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ASTM F 1977 : 2004 : R2017

Superseded

Superseded

A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.

View Superseded by

Standard Test Method for Determining Initial, Fractional, Filtration Efficiency of a Vacuum Cleaner System

Available format(s)

Hardcopy , PDF

Superseded date

28-06-2022

Superseded by

ASTM F 1977 : 2022

Language(s)

English

Published date

09-03-2017

$135.86
Including GST where applicable

CONTAINED IN VOL. 15.08, 2017 Describes the initial, filtration, fractional efficiency of commercial and household tank-type canister, stick, upright, handheld vacuum cleaner systems.

Committee
F 11
DocumentType
Test Method
Pages
17
ProductNote
Reconfirmed 2017
PublisherName
American Society for Testing and Materials
Status
Superseded
SupersededBy
Supersedes

1.1This test method may be used to determine the initial, fractional, filtration efficiency of household and commercial canister (tank-type), stick, hand-held, upright, and utility vacuum cleaner systems.

1.1.1Water-filtration vacuum cleaners which do not utilize a replaceable dry media filter located between the water-based filter and cleaning air exhaust are not included in this test method. It has been determined that the exhaust of these vacuum cleaners is not compatible with the specified discrete particle counter (DPC) procedure.

1.2The initial, fractional, filtration efficiencies of the entire vacuum cleaner system, at six discrete particle sizes (0.3, 0.5, 0.7, 1.0, 2.0, and >3 μm), is derived by counting upstream challenge particles and the constituent of downstream particles while the vacuum cleaner system is being operated in a stationary test condition.

1.3The vacuum cleaner system is tested at the nozzle with the normal airflow rate produced by restricting the inlet to the nozzle adapter with the 11/4-in. orifice.

1.4The vacuum cleaner system is tested with a new filter(s) installed, and with no preliminary dust loading. The fractional efficiencies determined by this test method shall be considered initial system filtration efficiencies. The filters are not changed between test runs on the same cleaner.

1.5Neutralized potassium chloride (KCl) is used as the challenge media in this test method.

1.6One or two particle counters may be used to satisfy the requirements of this test method. If using one counter, flow control is required to switch between sampling the upstream and downstream air sampling probes.

1.7To efficiently utilize this test method, automated test equipment and computer automation is recommended.

1.8Different sampling parameters, flow rates, and so forth, for the specific applications of the equipment and test procedure may provide equivalent results. It is beyond the scope of this test method to define those various possibilities.

1.9This test method is limited to the test apparatus, or its equivalent, as described in this document.

1.10This test method is not intended or designed to provide any measure of the health effects or medical aspects of vacuum cleaning.

1.11This test method is not intended or designed to determine the integrity of HEPA filtration assemblies used in vacuum cleaner systems employed in nuclear and defense facilities.

1.12The inch-pound system of units is used in this test method, except for the common usage of the micrometer, μm, for the description of particle size which is a SI unit.

1.13This 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 and health practices and determine the applicability of regulatory limitations prior to use.

ASTM F 3150 : 2018 Standard Specification for HEPA Filtration System Performance of Residential and Commercial Vacuum Cleaners

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ASTM F 558 : 2021 Standard Test Method for Measuring Air Performance Characteristics of Vacuum Cleaners
ASTM D 3154 : 2000 Standard Test Method for Average Velocity in a Duct (Pitot Tube Method)
ASTM D 1193 : 1977 : R1983 : EDT 1 Standard Specification for Reagent Water
ASTM D 3154 : 2014 : REDLINE Standard Test Method for Average Velocity in a Duct (Pitot Tube Method)
ASTM F 395 : 2019 Standard Terminology Relating to Vacuum Cleaners
ASTM D 1356 : 2017 Standard Terminology Relating to Sampling and Analysis of Atmospheres
ASTM D 1356 : 2015 : REV B Standard Terminology Relating to Sampling and Analysis of Atmospheres
ISO/IEC Guide 25:1990 General requirements for the competence of calibration and testing laboratories
ASTM D 1193 : 2006 : R2011 Standard Specification for Reagent Water
ASTM D 3154 : 2014 Standard Test Method for Average Velocity in a Duct (Pitot Tube Method)
ASTM D 1356 : 2014 : REV A Standard Terminology Relating to Sampling and Analysis of Atmospheres
ASTM D 1193 : 1991 Standard Specification for Reagent Water
ASTM D 1356 : 2015 : REV A Standard Terminology Relating to Sampling and Analysis of Atmospheres
ASTM D 1356 : 2005 : R2010 Standard Terminology Relating to Sampling and Analysis of Atmospheres
ASTM F 50 : 2012 : R2015 Standard Practice for Continuous Sizing and Counting of Airborne Particles in Dust-Controlled Areas and Clean Rooms Using Instruments Capable of Detecting Single Sub-Micrometre and Larger Particles
ASTM D 1356 : 2020 Standard Terminology Relating to Sampling and Analysis of Atmospheres
ASTM D 1356 : 2000 : REV A Standard Terminology Relating to Sampling and Analysis of Atmospheres
ASTM D 1193 : 1970 Standard Specification For Reagent Water
ASTM D 1356 : 2014 : REV B Standard Terminology Relating to Sampling and Analysis of Atmospheres
ASTM D 1356 : 2014 Standard Terminology Relating to Sampling and Analysis of Atmospheres
ASTM D 1193 : 2006 Standard Specification for Reagent Water
ASTM D 1193 : 1999 Standard Specification for Reagent Water
ASTM D 1356 : 2005 Standard Terminology Relating to Sampling and Analysis of Atmospheres
ASTM D 1193 : 2006 : R2018 Standard Specification for Reagent Water
ASTM F 50 : 2021 Standard Practice for Continuous Sizing and Counting of Airborne Particles in Dust-Controlled Areas and Clean Rooms Using Instruments Capable of Detecting Single Sub-Micrometre and Larger Particles

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