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BS ISO 15619:2013

Current

Current

The latest, up-to-date edition.

Reciprocating internal combustion engines. Measurement method for exhaust silencers. Sound power level of exhaust noise and insertion loss using sound pressure and power loss ratio

Available format(s)

Hardcopy , PDF

Language(s)

English

Published date

30-09-2013

€306.17
Excluding VAT

Foreword
Introduction
1 Scope
2 Normative references
3 Terms and definitions
4 Test environment
5 Instrumentation
6 Installation and operation of noise source under
   test for laboratory measurement
7 Measurement
8 Calculation
9 Information to be recorded
10 Test report
Annex A (normative) - Qualification procedures for the
        acoustic environment
Annex B (informative) - Measurement procedure for pressure
        loss
Annex C (normative) - Calculation of A-weighted sound power
        levels from frequency band levels
Annex D (normative) - Sound power level under reference
        meteorological conditions
Bibliography

Describes the measurement method and requirements for exhaust silencers which is installed on reciprocating internal combustion engines, including laboratory measurement site measurement.

Committee
MCE/14
DevelopmentNote
Supersedes 12/30219256 DC. (09/2013)
DocumentType
Standard
Pages
46
PublisherName
British Standards Institution
Status
Current
Supersedes

This International Standard specifies the measurement method and requirements for exhaust silencers which is installed on reciprocating internal combustion engines, including laboratory measurement and site measurement.

The following parameters are measured for laboratory measurement (engineering method):

  • the sound power level (A-weighted or in frequency bands) of exhaust noise using sound pressure, accuracy grade 2;

  • the insertion loss (A-weighted or in frequency bands) of exhaust silencers;

  • the power loss ratio of reciprocating internal combustion engines.

The following parameters are measured for site measurement and laboratory measurement (survey method):

  • the sound power level (A-weighted) of exhaust noise using sound pressure, accuracy grade 3;

  • the insertion loss (A-weighted) of exhaust silencers.

NOTE 1 The aim of laboratory measurement in measuring the sound power level of exhaust noise is accuracy grade2 (engineering method) result. When the correction for background noise and/or the environment conditions and/or the location of exhaust outlets cannot meet the requirements of the engineering method of this International Standard, then accuracy grade3 (survey method) result is obtained. The aim of site measurement in measuring the sound power level of exhaust noise in this International Standard is accuracy grade3 (survey method) result.

The laboratory measurement (engineering method) of this International Standard can be used to make acceptance tests and engineering measures. The site measurement and laboratory measurement (survey method) of this International Standard can be used to make comparative tests.

This International Standard applies to all exhaust silencers installed on reciprocating internal combustion engines falling within the field of application of ISO3046-1 and other exhaust silencers, if no suitable International Standard exists.

NOTE 2 Throughout the text, exhaust silencer is referred to as silencer and reciprocating internal combustion engine as engine.

1.1 Measurement uncertainty

1.1.1 Engineering method

The standard deviation of reproducibility is equal to or less than 1,5dB for A-weighted sound power levels. In one-third octave bands, it is equal to or less than 5dB from 50Hz to 80Hz, 3dB from 100Hz to 160Hz, 2dB from 200Hz to 315Hz, 1,5dB from 400Hz to 5000Hz, and 2,5dB from 6300Hz to 10000Hz. In octave bands, it is equal to or less than 5dB for 63Hz, 3dB for 125Hz, 2dB for 250Hz, 1,5dB from 500Hz to 4000Hz, and 2,5dB for 8000Hz.

1.1.2 Survey method

The standard deviation of reproducibility is equal to or less than 4,0dB for A-weighted sound power levels.

NOTE1 The standard deviations listed in 1.1 are associated with the test conditions and procedures defined in this International Standard and not with the noise source itself, including variations of installation and/or operation conditions. They arise in part from variations between measurement laboratories, changes in atmospheric conditions if outdoors, the geometry of the test room or outdoor environment, the acoustical properties of the reflecting plane, absorption at the test room boundaries if indoors, background noise, and the type and calibration of instrumentation. They are also due to variations in experimental techniques, including the size and shape of the measurement surface, measurement distances, number and location of microphone positions, sound source location, determination of environmental corrections, if any, and integration time. The standard deviations are also affected by errors associated with measurements taken in the near field of the source. Such errors depend upon the nature of the sound source, but generally increase for smaller measurement distances and lower frequencies (below 250Hz).

NOTE2 If several laboratories use similar facilities and instrumentation, the results of sound power determinations on a given source in those laboratories may be in better agreement than would be implied by the standard deviations of 1.1.

NOTE3 For a family of silencers, of similar size with similar sound power spectra and similar operating conditions, the standard deviations of reproducibility may be smaller than the values given in 1.1.

NOTE4 The standard deviations of reproducibility, as listed in 1.1, include the uncertainty associated with repeated measurements on the same noise source under the same conditions (for standard deviations of reproducibility). This uncertainty is usually much smaller than the uncertainty associated with interlaboratory variability.

NOTE5 The procedures of this International Standard and the standard deviations given in 1.1 are applicable to measurements on an individual silencer.

The measurement uncertainty depends on the standard deviation of reproducibility and on the degree of confidence that is desired. As examples, for a normal distribution of sound power levels, there is 90% confidence that the true value of the sound power level of a source lies within the range ±1,645σR of the measured value and a 95% confidence that it lies within the range ±1,960σR of the measured value.

NOTE6 For a normal distribution of sound power levels, there is 90% confidence that the probability of acceptance is 95% and a 95% confidence that the probability of acceptance is 97,5%.

Standards Relationship
ISO 15619:2013 Identical

ISO 3744:2010 Acoustics Determination of sound power levels and sound energy levels of noise sources using sound pressure Engineering methods for an essentially free field over a reflecting plane
ISO 3647:1976 Cinematography — Spindles for 16 mm motion-picture camera spools and projector reels — Dimensions
IEC 60942:2003 Electroacoustics - Sound calibrators
ISO 6926:2016 Acoustics Requirements for the performance and calibration of reference sound sources used for the determination of sound power levels
ISO 3046-1:2002 Reciprocating internal combustion engines Performance Part 1: Declarations of power, fuel and lubricating oil consumptions, and test methods Additional requirements for engines for general use
IEC 61260:1995 Electroacoustics - Octave-band and fractional-octave-band filters
ISO 3046-3:2006 Reciprocating internal combustion engines Performance Part 3: Test measurements

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