Suomen Standardisoimisliitto SFS

This document is intended for organizations seeking to address water related environmental aspects, environmental conditions, and the associated risks and opportunities within an environmental management system according to ISO 14001. The document addresses issues for environmental management related to water quantity and quality, such as water withdrawal, efficient use of water, and water discharge, as well as approaches to cope with water related events like flooding and droughts. The document considers the interconnections of water with other environmental media and takes a holistic approach to the management of water due to its impacts on ecosystems, ecosystem services, related biodiversity, as well as human life and well-being. This document provides general guidance and applies to organizations irrespective of their size, type, financial resources, location, and sector. It is applicable to all types of water and considers a life cycle perspective.

This document describes framework for identification and authentication systems. It provides recommendations and best practice that include The model described in this document is intended to determine the common functions of different systems. This document describes processes, functions, and functional units of a generic model. It does not specify any specific technical solutions. Object identification systems can incorporate other functions and features such as supply chain traceability, quality traceability, marketing activities, and others, but these aspects are out of scope of this document.

This document specifies a method for determining the dimensional change of footwear insoles and insocks after cycle wetting and drying regardless of the material.

This document is applicable to the determination of the total silicon content in gaseous matrices suchas biomethane, biogas and landfill gas. Silicon is present in a gas phase contained predominantly insiloxane compounds, trimethylsilane and trimethylsilanol. The analytical form of the silicon measured inliquid phase after conducted sampling and derivatization procedure is soluble hexafluorosilicate anionstable in slightly acidified media. Total silicon is expressed as a mass of silicon in the volume of theanalysed gas.This document is applicable to all stated gas matrices with silicon concentrations up to 5 mg/m3, and itis prevalently intended for the biomethane matrices containing (0,1 to 0,5) mg/m3. It can be used forhigher concentration but then the absorption efficiency of the bubblers/impingers should be checkedbefore the results can be regarded as valid. The detection limit of the method is estimated as 0,05mg/m3 based on a sample volume of 0,020 m3. All compounds present in the gas phase are volatile atthe absorption and derivatization temperature and gaseous siloxanes are trapped in absorbance mediaand derivatized into analytical silicon specie are measured by this method. The concentration of thesilicon is measured in diluted derivatization media using atomic emission spectrometer uponatomisation/ionisation in microwave or inductively coupled plasma.

This document specifies the construction and performance characteristics related to safety and the rational use of energy of portable appliances burning liquefied petroleum gases at the vapour pressure within the gas cartridge or gas cylinder, excepting those where the gas cartridge is inserted horizontally in the chassis.NOTE These appliances are referred to in the body of the text as "appliances".This document applies to various types of portable appliances burning liquefied petroleum gases at vapour pressure and designed to be used with cartridges as complying with EN 417 or gas cylinders.This document covers appliances for outdoor or in well ventilated areas uses only.For example the following types of appliances are covered:a) cooking appliances (stoves, grills, barbecues...);This document does not cover barbecues that can be used indoors;b) lighting appliances;c) heating appliances;This document only applies to appliances with a maximum heat input of up to 3 kW (Hs) for outdoor use only;d) blowtorches;This document only applies to blowtorches without a flexible hose;e) laboratory burners.The requirements apply to these appliances or their functional sections whether or not the latter are independent or incorporated into an assembly.Appliances covered by this document are not connected to a flue for the discharge of products of combustion and are not connected to the mains electricity supply.This document covers neither appliances supplied with LPG in the liquid phase nor appliance with fixed integral container which may or may not be refilled by the userIt does not apply to lighters as defined in EN ISO 9994.It does not apply to gas appliances operating with a valve cartridge which is horizontally integrated into the chassis of the appliance also called "flat portable gas stove".Requirements for rational use of energy have been included for stove burners.However, such requirements have not been included for the other types of appliances because:- for grills and barbecues, this is a type of cooking which is achieved by various means such as radiant elements; in addition this type of cooking varies according to the type of food and region where the appliance is used;- for lighting appliances, the consumption is insignificant because these appliances have a very low rate and are used only for a few hours in a year;- for heating appliances, all the heat produced is discharged into the environment;- for tools such as blowtorches which are not professional tools in regular use, the gas consumption depends very much on the way it is used.

This document provides recommendations and requirements for the procedures, processes and performance monitoring to be implemented for the management and control of the mechanical destruction of confidential and sensitive material to ensure that such material is disposed of securely and safely.This document can be referenced by anyone who processes such material for themselves or on behalf of others and covers the following scenarios:- on site - using mobile equipment at the location of use (destruction equipment is brought to the confidential or sensitive material);- off site - transport followed by destruction using equipment at a destruction facility (the confidential or sensitive material is brought to the destruction equipment, such as used at a dedicated external facility operated by a service provider);- using static equipment at the location of use (confidential or sensitive material and destruction equipment co-located, such as a shredder in a building occupied by a client or clients).Destruction by erasure is not covered in this document.

This document establishes an approach and methodology for a country-based mechanism to channel climate finance to sub-national authorities to support climate change adaptation and to increase local resilience thereby contributing to the achievement of the goals of the Paris Agreement and the SDGs. The country-based mechanism combines PBCRGs which ensure programming and verification of climate change expenditures at the local level, offering strong incentives for performance improvements in enhanced resilience. This document provides requirements and guidelines and is applicable to organizations such as national and sub-national authorities, donors, companies, financial institutions and international organizations that are involved in implementing a country-based mechanism for channelling climate finance to sub-national authorities to support climate change adaptation and resilience.

This International Standard specifies the requirements for the bar code symbology known as Code 39; it specifies Code 39 symbology characteristics, data character encodation, dimensions, tolerances, decoding algorithms and parameters to be defined by applications. It specifies the Symbology Identifier prefix strings for Code 39 symbols.

This part of ISO 18937 describes test equipment and procedures for measuring the light stability of photographic prints when subjected to a filtered xenon-arc light source at specified levels of illuminance (irradiance), temperature and relative humidity. It is applicable to both colour and monochrome reflection prints, transparent films, or translucent films. It is also applicable to photographic prints in general, photobooks, or prints for backlit displays. General indoor display conditions described herein are intended to simulate common use conditions found in houses, apartments and other dwelling places where indirect lighting due to filtering (through window glass) and shading is often the principal illumination causing displayed photographs to fade. Simulated in-window display conditions are intended to simulate terrestrial daylight transmitted through standard architectural window glass (double glazing). A typical example of such display can be found when images are displayed in store windows, facing toward the outdoors, so that they can be viewed by people outside of the store[3],[4]. General guidance is given in ISO 18937-1.

This European Standard specifies requirements for the equipping of LPG pressure vessels, overground and underground, with a volume not greater than 13 m3 manufactured in accordance with EN 12542 or equivalent and have been hydraulically tested. The equipment covered by this European Standard is directly mounted onto the pressure vessel connections.This European Standard excludes the equipping of depot storage vessels and refrigerated storage vessels.

This document specifies the dimensions of the various 28 millimetre screw finish for glass containers designated MCA.

This part of EN 12309 specifies the requirements, test methods and conditions for gas-fired sorption appliances for heating and/or cooling with a net heat input not exceeding 70 kW.This part of EN 12309 deals particularly with test protocols and tools to calculate the capacity, the gas utilization efficiency and the electrical power input of the appliance. This data can be used in particular to calculate the seasonal efficiency of the appliance.