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ASTM D6266 - STANDARD TEST METHOD FOR DETERMINING THE AMOUNT OF VOLATILE ORGANIC COMPOUND (VOC) RELEASED FROM WATERBORNE AUTOMOTIVE COATINGS AND AVAILABLE FOR REMOVAL IN A VOC CONTROL DEVICE (ABATEMENT) Organization: ASTM
Date: 2000-05-10
Description: Symbols and calculations from several other methods that determine VOC: Practice D3960, EPA 450/3-88-018 and EPA 450/3-84-019 have been incorporated into this test method.
ASTM D3960 - STANDARD PRACTICE FOR DETERMINING VOLATILE ORGANIC COMPOUND (VOC) CONTENT OF PAINTS AND RELATED COATINGS Organization: ASTM
Date: 2005-07-01
Description: NOTE 2-Information on the US EPAdefinition of VOC and a list of the current US EPA approved exempt volatile compounds which have been used in coatings, are provided in Appendix X3.
ASHRAE - LO-09-090 - AN IMPROVEMENT FOR DYNAMIC TWIN CHAMBER METHOD TO MEASURE VOC DIFFUSION COEFFICIENT AND PARTITION COEFFICIENT Organization: ASHRAE
Date: 2009-01-01
Description: INTRODUCTION Many building materials emit volatile organic compounds (VOCs), which tend to cause sick building syndrome (SBS) (EPA US, 1990; Little et al., 1994; Meininghaus et al., 1999; Haghighat et al., 2005; Xiong et al., 2008).
API 4488 - PRELIMINARY EVALUATION OF THE US EPA PROPOSED OZONE PRECURSOR POINT SOURCE SCREENING TECHNIQUE REPORT ON TASK 1 OF THE COMPREHENSIVE EVALUATION PLAN - OUT OF PRINT Organization: API
Date: 1988-01-01
Description: EPA has proposed a screening technique for predicting the impact of point sources of ozone precursor emissions, i.e. volatile organic compounds (VOC) and nitrogen oxides (NOx) on ambient ozone concentrations.
API - PUBL 4515 - USE OF REACTIVITY FACTORS TO PREDICT OZONE IMPACTS OF METHANOL FUEL Organization: API
Date: 1990-01-01
Description: Although these figures appear impressive, the portion of the VOC inventory resulting from mobile sources is steadily decreasing so that reductions in mobile-source VOC emissions will have decreasing impacts on ozone levels. Taking this into account, EPA projects that the overall VOC reduction for nine cities with the severest ozone nonattainment problems would average only 1.5 percent by the year 2005, with a steady-state reduction averaging 3.3 percent by the year 2015.
FMVSS - 49 CFR 571 72 FR 14729 - APPROVAL AND PROMULGATION OF AIR QUALITY IMPLEMENTATION PLANS; OHIO; CONTROL OF GASOLINE VOLATILITY (PROPOSED RULES) - PROPOSED RULES Organization: FMVSS
Date: 2007-03-29
Description: Ohio has developed these fuel requirements to reduce emissions of volatile organic compounds (VOC) in accordance with the requirements of the Clean Air Act (CAA). EPA is proposing to approve Ohio's fuel requirements into the Ohio SIP because EPA has found that the requirements are necessary for the Cincinnati and Dayton areas to achieve the 8-hour ozone national ambient air quality standard (NAAQS).
ASTM D5328 - STANDARD TEST METHOD FOR VOLATILE ORGANIC COMPOUND (VOC40) CONTENT OF NON-HEATSET PASTE PRINTING INK SYSTEMS AT 40 DEGREES C Organization: ASTM
Date: 1992-11-15
Description: The temperature of heating is 110°C in several related test methods, for example, D 2369, D 4713 and EPA Reference Method 24. VOC determinations are reviewed in ASTM Manual Series MNL 4.
NPFC - SD-14 - LISTING OF TOXIC CHEMICALS, HAZARDOUS SUBSTANCES, AND OZONE-DEPLETING CHEMICALS Organization: NPFC
Date: 1994-08-01
Description: Also, specifications should state the maximum VOC content allowed. The list contained herein is from the ‘EPA Final Rule Defining Volatile Organic Compound (VOC)," from the Federal Register, Vol. 57, No. 22, February 3, 1992, to be added to 40 CFR Part 51 under 51.100, Definitions.
SAE/TP - 2007-01-3268 - MICROBIAL CHARACTERIZATION OF COMPACTED VS. NON-COMPACTED SIMULATED ORION CREW VEHICLE FOOD TRASH COMPARTMENT WASTE Organization: SAE/TP
Date: 2007-07-09
Description: A second study with replication (n=3) and 2 weeks post-treatment storage was conducted. Microbiological parameters and VOC analysis by EPA TO15r compendium method were measured. Author(s): Name: R.
GMW15654 - DETERMINATION OF VOLATILE AND SEMI-VOLATILE ORGANIC COMPOUNDS FROM VEHICLE INTERIOR AIR - ISSUE 3; ENGLISH Organization: GMW
Date: 2013-12-01
Description: The analytical instrumentation described herein is also applicable for GMW15634 to determine the sources of VOCs and SVOCs in interior materials. This test procedure was modified from EPA TO-17. This test procedure complements GMW15600.
NPFC - TT-P-645 - PAINT, ALKYD TYPE, FORMULA NUMBER 84 Organization: NPFC
Date: 2013-06-18
Description: The paint contains a maximum of 250 grams of volatile organic compounds (VOC) per liter (2.08 pounds of VOC per gallon). This paint is to be used as supplied with no thinning.
NPFC - MIL-DTL-24607 - ENAMEL, INTERIOR, NONFLAMING (DRY), CHLORINATED ALKYD RESIN, SEMIGLOSS Organization: NPFC
Date: 2013-09-10
Description: This specification covers enamel that has been formulated to comply with air pollution regulations which allow a maximum volatile organic compound (VOC) content of 250 grams of solvent minus water per liter of paint (2.08 lb/gal) as delivered.
ASTM D5466 - STANDARD TEST METHOD FOR DETERMINATION OF VOLATILE ORGANIC COMPOUNDS IN ATMOSPHERES (CANISTER SAMPLING METHODOLOGY) Organization: ASTM
Date: 2015-12-01
Description: 2 This test method is based on EPA Compendium Method TO-14, “The Determination of Volatile Organic Compounds (VOCs) in Ambient Air Using SUMMA Passivated Canister Sampling and Gas Chromatographic Analysis,” May 1988.
NPFC - MIL-PRF-24596 - COATING COMPOUNDS, NONFLAMING, FIRE-RESISTANT Organization: NPFC
Date: 2011-02-15
Description: This specification covers four classes and four grades of nonflaming, fire-resistant coatings which are suitable for use where volatile organic compound (VOC) content air pollution regulations apply for solvents in paints and for application over certain selected surfaces.
NPFC - MIL-DTL-1115 - ENAMEL, INTERIOR, ALKYD, WHITE (FORMULA NO. 30) Organization: NPFC
Date: 2013-09-10
Description: This specification covers enamel that has been formulated to comply with air pollution regulations which allow a maximum volatile organic compound (VOC) content of 250 grams of solvent minus water per liter of paint (2.08 lb/gal) as delivered.
ASTM D7270 - STANDARD GUIDE FOR ENVIRONMENTAL AND PERFORMANCE VERIFICATION OF FACTORY-APPLIED LIQUID COATINGS Organization: ASTM
Date: 2007-02-01
Description: Thus it may be used to evaluate these liquid coatings to verify their volatile organic compound (VOC) and organic hazardous air pollutant (HAP) content as well as basic performance properties.
NPFC - MIL-DTL-15090 - ENAMEL, EQUIPMENT, LIGHT GRAY (NAVY FORMULA NO. 111) Organization: NPFC
Date: 2013-09-10
Description: This specification covers enamel that has been formulated to comply with air pollution regulations which allow a maximum volatile organic compound (VOC) content of 250 grams of solvent minus water per liter of paint (2.08 lb/gal) as delivered.
API ATMOSPHERIC EMISSIONS - ATMOSPHERIC EMISSIONS FROM OILY WASTE LANDSPREADING - FINAL REPORT Organization: API
Date: 1980-04-01
Description: With this study, Suntech, under sponsorship of the American Petroleum Institute (API), has carried out an initial attempt to quantify these volatile organic carbon (VOC) emissions from two refinery wastes (API separator sludge and a centrifuge sludge).
API PUBL 4713 - TEST REPORT: FLUIDIZED CATALYTIC CRACKING UNIT AT A REFINERY (SITE A); CHARACTERIZATION OF FINE PARTICULATE EMISSION FACTORS AND SPECIFICATION PROFILES FROM STATIONARY PETROLEUM INDUSTRY COMBUSTION SOURCES Organization: API
Date: 2002-03-01
Description: OBJECTIVES: The specific objectives of this test were to: Primary objectives • Compare PM2.5 mass measured using an in-stack filter and iced impinge train (EPA Method 201A/202) and PM2.5 mass measured using a dilution tunnel; • Develop emission factors and speciation profiles for organic aerosols and PM2.5 mass; • Characterize sulfate (SO4=), nitrate (NO3-), ammonium (NH4+), chloride (Cl-) elemental carbon (EC) and organic carbon (OC) in particulate matter collected on filter media after stack gas dilution; • Characterize semivolatile organic compounds (SVOC) in stack gas samples after dilution; • Characterize key gaseous secondary particle precursors in stack gas samples: volatile organic compounds (VOC) with carbon number of 7 and above; sulfur dioxide (SO2); sulfur trioxide (SO3); ammonia (NH3); and oxides of nitrogen (NOX); • Document the relevant process design characteristics and operating conditions during the test.
API TR 2574 - FIELD TESTING PROTOCOL FOR CHARACTERIZATION OF TOTAL GASEOUS NONMETHANE ORGANICS (TGNMO), METHANE, AND ETHANE IN AIR–VAPOR MIXTURE DURING FILLING OF A CARGO VESSEL WITH CRUDE OIL - FIRST EDITION Organization: API
Date: 2016-08-01
Description: Applicability This method applies to the measurement of volatile organic compounds (VOC) as total gaseous nonmethane organics (TGNMO), methane and ethane from the air–vapor mixture that is expelled during filling of a cargo vessel with crude oil.

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