This European Standard describes a standard method for determining the PM10 or PM2,5 mass concentrations of suspendedparticulate matter in ambient air by sampling the particulate matter on filters and weighing them by means of a balance. Measurements are performed with samplers with inlet designs as specified in Annex A, operating at a nominal flow rate of 2,3 m3/h,over a nominal sampling period of 24 h. Measurement results are expressed in μg/m3, where the volume of air is the volume atambient conditions near the inlet at the time of sampling. The range of application of this European Standard is for 24 h measurements from approximately 1 μg/m3 (i.e. the limit of detection ofthe standard measurement method expressed as its uncertainty) up to 150 μg/m3 for PM10 and 120 μg/m3 for PM2,5. This European Standard describes procedures and gives requirements for the testing and use of so-called sequential samplers,equipped with a filter changer, suitable for extended stand-alone operation. Sequential samplers are commonly used throughout theEuropean Union for the measurement of concentrations in ambient air of PM10 or PM2,5. However, this European Standard does notexclude the use of single-filter samplers. This European Standard represents an evolution of earlier European Standards (EN 12341:1998 and 2014, EN 14907:2005). Newequipment procured shall comply fully with this European Standard. Older versions of these samplers, including those described in EN 12341:2014 Annex B, have a special status in terms of their use. These samplers can still be used for monitoring purposes and for ongoing quality control, provided that a well justified additionalallowance is made to their uncertainties This European Standard also provides guidance for the selection and testing of filters with the aim of reducing the measurementuncertainty of the results obtained when applying this European Standard.

PDF Catalog

PDF Pages	PDF Title
1	30478721
91	A-30443632
92	undefined
98	1 Scope 2 Normative references 3 Terms, definitions, symbols and abbreviations 3.1 Terms and definitions
102	3.2 Symbols and abbreviations
104	4 Principle 4.1 Description of the standard measuring principle 4.2 Initial use and procedures for ongoing QA/QC 4.3 Evaluation of measurement uncertainty 5 Equipment, facilities and testing 5.1 Sampling system components and programme for type testing 5.1.1 General
108	5.1.2 Sampler design 5.1.3 Standard inlet design
109	5.1.4 Connecting pipe work 5.1.5 Filter holder and filter 5.1.5.1 Filter holder
110	5.1.5.2 Filter 5.1.6 Flow control system
112	5.1.7 Temperature sensors 5.1.8 Ambient pressure sensor 5.1.9 Sampling period 5.1.10 Leak tightness of the sampling system 5.1.10.1 General
113	5.1.10.2 Low pressure method 5.1.10.3 Volumetric method
114	5.1.11 Storage conditions 5.1.12 Recording of operational parameters
115	5.1.13 Effect of failure of mains power 5.1.14 Effect of ending sampling early due to filter clogging 5.1.15 Firmware, software and manual versions
116	5.2 Sampling system components and programme for type testing
117	5.3 Field tests for type testing 5.3.1 General 5.3.2 Performance tests
118	5.4 Type testing report 6 Filter conditioning, sampling, weighing facilities and weighing procedures 6.1 General
120	6.2 Weighing Facilities 6.2.1 Weighing room 6.2.2 Balance 6.3 Filter conditioning and weighing prior to sampling
121	6.4 Sampling procedure 6.4.1 Filter cassette loading 6.4.2 Filter sampling 6.4.3 Sample storage and transport procedures 6.5 Filter conditioning and weighing after sampling
122	6.6 Weighing room procedures 6.7 Filter blanks for ongoing quality control 6.7.1 General 6.7.2 Weighing room blanks
123	6.7.3 Field blanks 7 Ongoing quality control 7.1 General 7.2 Frequency of calibrations, checks and maintenance
124	7.3 Recording of operational parameters
125	7.4 Maintenance of the sampling system 7.5 Checks of sampler sensors 7.6 Calibration of sampler sensors
126	7.7 Checks of the sampler flow rate 7.8 Calibration of the sampler flow rate 7.9 Leak check of the sampling system 7.10 Checks of weighing facility sensors 7.11 Calibration of weighing facility sensors 7.12 Balance
127	7.13 Check of the accuracy of sampler clock 8 Expression of results 9 Performance characteristics of the method 9.1 General 9.2 GUM concept
129	9.3 Individual uncertainty sources 9.3.1 General 9.3.2 Collected particulate mass 9.3.2.1 Deviation of size selection performance from designated characteristic 9.3.2.2 Deposition losses in the connecting pipe work 9.3.2.3 Filter collection efficiency
130	9.3.2.4 Loss of semi-volatile particulate matter between collection and weighing 9.3.2.5 Change in filter mass due to water content 9.3.2.6 Variation in mass of particulate matter due to water content
131	9.3.2.7 Changes in buoyancy effects between the unsampled and sampled weighings 9.3.2.8 Balance uncertainty, span and zero drift 9.3.2.9 Effects of static electrical forces during weighing 9.3.2.10 Contamination or loss of filter material between unsampled and sampled weighings 9.3.2.11 Artefacts due to interactions between the filter material and gases 9.3.2.12 Flow rate (φa)
132	9.3.3 Time (t) 9.3.4 Uncertainty budget
134	9.4 Expanded uncertainty vs. EU Data Quality Objectives
135	Annex A (normative)Design drawing of standard inlet for the sampling of PM10 and PM2,5
136	Annex B (informative)Scheme of PM standard sampler
137	Annex C (informative)Suitability tests for filters C.1 Particle retention test C.2 Filter material integrity test C.3 Base mass reproducibility test C.4 Static charging test
138	C.5 Water sorption test
139	Annex D (normative)Initial suitability testing of weighing facilities D.1 Accuracy and stability of temperature and relative humidity D.2 Accuracy and stability of balance D.3 Accuracy and precision of the weighing procedure
140	Annex E (informative)Results of experimental work
142	Annex F (informative)Impactor efficiency
144	Annex G (normative)Elements of type testing report
146	Annex H (informative)Example for uncertainty budget calculation H.1 General H.2 Calculation using data from prescribed type testing
147	H.3 Measurement uncertainty derived from ongoing field Quality Control
150	Annex I (informative)Technical changes in EN 12341 with respect to version 2014 [21]

Status	Definitive
Pages	154
Publication Date	2023-09-05
ISBN	978 0 539 28306 8
Standard Number	BS EN 12341:2023 – TC
Title	Tracked Changes. Ambient air. Standard gravimetric measurement method for the determination of the PM10 or PM2,5 mass concentration of suspended particulate matter
Descriptors	Equivalence, Testing conditions, Concentration, Comparative tests, Field testing, Flow rates, Sampling equipment, Sampling methods, Air, Measuring instruments, Data handling, Mathematical calculations, Dimensions, Bibliography, Air pollution, Design, Filters, Weight measurement, Particulate materials, Particulate air pollutants, Performance, Test equipment, Quality, Calibration
Publisher	BSI
Committee	EH/2/3
ICS Codes	13.040.20 - Ambient atmospheres


PDF Format	Searchable	Printable	Preview Now

BS EN 12341:2023 – TC

PDF Catalog

Related products

BS EN ISO 14341:2020 – TC

BS EN 12941:2023 – TC:2024 Edition

BS EN 12331:2021 – TC:2022 Edition

BS EN ISO 12241:2022 – TC

BS EN 12841:2024 – TC