DIN Standards Committee Safety Design Principles
DIN EN 15051-1
Workplace exposure - Measurement of the dustiness of bulk materials - Part 1: Requirements and choice of test methods; German version EN 15051-1:2013
Exposition am Arbeitsplatz - Messung des Staubungsverhaltens von Schüttgütern - Teil 1: Anforderungen und Auswahl der Prüfverfahren; Deutsche Fassung EN 15051-1:2013
Overview
The DIN EN 15051 standard series establishes test methods that classify the dustiness, in terms of health-related fractions, of solid bulk materials. The dustiness classification is intended to provide users (for instance, manufacturers, producers, occupational hygienists and workers) with information on the potential for dust emissions when the bulk material is handled or processed in workplaces. It provides the manufacturers of bulk materials with information that can help to improve their products. It allows the users of the bulk materials to assess the effects of pre-treatments, and also to select less dusty products, if available. Although this document does not discuss the analysis of dust released from bulk materials (except in terms of health-related fractions), the test method produces samples with the potential for chemical analysis of the contents. The first part of the standard series specifies the environmental conditions, the sample handling and analytical procedures and the method of calculating and presenting the results. Reasons are given for the need for more than one method and advice is given on the choice of method to be used. The standard has been prepared in CEN/TC 137 "Assessment of workplace exposure to chemical and biological agents" (secretariat: DIN). The responsible German standardization committee is Working Group NA 095-03-01-01 AK "Staub" ("Particulate matter") of Working Committee "Messstrategien und Anforderungen an Messverfahren"("Measurement strategies and requirements for test methods") of NASG.
Document: references other documents
Responsible national committee
NA 095-03-01-01 AK - Particulate matter