Miljö- och hälsoskydd. Säkerhet

The Assessment Procedures defined in this document are intended to ensure the repeatability,
reproducibility, and objectivity of assessments against the O-TTPS. Though the primary audience for this document is the assessor, an Information Technology (IT) provider who is undergoing assessment or preparing for assessment, may also find this document useful.

This document specifies the general requirements for city service platform for public health emergencies. It also specifies the requirements in terms of data, functions, security and privacy protection.

Detta dokument specificerar kraven som gäller för ett ledningssystem för arbetsmiljö och ger vägledning om hur det ska användas för att göra det möjligt för organisationer att skapa säkra och hälsosamma arbetsplatser
genom att förhindra arbetsrelaterade skador och ohälsa samt genom att proaktivt förbättra sin arbetsmiljöprestanda.
Detta dokument är tillämpligt för organisationer som vill upprätta, införa och underhålla ett ledningssystem för arbetsmiljö i syfte att förbättra arbetsmiljön, eliminera faror och minimera arbetsmiljörisker (inklusive
systembrister), dra fördel av arbetsmiljömöjligheter och hantera avvikelser hos ledningssystem för arbetsmiljö som är kopplade till deras verksamhet.
Detta dokument hjälper organisationer att uppnå avsedda resultat med ledningssystemet för arbetsmiljö.
I överensstämmelse med organisationens arbetsmiljöpolicy, innefattar avsedda resultat med ledningssystemet för arbetsmiljö:
a) ständig förbättring av arbetsmiljöprestanda;
b) uppfyllande av tillämpliga legala krav och andra krav;
c) att arbetsmiljömål uppnås.
Detta dokument är tillämpligt på alla organisationer, oavsett storlek, typ och verksamhet. Det är tillämpligt på arbetsmiljörisker som organisationen kan styra över, med hänsyn till faktorer och förutsättningar som organisationen bedriver sin verksamhet under samt dess arbetstagares och andra intressenters behov och förväntningar.
Detta dokument innehåller inga specifika kriterier för arbetsmiljöprestanda och är inte föreskrivande vad gäller utformningen av ett ledningssystem för arbetsmiljö.
Detta dokument gör det möjligt för en organisation att genom sitt ledningssystem för arbetsmiljö, integrera andra hälso- och säkerhetsaspekter, till exempel arbetstagarnas välbefinnande.
Detta dokument tar inte upp frågor som produktsäkerhet, egendomsskada eller miljöpåverkan, utöver riskerna för arbetstagare och andra intressenter.
Hela eller delar av detta dokument kan användas för att systematiskt förbättra arbetsmiljöledningen.
Anspråk på överensstämmelse med denna standard kan dock inte accepteras om inte alla dess krav införts i organisationens ledningssystem för arbetsmiljö och uppfylls utan undantag.

This document specifies requirements and test methods for materials, construction and performance of components intended for use in powder firefighting systems complying with EN 12416-2:2001+A1:2007.
The components covered are as follows:
— powder containers
— expellant gas container assemblies
— pressure regulators and gauges
— actuators
— main isolating valves and selector valves
— nozzles.
The components are suitable for powder firefighting systems for general use in buildings and other construction works. In areas with a risk of explosion, earthquake zones, extreme environmental conditions e.g. marine, offshore, mining or aircraft additional considerations apply.
This document covers components for use in powder extinguishing systems complying with EN 12416-2:2001+A1:2007. It does not cover, for example, pipes and fittings which are covered by more general standards for which requirements and recommendations are given in EN 12416-2:2001+A1:2007. Nor does it cover fire detectors or electrical control and indicating equipment.

This document specifies the safety requirements for the integration of machinery into a system. It gives requirements and recommendations for inherently safe design, safeguarding and complementary protective measures, and information for use of an integrated manufacturing system (IMS).
NOTE In the context of this document, the term system refers to an IMS which can also collaborate with other domains within the supply chain(s) of an enterprise (e.g., smart manufacturing). See also 5.2.2.
This document is not intended to cover safety aspects of individual machines and equipment that can be covered by standards specific to those machines and equipment. Therefore, it deals only with those safety aspects for the safety-relevant interconnection of the machines and components. Where
component machines of an integrated machinery system are operated separately or individually, the safety requirements of the relevant safety standards for these machines and equipment apply.
This document is also applicable when a modification of an existing IMS results in a new configuration, function, capability or location.
This document deals with the significant hazards, hazardous situations or hazardous events when used as intended and under specified conditions of misuse which are reasonably foreseeable. This document also provides requirements for IMS used in applications as following, but does not cover the hazards related to
— underground use,
— nuclear environments,
— potentially explosive environments,
— hazards due to the lifting of persons,
— use of IMS in environments with hazardous ionizing and non-ionizing radiation levels,
— when the public have access.
Emission of acoustic noise could be identified to be a significant hazard but the reduction of noise emissions is not covered in this document.

This document specifies the safety requirements for the integration of machinery into a system. It gives requirements and recommendations for inherently safe design, safeguarding and complementary
protective measures, and information for use of an integrated manufacturing system (IMS).
NOTE In the context of this document, the term system refers to an IMS which can also collaborate with other domains within the supply chain(s) of an enterprise (e.g., smart manufacturing). See also 5.2.2.
This document is not intended to cover safety aspects of individual machines and equipment that can be covered by standards specific to those machines and equipment. Therefore, it deals only with those safety aspects for the safety-relevant interconnection of the machines and components. Where
component machines of an integrated machinery system are operated separately or individually, the safety requirements of the relevant safety standards for these machines and equipment apply.
This document is also applicable when a modification of an existing IMS results in a new configuration, function, capability or location.
This document deals with the significant hazards, hazardous situations or hazardous events when used as intended and under specified conditions of misuse which are reasonably foreseeable. This document also provides requirements for IMS used in applications as following, but does not cover the hazards related to
— underground use,
— nuclear environments,
— potentially explosive environments,
— hazards due to the lifting of persons,
— use of IMS in environments with hazardous ionizing and non-ionizing radiation levels,
— when the public have access.
Emission of acoustic noise could be identified to be a significant hazard but the reduction of noise emissions is not covered in this document.

This document provides guidance on key aspects of remediation techniques and their implementation.
It briefly describes principles, the main characteristics and the advantages and limitations to be considered in the selection within an option appraisal of individual or combinations of in-situ and onsite remediation techniques, including:
— the type of contaminants to be dealt with;
— current and/or intended site use;
— local legal, policy, socio-economic and environmental contexts
It follows the principles for sustainable remediation in ISO 18504.
The scope of this document is restricted to the remediation of contaminated sites, i.e. where soil, or soil gas, ambient air or groundwater are contaminated. It identifies which phase/matrix can be targeted
by a technique, e.g. fluid, (groundwater, gas, non-aqueous phase) or solid and which contaminant it can applied to. The document also provides information on hazards that can be associated with the implementation of a remediation.
This document does not provide:
— an exhaustive list of remediation techniques;
— guidance on sites contaminated with radioactive substances, pathogenic or infectious agents, or “pyrotechnic devices (e.g. unexploded ordnances)”;
— guidance on ex-situ techniques that are set up off-site;
— a framework that covers all individual situations; or prescribe which technique(s) to use in a specific context.

This part of ISO/IEC 80079 covers the technical requirements necessary to avoid or minimize the significant hazards listed in Clause 4, which could occur during normal operation, maintenance or foreseeable malfunction of reciprocating internal combustion engines intended for use in explosive atmospheres including - Group I EPL Mb for use in underground workings susceptible to firedamp and/or combustible dust, - Group II EPL Gb and Gc for use in potentially explosive atmospheres of flammable gas and vapour and - Group III EPL Db and Dc for use in potentially explosive atmospheres of combustible dust. This part of ISO/IEC 80079 includes those tests of the engine and its ancillary devices that are required to verify compliance. This part of ISO/IEC 80079 applies to reciprocating internal combustion engines with compression ignition and spark ignition. This part of ISO/IEC 80079 does not define requirements relating to the driven machinery and equipment. This part of ISO/IEC 80079 does not apply - to flammable gas and vapour atmospheres containing carbon disulphide (CS2) and/or ethylene oxide (C2H4O) due to special properties of these gases; - to explosive mixtures of vapours and gases, which tend to self-decompose (e.g. acetylene) or which are chemically unstable.This International standard does not apply to engines used in areas for the processing manufacture or storage of explosives; - to gasoline engines and all other liquid injection spark ignited engines. This part of ISO/IEC 80079 solely deals with explosion protection requirements. Requirements on emissions are not covered by this standard. General safety requirements are not included in this International Standard. NOTE 1 General safety requirements i.e. those common to internal combustion engines, are covered for the EU in EN 1679-1:1998+A1:2011. This part of ISO/IEC 80079 does not specify requirements for safety, other than those directly related to the risk of ignition which may then lead to an explosion.The standard atmospheric conditions (relating to the explosion characteristics of the atmosphere) under which it may be assumed that engine can be operated are: - temperature -20 °C to +40 °C; - pressure 80 kPa (0,8 bar) to 110 kPa (1,1 bar); and - air with normal oxygen content, typically 21 % v/v. Such atmospheres can also exist inside the engine. In addition, the external atmosphere can be drawn inside the engine by natural breathing produced as a result of fluctuations in the engine's internal operating pressure, and/or temperature. NOTE 2 It is considered that −20 °C to +40 °C is appropriate for most engines. However for equipment designed for outside this range IEC/TS 60079-43 should be considered. NOTE 3 The requirements of this standard can also be helpful for the design, construction, testing and marking of engine intended for use in atmospheres outside the validity range stated above. In this case however, the ignition hazard assessment, ignition protection provided, additional testing (if necessary), manufacturer’s technical documentation and instructions to the user, should clearly demonstrate and indicate the engine's suitability for the conditions it may encounter. It should also be recognized that changes in temperature and pressure can have a significant influence on characteristics of the explosive atmosphere, such as ignitability (see Annex I). NOTE 4 Reciprocating internal combustion engines are not considered as pressure vessels.

This standard specifies the requirements for protective gloves to protect the hairdressers especially the risk against micro-organisms and dangerous chemicals and defines terms to be used.

This document EN 13819-1 specifies physical test methods for hearing protectors. The purpose of these tests is to enable assessment of the performance of the hearing protector as specified in the appropriate product standard.

This document specifies requirements on construction, design, performance, marking and user information for earplugs.
In particular, it specifies requirements regarding the sound attenuation of the earplugs, measured in accordance with EN ISO 4869-1:2018.
This document applies to earplugs designed for users who are able to follow supplied instructions and understand the related risks, can fit the earplugs correctly and can give feedback on the performance.
Ergonomic aspects are addressed by taking into account, within the requirements, the interaction between the user, the device and where possible the working environment in which the device is likely to be used (see Annex ZA and EN 458).

This document specifies requirements and tests methods for deposit systems, and classifies the systems according to their burglary resistance and their resistance to the theft of deposits.
This document comprises two types of deposit system:
— Night safes which provide depositing services for the customers of financial institutions without giving access to the content of the night safe.
— Deposit safes which enable the personnel of a company to place money or valuables in safe custody without giving access to the content of the deposit safe. The installation condition for deposit safe according to this document is that the depositing functions are installed inside the premises of the company and are only disposable for the personnel of the company.
NOTE Parts of a deposit system are a receiving unit, an input unit and in some cases, a chute.
This document includes design requirements for deposit systems controlled by programmable controllers and for the software for these. Controller hardware testing is restricted to mechanical or electromechanical attacks of electric motors, sensors, coils and similar devices; but software testing as attempts to influence controller software or controller hardware is not part of this document.
Deposit systems can have devices for functions such as user identification and/or counting and registration of money. Tests of and requirements for classification of such functions are not included.
This document does not cover protection of persons using the deposit system or the prevention of fraud committed by operators of the deposit system.

This document provides requirements for label information about chemicals used in product manufacture, particularly potentially allergenic substances employed and remaining in medical gloves. It also provides information on extraction media, methods of extraction and quantitative assay of residual chemicals.
This document does not provide information on the allergenic potential or safety to the user of any product. This is expected to be assessed in the light of all available toxicity and biocompatibility data on the products concerned as part of a risk management process.

This specification describes a methodology for calculating the rate of carbon emissions for a software system; that is, its SCI score. The purpose of this score is to increase awareness and transparency of an
application's sustainability credentials. The score will help software practitioners make better, evidence-based decisions during system design, development, and deployment, that will ultimately minimize carbon emissions. A reliable, consistent, fair and comparable measure allows targets to be defined during development and progress to be tracked.

This document specifies a set of principles and rules that algae producers, algae products industries, laboratories or other entities that collect algae and algae products samples can follow for the definition of their own sampling programs and sampling protocols.
In the context of this document, algae are a functional group that include microalgae, macroalgae, cyanobacteria and Labyrinthulomycetes.
As algae and their production processes are so diverse, this document does not define a specific sampling program and/or a specific sampling protocol. Instead, this document specifies the aspects that can be considered when defining one’s own sampling program and protocol.
This document describes when, where and how to draw a representative sample. For guidance on sample preparation of dry and wet samples of micro- and macroalgae, and algae products, please refer to EN 17605.
This document is intended to be used for the collection of samples for lot characterization for commercial or legal/regulatory purposes. However, this document can also be used for any type of sampling of algae, including samples for quality control during production.

This part of EN 1366 specifies a test method for determining the fire resistance of smoke extraction ducts that are used for single compartment applications only. In such applications, the smoke extraction system is only intended to function up to flashover (typically 600 °C).
This method of test is only suitable for ducts constructed from non-combustible materials (euro class A1 and A2-s1, d0).
It is applicable only to four sided and circular ducts. One-, two- and three-sided ducts are not covered. This standard is applicable only for the standard sizes or smaller as described.
This test method of part 9 is applicable only to smoke extraction ducts that do not pass into other fire compartments. For smoke extraction ducts that pass into other compartments, the method of test described in EN 1366-8 is used.
The smoke extraction duct is part of the smoke extraction system which also includes smoke control dampers and smoke extract fans.

This document specifies a test method for determining the fire resistance of smoke extraction ducts. It is applicable only to smoke extraction ducts that pass through another fire compartment from the fire compartment to be extracted in case of fire. It represents fire exposure of a fully developed fire.
This method of test is only applicable to ventilation ducts with the following classification according to EN 13501-3:
— fire from inside and outside i ↔ o;
— applicable to a pressure difference up to 500 Pa;
NOTE 1 Requires that the duct A test(s) has been preformed with an under-pressure of minimum 500 Pa.
— with integrity (E) and insulation (I) criteria equal to or higher than the intended classification for the smoke extraction duct.
NOTE 2 According to: EN 13501–4:2009/A1:2009 Multi-compartment smoke extraction duct can only be classified as EI.
For the purposes of the test described in this document, the duct is referred to as duct C.
This test method has been designed to cover both vertical and horizontal smoke extraction ducts. A vertical system need not be evaluated to this method provided that:
— both horizontal (ho) and vertical (ve) classification according to EN 13501-3 has been obtained for the ventilation duct, and
— it has been tested in a horizontal orientation to this method.
If the ventilation duct in practice is only used for vertical applications in smoke extraction systems, only vertical (ve) classification is bound to be used and tested in a vertical orientation to this method according to EN 13501-3.
This test method is suitable for ducts constructed from non-combustible materials (Euroclass A1 and A2).
NOTE 3 Using combustible material could lead to an incorrect calculation of the leakage based on the oxygen measurement. E.g. galvanisation could lead to some negative effects for the measurements.
It is applicable only to four sided ducts; one, two and three sided ducts are not covered.

This document specifies product characteristics and test methods of open nozzles and automatic nozzles for use in water mist systems.

This document deals with the technical requirements and the means for their verification for Additive Manufacturing (AM) machines using a bed of metallic powder, pyrophoric feedstock excluded, and a laser herein designated as machine.
This document deals with all significant hazards, hazardous situations or hazardous events during all phases of the life of the machine (ISO 12100:2010, 5.4), as listed in Annex A, caused by AM machines
using a bed of metallic powder and a laser when used as intended and under conditions of misuse which are reasonably foreseeable by the manufacturer.
This document does not deal with hazards which can occur:
— during construction;
— operating in potentially explosive atmospheres.
This document is not applicable to machines manufactured before the date of its publication.