registry Number 7782-50-5) in stack gas emission samples from hazardous waste incinerators and municipal waste combustors.
-
8000 Series: Chromatographic Separation Methods
8000 Series: Chromatographic Separation Methods, Frequent questions
-
Status Table for the Test Methods for Evaluating Solid Waste: Physical/Chemical Methods Compendium (SW-846)
Table of all SW-846 methods and publication date. Also include are the details about the Chapter and supporting document publication dates
-
Energy Case Studies
Tips and resources for meeting Federal Green Challenge energy goals.
-
Documentation for the Waste Reduction Model
This page describes and provides links to all documentation files associated with EPA’s Waste Reduction Model. The page includes a brief summary of the chapters documenting the greenhouse gas emission and energy factors.
-
Documentation Chapters for Greenhouse Gas Emission, Energy and Economic Factors Used in the Waste Reduction Model
This document provides background documentation for the greenhouse gas and energy factors in EPA's Waste Reduction Model (WARM).