CEN - European Committee for Standardization

This document specifies requirements and guidelines for:
the design parameters to be provided to the heating, ventilation and air conditioning (HVAC) unit manufacturer by the rolling stock manufacturer (“Customer”) and the railway operator,
the test and inspection items, requirements and methods used by the HVAC unit manufacturer to verify that the HVAC unit conforms with the design parameters.
This document is applicable to HVAC units for the passenger area and driver’s cabs in urban (metro, tramway), suburban, regional and main line vehicles.

This document gives the sector specific requirements for the provision of private security services in the energy sector that are additional to the requirements of EN 17483-1.
This document specifies service requirements for quality in organization, processes, personnel and management of a security service provider and/or its independent branches and establishments under commercial law and trade as a provider with regard to security services in the energy sector.
This document defines quality criteria for the delivery of security services in the energy sector requested by public and private clients. This document is suitable for the selection, attribution, awarding and reviewing of the most suitable provider of security services in the energy sector.
NOTE 1 This document is the Part 4 of a series of standards on the provision of private security services for critical infrastructure. See Figure 2.
NOTE 2 It is important that the selection of a private security service provider always represents the best balance between quality and price. This document sets out the minimum requirements that providers are expected to comply with in order for this balance to be struck.
This document is not applicable to private security services in nuclear power plants.
A list of activities for Private Security Companies (PSC) in Critical Infrastructure Protection (CIP) in the energy sector comprises:
1. Perimeter Protection and Surveillance:
-  human - reception services, static guarding, patrols, dog-handler;
- technology – CCTV, unmanned vehicles (air/ground/sea); others;
- operation of a control/monitoring room;
- operation of an alarm monitoring centre;
- access Control and Management (turnstiles, barriers, authorization and badges).
2. Human and technology, e.g. use of screening and detection equipment for:
- vehicles;
- goods;
- visitors;
- staff;
- contractors;
3. Site security and mobile patrolling/ Static guarding activities required to secure a specific facility/area and mobile patrolling on-site and in buildings within the site;
4. Emergency response;
- alarm response;
- first aid response.

This document specifies a framework introducing the approaches that can be applied to assess the risks linked to dermal exposure to chemical substances in the workplace. This document provides guidance on the different steps to be taken when performing qualitative and quantitative dermal exposure assessments.
This document is not applicable to inhalation, oral, ocular and mucous membranes exposure, biological agents, wet work and mechanical stressors.

This document specifies the test methods for constant wear suits and abandonment suits.
Requirements for constant wear suits are given in ISO 15027-1:2026.
Requirements for abandonment suits are given in ISO 15027-2:2026.

This document specifies requirements for four types of rubber-covered spiral wire reinforced hydraulic hoses and hose assemblies of nominal bore from 6 to 51: Types 4SP, 4SH, R13 and R15. They are suitable for use with:
—   hydraulic fluids covered in ISO 6743 4 with the exception of all flame retardant HFD fluids at temperatures ranging from −40 °C to +100 °C for types 4SP and 4SH and −40 °C to +120 °C for types R13 and R15;
—   water-based fluids at temperatures ranging from −40 °C to 70 °C;
—   water fluids at temperatures ranging from 0 °C to 70 °C.
The hoses are not suitable for use with castor oil based nor ester-based fluids.
This document does not include requirements for end fittings. It is limited to the performance of hoses and hose assemblies.
NOTE   Requirements for hydraulic hoses for underground mining are covered in a different document.

This document specifies procedures for periodic inspection and testing, for transportable refillable LPG cylinders with a water capacity from 0,5 l up to and including 150 l.
This document is applicable to the following:
-   welded steel LPG cylinders manufactured to an alternative design and construction, according to EN 14140 or equivalent standard;
-   welded aluminium LPG cylinders, according to EN 13110 or equivalent standard;
-   composite LPG cylinders, according to EN 14427 or equivalent standard;
-   over-moulded LPG cylinders designed and manufactured according to EN 1442 or EN 14140;
see Annexes E and F.
This document can also be applied to stainless steel LPG cylinders designed according to national codes, see Clause A.3. This document can also be applied to composite LPG cylinders designed according to EN 12245, ISO 11119-3 and ISO 11119-4.
This document does not apply to cylinders permanently installed in vehicles.

This document specifies requirements and test methods for male condoms made from natural rubber latex.
This document does not specify requirements related to any medicinal substances applied to or delivered by the condom.
NOTE            The safety and effectiveness of any medicinal substance are assessed according to national and regional regulations.

This document specifies good clinical practice (GCP) for the design, conduct, recording and reporting of clinical investigations carried out in human subjects to assess the clinical performance or effectiveness and safety of medical devices.
For post-market clinical investigations, the principles set forth in this document are intended to be followed as far as relevant, considering the nature of the clinical investigation (see Annex I).
This document specifies the general requirements intended to
protect the rights, safety and well-being of human subjects, users or other persons,
ensure the scientific conduct of the clinical investigation and the credibility of the clinical investigation results,
define the responsibilities of the sponsor and principal investigator, and
assist sponsors, investigators, ethics committees, regulatory authorities and other bodies involved in the conformity assessment of medical devices.
Other standards or national requirements can also apply to the investigational device(s) under consideration or the clinical investigation(s).
NOTE            For Software as a Medical Device (SaMD), where appropriate, demonstration of the analytical validity (the SaMD’s output is accurate for a given input), the scientific validity (the SaMD’s output is associated to the intended clinical condition/physiological state), and clinical performance (the SaMD’s output yields a clinically meaningful association to the target use) of the SaMD, the requirements of this document apply as far as relevant (see Reference [5]). Justifications for exemptions from this document can consider the uniqueness of indirect contact between subjects and the SaMD.
This document does not apply to in vitro diagnostic medical devices. However, there can be situations, dependent on the device and national or regional requirements, where users of this document can consider whether either specific sections or requirements of this document, or both, can be applicable.

This document specifies requirements for three types of textile reinforced rubber hoses and hose assemblies of nominal bore from 5 to 100. The types are defined in Clause 4.
They are suitable for use with:
—   hydraulic fluids in accordance with ISO 6743 4 with the exception of all flame retardant HFD fluids at temperatures ranging from −40 °C to 100 °C;
—   water-based fluids at temperatures ranging from −40 °C to +70 °C;
—   water at temperature ranging from 0 °C to +70 °C.
The hoses are not suitable for use with castor oil based and ester-based fluids.
The document does not include requirements for end fittings. It is limited to the performance of hoses and hose assemblies.
NOTE   Requirements for hydraulic hoses for underground mining are covered in other documents.

This document specifies requirements for two types of wire braid reinforced compact hoses and hose assemblies of nominal bore from 6 to 76, types 1SC and 2SC.
They are suitable for use with:
—   hydraulic fluids in accordance with ISO 6743 4 with the exception with the exception of all flame retardant HFD fluids at temperatures ranging from −40 °C to +100 °C;
—   water-based fluids at temperatures ranging from −40 °C to +70 °C;
—   water at temperatures ranging from 0 °C to +70 °C.
The hoses are not suitable for use with castor oil based nor phosphoric ester-based fluids.
This document does not include requirements for end fittings. It is limited to the performance of hoses and hose assemblies.
NOTE   Requirements for hydraulic hoses for underground mining are covered in other documents.

This document specifies principles and requirements for a body operating certification of persons and includes the development and maintenance of a scheme for certification of persons.
NOTE 1        For the purposes of this document, the term "certification body" is used in place of the full term " body operating certification of persons", and the term "certification scheme" is used in place of the full term “scheme for certification of persons”.
NOTE 2        Annex A contains principles for certification of persons.

This document describes the transaction information requirements of the transactions used in the basic
collaborations described in EN 17015-1 Electronic Public Procurement – Catalogue – Choreographies.
For each transaction there is an overview, the transaction business requirements and the transaction information requirements model containing definitions of terms, usage descriptions and cardinality of the information elements.
The document describes the following transactions:
1) Catalogue;
2) Catalogue Response
3) Pre-award Catalogue Request
4) Pre-award Catalogue
5) Shopping Cart
How to claim compliance to a transaction is described in paragraph 6.
How to claim conformance to a transaction is described in paragraph 6.

This document specifies the quality characteristics of liquid or gaseous hydrogen fuel dispensed at hydrogen refuelling stations for use in proton exchange membrane (PEM) fuel cell vehicle systems, and the corresponding quality assurance considerations for ensuring uniformity of the hydrogen fuel.

This document applies to the basic safety and essential performance of pulse oximeter equipment intended for use on humans, hereafter referred to as ME equipment. This includes any part necessary for normal use, including the pulse oximeter monitor, pulse oximeter probe, and probe cable extender.
These requirements apply to pulse oximeter equipment, including pulse oximeter monitors, pulse oximeter probes and probe cable extenders regardless of their origin (i.e. including remanufactured products).
The intended use of pulse oximeter equipment includes, but is not limited to, the estimation of arterial oxygen haemoglobin saturation and pulse rate of patients in professional healthcare institutions as well as patients in the home healthcare environment and the emergency medical services environment.
If a clause or subclause is specifically intended to be applicable to ME equipment only, or to ME systems only, the title and content of that clause or subclause says so. If that is not the case, the clause or subclause applies both to ME equipment and to ME systems, as relevant.
Hazards inherent in the intended physiological function of ME equipment or ME systems within the scope of this document are not covered by specific requirements in this document except in 201.11.1.2.2, IEC 60601-1:2005+AMD1:2012+AMD2:2020, 7.2.13 and 8.4.1.
NOTE 2        See also IEC 60601-1:2005+AMD1:2012+AMD2:2020, 4.2.
This document can also be applied to ME equipment and their accessories used for compensation or alleviation of disease, injury, or disability.
This document is not applicable to pulse oximeter equipment intended for use in laboratory research applications nor to oximeters that require a blood sample from the patient.
This document is not applicable to pulse oximeter equipment intended solely for foetal use.
This document is not applicable to remote or slave (secondary) equipment that displays SpO2 values that are located outside of the patient environment.
NOTE 3        ME equipment that provides selection between diagnostic and monitoring functions is expected to meet the appropriate requirements of this document when configured for that function.
This document is applicable to pulse oximeter equipment intended for use under extreme or uncontrolled environmental conditions outside the hospital environment or physician’s office, such as in ambulances and air transport. Additional standards can apply to pulse oximeter equipment for those environments of use.
This document is a particular standard in the IEC 60601-1 and ISO and IEC 80601 series of standards.

This document contains requirements for the competence and impartiality of bodies performing inspection, and for the consistent operation of their inspection activities.

This document applies to the basic safety and essential performance of respiratory high-flow therapy equipment, as defined in ‎201.3.262, hereafter also referred to as ME equipment or ME system, in combination with its accessories:
intended for use with patients who can breathe spontaneously; and
intended for patients who would benefit from improved alveolar gas exchange; and who would benefit from receiving high-flow humidified respiratory gases, which can include a patient whose upper airway is bypassed.
EXAMPLE 1 Patients with Type 1 Respiratory Failure who exhibit a reduction in arterial blood oxygenation.
EXAMPLE 2 Patients who would benefit from reduced work of breathing, as needed in Type 2 Respiratory Failure, where arterial carbon dioxide is high.
EXAMPLE 3 Patients requiring humidification to improve mucociliary clearance.
Respiratory high-flow therapy equipment is utilized in both professional healthcare facilities and the home healthcare environment. This standard specifically addresses respiratory high-flow therapy equipment for acute or infant care, predominantly found in hospitals. A separate document for long term high-flow therapy in the home healthcare environment is expected to be forthcoming.
Respiratory high-flow therapy equipment can be:
fully integrated ME equipment; or
a combination of separate items forming a ME system.
This document also applies to other types of respiratory equipment when that equipment includes a respiratory high-flow therapy mode.
NOTE 2  This document and ISO 80601-2-12 are applicable to a critical care ventilator with a high-flow therapy mode.
NOTE 3  This document and ISO 80601-2-72 are applicable to ventilator for ventilator-dependent patients in the home healthcare environment with a high-flow therapy mode.
NOTE 4  This document and ISO 80601-2-13 are applicable to an anaesthetic workstation with a high-flow therapy mode.
Respiratory high-flow therapy equipment can be transit-operable.
This document is also applicable to those accessories intended by their manufacturer to be connected to the respiratory high-flow therapy equipment, where the characteristics of those accessories can affect the basic safety or essential performance of the respiratory high-flow therapy equipment.
EXAMPLE 4         Breathing sets, connectors, humidifier, breathing system filter, external electrical power source, distributed alarm system, high-flow nasal cannula, tracheal tube, tracheostomy tube, face mask and supra-laryngeal airway.
NOTE 5        Accessories are assessed with the relevant clauses of this document when configured as part of respiratory high-flow therapy equipment.
If a clause or subclause is specifically intended to be applicable to ME equipment only, or to ME systems only, the title and content of that clause or subclause will say so. If that is not the case, the clause or subclause applies both to ME equipment and to ME systems, as relevant.
Hazards inherent in the intended physiological function of ME equipment or ME systems within the scope of this document are not covered by specific requirements in this document except in the general standard, 7.2.13 and 8.4.1.
NOTE 6        Additional information can be found in the general standard, 4.2.
This document does not specify the requirements for:
ventilators or accessories for ventilator-dependent patients intended for critical care applications, which are given in ISO 80601‑2‑12;
ventilators or accessories intended for anaesthet

This document defines the term nonwovens and provides auxiliary terminology to distinguish nonwovens from other materials.

This document describes the test and assessment procedure for determining the contribution of reactive fire protection systems to the fire resistance of solid steel bars used as tension members, when exposed to the standard temperature/time curve specified in EN 1363-1. In special circumstances, where specified in National Building Regulations, there can be a need to subject reactive fire protection systems to a slow heating curve (smouldering fire) as defined in EN 1363-2. The corresponding test and assessment procedure are described in Annex E. The fire protection performance is determined by testing mechanically loaded steel bars in horizontal orientation. Information regarding the testing of additional unloaded specimens is given to assess the influence of the bar orientation and smouldering fire behaviour.
The principles of the testing and assessment procedure can also be applied for other section shapes such as angles, channels and flats. This document does not include steel bars used as reinforcement in concrete construction.
The document is applicable to steel bars up to a maximum diameter of 130 mm. In the case of rectangular bars, the maximum edge length shall be limited to 130 mm with a maximum aspect ratio of 2:1 against the shorter edge length.
The test programme and the assessment are designed to cover:
-   a range of valid fire protection classification periods;
-   a range of thickness of the applied reactive fire protection system;
-   a range of steel bar dimensions and profiles;
-   a range of specified design temperatures;
-   a range of load utilisation factors in case of fire;
-   a range of bar orientation.
This document also provides the assessment procedure, which prescribes how the analysis of the test data shall be made and gives guidance on the procedures by which interpolation shall be undertaken. The assessment procedure is used to establish:
a)   on the basis of data derived from mechanically loaded testing steel bar, any practical constraints on the use of the reactive fire protection system under fire test conditions (the physical performance);
b)   on the basis of the temperature data derived from testing steel bar the thermal properties of the reactive fire protection system (the thermal performance).
The limits of applicability of the results of the assessment arising from the fire test are defined together with permitted direct application of the results to different steel types and sizes over the range of thicknesses of the applied reactive fire protection system tested.

This document gives guidance for pro-rata multi-habitat sampling of benthic macroinvertebrates in rivers and streams. The term "pro-rata" reflects the intention to sample all the main riverine habitats present at a monitoring site according to the proportion of the site that it covers. It is an objective way to divide sampling effort among the different habitats.
This document is applicable to all flowing waters, both artificial, modified and natural. It enables comparable samples to be collected from any type of river, regardless of the habitats present.
This document gives guidance on an overall approach rather than a specific method.
This document is applicable to:
- supporting environmental and conservation agencies, water boards, and water agencies to meet the monitoring requirements of the WFD (Article 8, Annex II, and Annex V) [1];
- generating data sets appropriate for monitoring and reporting of sites designated under the Habitats Directive and the Birds Directive to ensure that samples for comparing the overall composition of invertebrates from different stream types are comparable;
- ensuring samples for environmental quality assessments across different stream types are comparable even when sampled by different people;
- supporting river management and restoration initiatives;
- sampling sites in a consistent way that is not dependent on the presence of particular types of habitat; a user-friendly strategy for collecting biological data depending on the distribution of habitats;
- understanding the distribution of biological community types across different physical river types; and
- assessing quality based on deviation from reference, as adopted in the European Water Framework Directive [1].

There are numerous pathways to produce hydrogen. This document specifies a methodology for different hydrogen production pathways for determining the greenhouse gases (GHG) emissions associated with the hydrogen supply chain from the raw material extraction up to the production gate.
This document considers the GHG emissions associated with hydrogen production up to the production gate. This document applies to and includes every step within the production process up to the production gate (see Figure 2 in the Introduction).
NOTE            Complementary documents in the ISO 19870 series will consider hydrogen conditioning, conversion and transport methods.
ISO 14044 requires the goal and scope of a life cycle assessment (LCA) be clearly defined and be consistent with the intended application. Due to the iterative nature of LCAs, it is possible that the LCA scope needs to be refined during the study. According to ISO 14040:2006, A.2, the goals and scope of LCAs correspond to one of the following two approaches:
an approach that assigns elementary flows and potential environmental impacts to a specific product system, typically as an account of the history of the product (see 4.1.2);
an approach that studies the environmental consequences of possible (future) changes between alternative product systems (see 4.1.3).
In this document, approach a) is referred to as an attributional approach, while approach b) is referred to as a consequential approach. Complementary information is accessible in the ILCD handbook[4].
A carbon footprint of a product (CFP) (3.1.2) or partial CFP (3.1.3) as defined by ISO 14067 can be estimated using either the attributional or the consequential approach, the latter corresponding to the use of “system expansion via substitution” to avoid allocation when a unit process yields multiple co-products. This document applies to the CFP for hydrogen production.

This document specifies requirements for four types of wire braid reinforced hoses and hose assemblies of nominal bore from 5 to 76: Types 1SN, 2SN, 1ST and 2ST. They are suitable for use with:
—   hydraulic fluids in accordance with ISO 6743 4 with the exception of all flame retardant HFD fluids at temperatures ranging from −40 °C to +100 °C;
—   water based fluids at temperatures ranging from −40 °C to +70 °C;
—   water at temperatures ranging from 0 °C to +70 °C.
The hoses are not suitable for use with castor oil based and ester-based fluids.
This document does not include requirements for end fittings. It is limited to the performance of hoses and hose assemblies.
NOTE   Requirements for hydraulic hoses for underground mining are covered in other documents.

This document applies to the basic safety and essential performance of a humidifier, also hereafter referred to as ME equipment, in combination with its accessories, the combination also hereafter referred to as ME system.
This document is also applicable to those accessories intended by their manufacturer to be connected to a humidifier where the characteristics of those accessories can affect the basic safety or essential performance of the humidifier.
EXAMPLE 1           Heated breathing tubes (heated-wire breathing tubes) or ME equipment intended to control these heated breathing tubes (heated breathing tube controllers).
NOTE 2        Heated breathing tubes and their controllers are ME equipment and are subject to the requirements of IEC 60601‑1.
NOTE 3        ISO 5367 specifies other safety and performance requirements for breathing tubes.
This document includes requirements for the different medical uses of humidification, such as invasive ventilation, non-invasive ventilation, nasal high-flow therapy, and obstructive sleep apnoea therapy, as well as humidification therapy for tracheostomy patients.
NOTE 4        A humidifier can be integrated into other equipment. When this is the case, the requirements of the other equipment also apply to the humidifier.
EXAMPLE 2           Heated humidifier incorporated into a critical care ventilator where ISO 80601‑2-12 also applies.
EXAMPLE 3           Heated humidifier incorporated into a homecare ventilator for dependent patients where ISO 80601‑2‑72 also applies.
EXAMPLE 4           Heated humidifier incorporated into sleep apnoea therapy equipment where ISO 80601‑2‑70 also applies.
EXAMPLE 5           Heated humidifier incorporated into ventilatory support equipment where either ISO 80601-2-79 or ISO 80601-2-80 also apply.
EXAMPLE 6           Heated humidifier incorporated into respiratory high-flow therapy equipment where ISO 80601‑2‑90 also applies.
This document also includes requirements for an active HME (heat and moisture exchanger), ME equipment which actively adds heat and moisture to increase the humidity level of the gas delivered from the HME to the patient. This document is not applicable to a passive HME, which returns a portion of the expired moisture and heat of the patient to the respiratory tract during inspiration without adding heat or moisture.
NOTE 5        ISO 9360‑1 and ISO 9360‑2 specify safety and performance requirements for a passive HME.
NOTE 6        If a clause or subclause is specifically intended to be applicable to ME equipment only, or to ME systems only, the title and content of that clause or subclause will say so. If that is not the case, the clause or subclause applies both to ME equipment and to ME systems, as relevant.
Hazards inherent in the intended physiological function of ME equipment or ME systems within the scope of this document are not covered by specific requirements in this document except in IEC 60601‑1:2005+AMD1:2012+AMD2:2020, 7.2.13 and 8.4.1.
NOTE 7        Additional information can be found in IEC 60601‑1:2005+AMD1:2012+AMD2:2020, 4.2.
This document does not specify the requirements for cold pass-over or cold bubble-through humidification devices, the requirements for which are given in ISO 20789.
This document is not applicable to equipment commonly referred to as “room humidifiers” or humidifiers used in heating, ventilation and air conditioning systems, or humidifiers incorporated into infant incubators to humidify the chamber

The CEN/TS 18212 series specifies a generic framework for the establishment of requirements and their evaluation methodology for biometric products. The requirements depend on the biometric mode considered, and are adapted to each scenario, through the definition of a variety of application profiles (APs).
This series of standards are expected to provide the evaluation methodology, the individual tests, and the APs (with their particular requirements).
This document specifies:
-   tests for evaluating the interoperability of all biometric input data (received or read);
-   test for evaluating the interoperability of all biometric output data (stored or transmitted);
-   test for evaluating the interoperability of all exchange of information between the TOE and external components or devices.
NOTE 1   Additional parts are provided covering the specifics of each biometric mode. For each of these modalities, application-independent tests are defined, as well as a set of APs, that detail the applicable tests, the evaluation parameters, and the passing criteria.
The Technical Specifications within this series can be taken by any certification body and/or sector, to define and evaluate the requirements for their biometric products within their selected applications.
NOTE 2   Regarding biometrics for public sector applications, see also BSI TR 03121 [2] which can apply.
NOTE 3   For an overview of sectors addressed in the Cybersecurity Act, see Regulation (EU) 2019/881.
NOTE 4   This part defines all potential tests that could be applicable when evaluating the interoperability of a biometric product. It will be the relevant AP, the one that will specify which of these tests are applicable.

This document provides a framework and principles for design for recycling documents for assessing the identification of the level of compatibility of plastic-packaging feature with the applicable collection, sorting and recycling processes, describing the level of compatibility.
This document covers any packaging predominantly made of plastic and separate components predominantly made of plastic. It aims to provide a consistent approach for the guidelines and protocols for each polymer and format.

This document specifies the required characteristics of a light weight coaxial cable, 50 Ω, type KX for use in aircraft electrical systems at operating temperature between −55 °C and 200 °C and specially for high frequency up to 6 GHz. Nevertheless, if needed, −65 °C is also acceptable as shown by rapid change of temperature test.

This document covers the design of any rigid PET packaging that does not fall within the definition of a PET bottle as outlined in Part 4 of this document, with respect to compatibility of the design with the state-of-the-art collection, sorting and recycling processes and useability of the recyclates in an application.
Packaging constituents and packaging components made of materials other than PET are also covered by this document as they need to be evaluated on compatibility with PET polymer recycling.

This Technical Specification (TS) series provide a generic framework for the establishment of requirements and their evaluation methodology for biometric products. The requirements depend on the biometric mode considered, and are adapted to each scenario, through the definition of a variety of application profiles (APs). In addition, this TS series provides the definition of the individual tests that can be applied to a biometric product.
This document specifies the context for the evaluation of biometric products within the context of the European Union, as well as the general requirements for such evaluation. This will be defined in a biometric mode-independent point of view, as well as not being biased by the particular application which is the target of the biometric product to be assessed.
This first part defines the following items:
-   biometric evaluation process;
-   biometric evaluation phases;
-   how to define each particular biometric test;
-   how to define the profiling for a particular application.
NOTE 1   Future parts of the CEN/TS series are planned to address the specifics of each biometric mode. For each of these modalities, this document specifies application-independent tests, as well as a set of APs, that detail the applicable tests, the evaluation parameters, and the passing criteria.
NOTE 2   Regarding biometrics for public sector applications, see also BSI TR 03121 [7] which can apply.
NOTE 3   For an overview of sectors addressed in the Cybersecurity Act, see Regulation (EU) 2019/881.

This document covers the design of any rigid packaging with the main body of the packaging unit predominantly made of PE or PP and the design of separate components predominantly made of rigid PE or rigid PP, with respect to compatibility of the design with state-of-the-art collection, sorting and recycling processes and useability of the recyclates in an application.
Packaging constituents and packaging components made of other materials than PE and PP are also covered by this document as they need to be evaluated on compatibility with PE or PP polymer recycling.

This document covers the design of any rigid packaging with the main body of the packaging unit predominantly made of PS or XPS and the design of separate components predominantly made of rigid PS or XPS with respect to compatibility of the design with state-of-the-art collecting, sorting and recycling processes and useability of the recyclates in an application.
Packaging constituents and packaging components made of other materials than PS and XPS are also covered by this document as they need to be evaluated on compatibility with PS or XPS polymer recycling.

This document covers the design of any rigid packaging which has its main component, in weight, predominantly made of EPS, with respect to compatibility of the design with state-of-the-art collecting, sorting, and recycling processes and useability of the recyclates in an application.
Packaging constituents and packaging components made of other materials than EPS are also covered by this document as they need to be evaluated on compatibility with polymer recycling.
Unless otherwise stated, in the interests of better readability, ‘EPS packaging’ always includes ‘EPS white goods packaging and fish boxes’.

This document specifies the requirements relating to:
Steel GX5CrNiCuNb16-4 (1.4525)
Homogenized
Solution treated and precipitation hardened
Investment casting
De ≤ 50 mm
Rm ≥ 900 MPa
for aerospace applications.
ASD-STAN designation FE-CM3801
Material number 1.4525

This document describes the transaction information requirements of the transactions used in the collaborations described in EN 17016-1:2024. For each transaction are specified the transaction business requirements, the transaction information data model containing definitions of terms, usage descriptions and cardinality of the information elements and the transaction business rules.
This document describes the following transactions:
1)   Order;
2)   Order Change;
3)   Order Cancellation;
4)   Order Response Simple
5)   Order Confirmation;
6)   Order Rejection;
7)   Order Response;
8)   Order Change Confirmation;
9)   Order Change Rejection;
10)   Order Cancellation Confirmation;
11)   Order Cancellation Rejection;
12)   Order Agreement.
How to claim compliance to a transaction is specified in Clause 6.
How to claim conformance to a transaction is also specified in Clause 6.

This document specifies the fuel quality classes and specifications of graded firewood. This document applies only to firewood produced from the following raw materials (see ISO 17225-1:2021, Table 1):
1.1.1 Whole trees without roots;
1.1.3 Stemwood;
1.1.4 Logging residues (thick branches, tops, etc.);
1.2.1 Chemically untreated by-products

This document specifies the required characteristics of a light weight coaxial cable, 50 Ω, type KW for use in aircraft electrical systems at operating temperature between −55 °C and 180 °C and specially for high frequency up to 6 GHz. Nevertheless, if needed, −65 °C is also acceptable as shown by rapid change of temperature test.

This document provides requirements for the evaluation process of any flexible packaging with the main body of the packaging unit predominantly made of PE or PP and for the evaluation process of separate components predominantly made of flexible PE or flexible PP, with respect to compatibility of the design with state-of-the-art collecting, sorting and recycling processes, and the characterization of the output(s) compared to a reference material.
Packaging constituents and packaging components made of other materials than PE and PP are also covered by this document as they need to be evaluated on compatibility with PE or PP polymer recycling.

This document gives guidance on the procedure for the bioaccumulation of substances liable to cause atmospheric pollution. This is done by using the grass species Lolium multiflorum ssp. italicum designated hereafter as Italian rye-grass. It is an active biomonitoring approach insofar as the plants used are first cultivated in set conditions before being exposed at the monitoring locations in the field. The plants then record any pollution events that occur while they are being exposed, allowing such events to be accurately dated.
The document specifies a method for identification and localization of one or more single pollution sources and the tracking of their "plume" on a local or regional scale. The method described also offers a tool to monitor sites in the long term by the repeated application of a clearly defined procedure and to describe the local or regional air pollution situation.
The method described in this document is applicable to solid and gaseous substances deposited on plants, where they can accumulate on their surface or in their tissues. These substances include sulphur, chloride, fluoride and especially metals as well as low volatile organic and halo-organic compounds such as polycyclic aromatic hydrocarbons (PAH), polychlorinated biphenyls (PCB), polybrominated diphenyl ethers (PBDE), polychlorinated dibenzo dioxins (PCDD) and polychlorinated dibenzo furans (PCDF). It is as well possible to verify pesticides which are used in plant protection products. The range of potential substances can be expanded according to the task at hand and the capabilities of conducting trace analyses and assessment.
The method described in this document allows spatial and temporal comparisons and allows for screening, thus providing a first indication of risk. The results of grass culture studies can suggest risks to biota (e.g. via the food chain) which require further investigation.
The method described in this document does not replace physico-chemical methods of direct measurement or modelling of air pollutants and cannot be replaced by them for its part; it complements them by indicating biological effects.
Potential areas of deployment are:
-   permit procedures related to air pollution legislation;
-   preservation of evidence related to the code for protection from pollution;
-   monitoring of emission sources and performance control;
-   assessment of local-scale emission transport;
-   evidence of causation, e.g. related to environmental liability;
-   air quality maintenance plans/strategies;
-   long-term monitoring of ecological effects of atmospheric depositions;
-   detection and assessment of local, regional, and countrywide effects of atmospheric depositions;
-   assessment of risks for humans and/or animals via the food chain.
This document is of interest to those involved in environmental monitoring.

This document provides requirements for the evaluation process of any rigid PET packaging that does not fall within the definition of a PET bottle as outlined in Part 4 of this document, with respect to compatibility of the design with state-of-the-art collection, sorting and recycling processes, and the characterization of the output(s) compared to a reference material.
Packaging constituents and packaging components made of other materials than PET are also covered by this document as they need to be evaluated on compatibility with PET polymer recycling.

This standard provides a comprehensive set of procedures for verifying the correct implementation of each capability claimed on a BACnet PICS including:
support of each claimed BACnet service, either as an initiator, executor, or both,
support of each claimed BACnet object-type, including both required properties and each claimed optional property,
(support of the BACnet network layer protocol,
support of each claimed data link option, and
support of all claimed special functionality.

This document provides testing procedures and requirements on the evaluation processes for the sortability of plastic packaging with regard to compatibility of the design with state-of-the-art collecting and sorting processes for the plastic used.
This document covers any packaging predominantly made of plastic and separate packaging components predominantly made of plastic, both in case they undergo sorting processes.

This document covers the design of any flexible packaging with the main body of the packaging unit predominantly made of PE or PP and the design of separate components predominantly made of flexible PE or flexible PP, with respect to compatibility of the design with state-of-the-art collection, sorting and recycling processes and useability of the recyclates.
Packaging constituents and packaging components made of other materials than PE and PP are also covered by this document as they need to be evaluated on compatibility with PE or PP polymer recycling.

This document specifies a process for a medical laboratory to identify and manage the risks to patients, laboratory workers and service providers that are associated with medical laboratory examinations. The process includes identifying, estimating, evaluating, controlling and monitoring the risks.
The requirements of this document are applicable to all aspects of the examinations and services of a medical laboratory, including the pre-examination, examination, and post-examination aspects including accurate transmission of examination results into the electronic medical record, as well as other technical and management processes described in ISO 15189.
This document does not specify acceptable levels of risk.
This document does not apply to risks from post-examination clinical decisions made by healthcare providers.
This document complements the management of risks affecting medical laboratory enterprises that are addressed by ISO 31000, such as business, economic, legal, and regulatory risks.

This document provides requirements for the evaluation process of any rigid packaging with the main body of the packaging unit predominantly made of PS or XPS and the design of separate components predominantly made of rigid PS or XPS, with respect to compatibility of the design with state-of-the-art collecting, sorting and recycling processes, and the characterization of the output(s) compared to a reference material.
Packaging constituents and packaging components made of other materials than PS and XPS are also covered by this document as they need to be evaluated on compatibility with PS or XPS polymer recycling.

This document provides requirements for the evaluation process of any rigid packaging which has its main component, in weight, predominantly made of EPS, with respect to compatibility of the design with recycling processes.
Packaging constituents and packaging components made of other materials than EPS are also covered by this document as they need to be evaluated on compatibility with polymer recycling.
Unless otherwise stated, in the interests of better readability, ‘EPS packaging’ always includes ‘EPS white goods packaging and fish boxes’.

This document specifies the characteristics of general-purpose eddy current instruments and provides methods for their evaluation and verification.
This document can be completed by an application document specifying acceptance criteria for the characteristics of the eddy current instrument.
Where accessories are used, these are characterized using the principles of this document (e.g. additional external amplifiers).

This document covers the design of any bottle with the main body of the packaging unit predominantly made of PET and the design of separate components predominantly made of PET, with respect to compatibility of the design with state-of-the-art collecting, sorting and recycling processes and useability of the recyclates in an application.
Packaging constituents and packaging components made of other materials than PET are also covered by this document as they need to be evaluated on compatibility with PET polymer recycling.

This document specifies the requirements for an environmental management system that an organization can use to enhance its environmental performance. It is intended for use by an organization seeking to manage its environmental responsibilities in a systematic manner that contributes to the environmental pillar of sustainability.
This document helps an organization to achieve the intended outcomes of its environmental management system, which provide value for the environment, the organization itself and interested parties. The intended outcomes of an environmental management system include:
enhancing environmental performance;
meeting compliance obligations;
achieving environmental objectives.
This document is applicable to any organization, regardless of size, type or nature, and applies to the environmental aspects of its activities, products and services that the organization determines it can either control or influence considering a life cycle perspective. This document does not state specific environmental performance criteria.
This document can be used in whole or in part to systematically improve environmental management. Claims of conformity to this document, however, are not acceptable unless all its requirements are incorporated into an organization’s environmental management system and fulfilled without exclusion.

This document provides requirements for the evaluation process for bottles predominantly made of PET with respect to compatibility of the design with recycling processes.
Packaging components and ancillary elements made of other materials than PET are also covered by this document as they need to be evaluated for compatibility with the recycling processes.

This document covers the design of any rigid packaging with the main body of the packaging unit predominantly made of PE or PP and the design of separate components predominantly made of rigid PE or rigid PP, with respect to compatibility of the design with state-of-the-art collection, sorting and recycling processes and useability of the recyclates in an application.
Packaging constituents and packaging components made of other materials than PE and PP are also covered by this document as they need to be evaluated on compatibility with PE or PP polymer recycling.

This document provides general product category rules (PCR) for Type III environmental declarations for wood and wood-based products, including wood-based panels, for use in construction and related construction and in-service processes.
This document complements the core rules for the product category of construction products as defined in EN 15804 and is intended to be used in conjunction with EN 15804.
This document does not cover the assessment of social and economic performances at product level.
The core PCR:
—   define the parameters to be declared and the way in which they are collated and reported;
—   describe which stages of a product’s life cycle are considered in the EPD and which processes are to be included in the life cycle stages;
—   define rules for the development of scenarios;
—   include the rules for calculating the life cycle inventory and the life cycle impact assessment underlying the EPD, including the specification of the data quality to be applied;
—   include the rules for reporting predetermined, environmental and health information, that is not covered by LCA for a product, construction process and construction service where necessary;
—   define the conditions under which construction products can be compared based on the information provided by EPD.
For the EPD of construction services, the same rules and requirements apply as for the EPD of construction products.
Additionally, to the common parts of EN 15804, this document for wood and wood-based products:
—   defines the system boundaries;
—   defines the rules for modelling and assessment of material-specific characteristics such as carbon content and net calorific value of wood;
—   defines allocation procedures for multi-output processes along the wood chain;
—   defines allocation procedures for reuse, recycling and energy recovery;
—   includes the rules for calculating the life cycle inventory and the life cycle impact assessment underlying the EPD, including the assessment of carbon and net calorific value of wood;
—   provides guidance/specific rules for the determination of the reference service life (RSL).