Ämnesområden

This document describes the procedures to prepare plutonium sources and to measure the activity ratio of 238Pu to (239Pu + 240Pu) by alpha spectrometry. The alpha spectrometry method is used for the determination of isotopic abundance of 238Pu in combination with isotope amount ratios determined by mass spectrometry and eliminates the possible isobaric interferences of 238U in the latter method. It is applied to the analysis of purified solutions of plutonium in 2 mol/l to 4 mol/l nitric acid containing 50 µg to 200 µg of plutonium per millilitre, as may result from the chemical treatment and purification preceding plutonium isotopic analysis by mass spectrometry.

This document is applied to plutonium solutions free from 241Am and those containing less than 10 % of other non-volatile impurities relative to the plutonium content. Otherwise purification should be carried out in accordance with ISO 8299.

The methods provided in this document are intended for use in conjunction or in parallel with mass spectrometry for the isotopic analysis of plutonium in spent-fuel solutions or nuclear-grade plutonium products.

This document describes general principles and gives requirements and recommendations for the selection and qualification of metallic materials for service in equipment used in oil and gas production and in natural-gas sweetening plants in H2S-containing environments, where the failure of such equipment can pose a risk to the health and safety of the public and personnel or to the environment. It can be applied to help to avoid costly corrosion damage to the equipment itself. It supplements, but does not replace, the materials requirements given in the appropriate design codes, standards, or regulations. This document addresses all mechanisms of cracking that can be caused by H2S, including sulfide stress cracking, stress corrosion cracking, hydrogen-induced cracking and stepwise cracking, stress-oriented hydrogen-induced cracking, soft zone cracking, and galvanically induced hydrogen stress cracking. Table 1 provides a non-exhaustive list of equipment to which this document is applicable, including exclusions. This document applies to the qualification and selection of materials for equipment designed and constructed using load controlled design methods. For design utilizing strain-based design methods, see Clause 5. This document is not necessarily applicable to equipment used in refining or downstream processes and equipment.

This document specifies requirements and gives recommendations for assessment of the service environment, and the selection of metallic materials used in oil and gas production in H2S-containing environments, where the failure can pose a risk to the functionality of the equipment, to the health and safety of the public and personnel or to the environment. This document is not intended for application to equipment for carbon capture, utilisation and/or storage (CCUS, CCS) or downstream oil and gas (for downstream applications see ISO 17945/NACE MR0103), but the guidance and principles can be applied by the equipment user for these applications. This document addresses the selection of carbon and low alloy steels, cast irons, corrosion-resistant alloys and other alloys for resistance to damage mechanisms that are a consequence of H2S, or which are exacerbated by H2S. This includes sulphide stress cracking, hydrogen-induced cracking, stepwise cracking, stress-oriented hydrogen-induced cracking, soft-zone cracking, galvanically induced hydrogen stress cracking and stress corrosion cracking. Some of these mechanisms can also occur in environments that do not contain H2S, but these are not included in the scope of this document. These are not included in the scope of this document. Materials with established service limits, or which have a successful history of application are listed. A path for qualifying and accepting materials that are not listed is described in ISO 15156-3. NOTE corrosion. H2S can also influence degradation mechanisms other than cracking, including general and localized This document is intended primarily for equipment users and other parties that select and accept materials and equipment for service in H2S-containing environments. It stipulates when materials need to be specified to be in conformance with ISO 15156-1 or qualified in conformance with ISO 15156-3. All oil and gas production equipment categories handling H2S-containing fluids are within the scope of this document, including but not limited to: a) drilling, well construction, and well-servicing equipment; b) wells including subsurface equipment, gas lift equipment, wellheads, and tree equipment; c) flow-lines, gathering lines, field facilities, and field processing plants; d) water-handling, injection and disposal equipment; e) gas-handling and injection equipment including those used for CO2 enhanced oil recovery; f) natural gas treatment plants (for gas sweeting plants see also API RP 945); g) transportation pipelines for liquids, gases, and multi-phase fluids. Exclusions to the scope of this document are given in Table 1.

This document specifies requirements and gives recommendations for the verification, qualification and balloting requirements of metallic materials for service in equipment used in oil and gas production in H2S-containing environments, where the failure can pose a risk to the health and safety of the public and personnel or to the environment. The requirements supplement but do not replace the verification (or qualification) requirements given in the appropriate design codes, standards, specifications or regulations. This document addresses the verification, qualification and balloting requirements of materials for equipment designed and constructed using load-controlled design methods, see 5.2. For design and applications utilizing strain-based design methods, see 5.2 and 7.6.3.3. This document addresses damage mechanisms in production environments caused by H2S, including sulfide stress cracking, stress corrosion cracking, hydrogen-induced cracking and stepwise cracking, stress oriented hydrogen-induced cracking, soft zone cracking, and galvanically-induced hydrogen stress cracking. This document is not intended for equipment used in carbon capture, utilisation and/or storage (CCUS, CCS) refining or downstream processes and equipment (see ISO 17945/NACE MR0103) but the guidance and principles can be applied by the equipment user for these applications.

This document sets out the general principles for, and provides guidance on, the design of sampling programmes and sampling techniques for all aspects of sampling of water (including waste waters, sludges, effluents, suspended solids and sediments). This document does not include detailed instructions for specific sampling situations, which are covered in various other parts of the ISO 5667 series and in ISO 19458.

This document defines a risk-based program for determining protective system requirements for petroleum, petrochemical and natural gas industry fired equipment including lower carbon energy. The process applies to new or existing fired equipment. For modifications to existing fired equipment that has been designed in accordance with this standard, the scope may be limited to changes. 1.1 Inclusions This document applies to: — hazards that have potential to produce harm, — engineered and administrative forms of risk reduction. NOTE 1 See Figure 1 for a graphical representation of the hierarchy of risk reduction. NOTE 2 For guidance on elimination and substitution of hazards, see ISO 45001:2018 - Occupational health and safety management systems — Requirements with guidance for use, clause 8.1.2 Eliminating hazards and reducing OH&S risk.

NOTE 3 Example of hierarchy of risk reduction related to natural draft gas-fired process fired heaters. — Elimination - eliminate the gas-fired process heater combustion risk by replacing with electric heating. — Substitution - refinery fuel gas replaced with constant calorific value natural gas, for example, from a utility pipeline. — Engineered function - install mass flow meter that compensates for composition change in refinery fuel gas.

— Administrative function – maintain low occupancy around natural draft gas fired process fired heater. 1.2 Exclusions 1.2.1 Excluded assessments This standard excludes assessment of environmental impact, business impact or loss of reputation. 1.2.2 Excluded forms of risk reduction This standard excludes risk reductions in the forms of elimination, substitution, and personal protective equipment. NOTE See Figure 1 for a graphical representation of the hierarchy of risk reduction. 1.2.3 Excluded equipment This standard excludes commercial fired equipment used for food preparation, space heating, small potable water heaters, and other non-process applications such as small heaters used in maintenance applications.

This document specifies a method for measuring the voltage drop under specified current in terminal lugs and in-line splices. It is used together with EN 2591-100.

This document specifies a method for ageing terminal lugs and in-line splices by temperature and current cycling. It is used together with EN 2591-100.

This document specifies the requirements for furnace, torch and induction brazing using silver alloys. This document is applicable to brazing of metallic components, in conjunction with the design/engineering authority’s requirements.

This document specifies a procedure for the determination of the dimensional changes and distortion out of plane likely to take place when textile floor coverings and tiles are subjected to varied water and heat conditions. The method is applicable to all textile floor coverings and textile floor coverings in tile form.

This document specifies requirements of rubber hoses used in the automotive turbocharger system to connect turbocharger, intercooler, and internal combustion engine at the working temperatures from −40 °C to +250 °C and the working pressures from −0,01 MPa(−0,1 bar) to 0,5 MPa(5 bar). Hoses covered by this document are straight or shaped

ISO 14918:2018 specifies procedural instructions for qualification testing of thermal sprayers. It defines requirements, ranges of qualification, test conditions, acceptance requirements and certification for qualification testing of thermal spray performance. ISO 14918:2018 is applicable when the thermal sprayer's qualification is required by this document, the purchaser, by inspection authorities or by other organizations. The thermal spraying processes referred to in this document include those spraying processes which are designated as manual or mechanized. The test for mechanised application includes the use of automatically controlled thermal spraying, e.g. robotics, scan units.

This document outlines quality models for AI systems and services and is an applicationspecific extension to the standards on SQuaRE. The characteristics and sub-characteristics detailed in the models provide consistent terminology for specifying, measuring and evaluating AI system and service quality. The characteristics and sub-characteristics detailed in the models also provide a set of quality characteristics against which stated quality requirements can be compared for completeness.

I detta dokument anges krav på, och rekommendationer för, arbete på eller nära en elektrisk produkt som matas med VCB-spänning, dvs växelspänning (a.c.) i intervallet 30 V till 1 000 V eller likspänning (d.c.) i intervallet 60 V till 1 500 V och där det kan finnas en risk för att utsättas för faror som elektricitet kan medföra, inklusive aktiviteter vars syfte är att säkerställa detta.  

Detta dokument omfattar alla system i den elektriska produkten som kan påverka den del av produkten som matas med VCB-spänning och där det kan finnas en risk för att utsättas för faror som elektricitet kan medföra. 

Detta dokument definierar också de elsäkerhetsroller som är lämpliga att använda sig av inom yrkesmässig verksamhet, genom vilka ansvar och befogenheter tilldelas en person genom befattning, delegering, uppdrag eller uppgift. 

Detta dokument är i första hand avsett för eldrivna vägfordon, men kan även tillämpas på andra typer av elektriska produkter såsom eldrivna icke vägbundna fordon och maskiner, eldrivna fartyg samt eldrivna stationära applikationer, inklusive prototyper och testriggar. Dock berörs inte de typer av anläggningar som omfattas av SS-EN 50110-1. 

Detta dokument är avsett att användas som underlag vid framtagande av verksamhetsanpassade rutiner med tillhörande instruktioner och checklistor och kan användas som grund för allt arbete på elektriska produkter, eller del därav, som matas med VCB-spänning och där det kan finnas en risk för att utsättas för faror som elektricitet kan medföra.