| Name |
Description |
Abstract |
Status |
Publication date |
Edition |
Number of pages |
Technical committee |
ICS |
| ISO 20815:2018 |
Petroleum, petrochemical and natural gas industries — Production assurance and reliability management |
This document describes the concept of production assurance within the systems and operations associated with exploration drilling, exploitation, processing and transport of petroleum, petrochemical and natural gas resources. This document covers upstream (including subsea), midstream and downstream facilities, petrochemical and associated activities. It focuses on production assurance of oil and gas production, processing and associated activities and covers the analysis of reliability and maintenance of the components. This includes a variety of business categories and associated systems/equipment in the oil and gas value chain. Production assurance addresses not only hydrocarbon production, but also associated activities such as drilling, pipeline installation and subsea intervention.
This document provides processes and activities, requirements and guidelines for systematic management, effective planning, execution and use of production assurance and reliability technology. This is to achieve cost-effective solutions over the life cycle of an asset development project structured around the following main elements:
— production assurance management for optimum economy of the facility through all of its life cycle phases, while also considering constraints arising from health, safety, environment, and quality;
— planning, execution and implementation of reliability technology;
— application of reliability and maintenance data;
— reliability-based technology development, design and operational improvement.
The IEC 60300-3 series addresses equipment reliability and maintenance performance in general.
This document designates 12 processes, of which seven are defined as core production assurance processes and addressed in this document. The remaining five processes are denoted as interacting processes and are outside the scope of this document. The interaction of the core production assurance processes with these interacting processes, however, is within the scope of this document as the information flow to and from these latter processes is required to ensure that production assurance requirements can be fulfilled.
The only requirement mandated by this document is the establishment and execution of the production assurance programme (PAP). It is important to reflect the PAP in the overall project management in the project for which it applies.
This document recommends that the listed processes and activities be initiated only if they can be considered to add value.
|
Published |
2018-10 |
Edition : 2 |
Number of pages : 99 |
Technical Committee |
75.200
Petroleum products and natural gas handling equipment
;
75.180.01
Equipment for petroleum and natural gas industries in general
|
| ISO 21809-1:2018 |
Petroleum and natural gas industries — External coatings for buried or submerged pipelines used in pipeline transportation systems — Part 1: Polyolefin coatings (3-layer PE and 3-layer PP) |
This document specifies requirements for plant-applied external three-layer polyethylene and polypropylene based coatings for corrosion protection of welded and seamless steel pipes for pipeline transportation systems in the petroleum and natural gas industries in accordance with ISO 13623.
NOTE Pipes coated in accordance with this document are considered suitable for further protection by means of cathodic protection.
|
Published |
2018-10 |
Edition : 2 |
Number of pages : 62 |
Technical Committee |
75.200
Petroleum products and natural gas handling equipment
|
| ISO 21307:2009 |
Plastics pipes and fittings — Butt fusion jointing procedures for polyethylene (PE) pipes and fittings used in the construction of gas and water distribution systems |
ISO 21307:2009 establishes general principles for the process used in the construction and quality assessment of butt fusion joints incorporating fittings (ISO 8085-2) and pipes used in the construction of gas (ISO 4437) and water (ISO 4427) distribution systems, made from PE 80 and PE 100 materials having a melt flow rate at 190 °C/5 g of between 0,3 g/10 min and 1,7 g/10 min, with equipment which complies with ISO 12176-1 and installed in accordance with ISO/TS 10839.
Also specified are a number of proven butt fusion jointing procedures for pipes and fittings with a wall thickness up to and including 70 mm, the materials and components used, the fusion jointing procedure and equipment, and the quality assessment of the completed joint.
|
Withdrawn |
2009-01 |
Edition : 1 |
Number of pages : 13 |
Technical Committee |
75.200
Petroleum products and natural gas handling equipment
;
93.025
External water conveyance systems
;
23.040.20
Plastics pipes
;
23.040.45
Plastics fittings
|
| ISO 21307:2011 |
Plastics pipes and fittings — Butt fusion jointing procedures for polyethylene (PE) pipes and fittings used in the construction of gas and water distribution systems |
ISO 21307:2011 establishes general principles regarding the procedure used in the construction and quality assessment of butt fusion joints incorporating fittings (ISO 8085-2) and pipes used in the construction of gas (ISO 4437) and water (ISO 4427) distribution systems made with equipment that complies with ISO 12176-1 and installed in accordance with ISO/TS 10839, relevant codes of practice, national regulations or industry guidance. Specifically, ISO 21307:2011 specifies a number of proven butt fusion jointing procedures for pipes and fittings with a wall thickness up to and including 70 mm. ISO 21307:2011 takes into consideration the materials and components used, the fusion jointing procedure and equipment and the quality assessment of the completed joint. It can be applied in conjunction with appropriate national regulations and standards.
|
Withdrawn |
2011-05 |
Edition : 2 |
Number of pages : 12 |
Technical Committee |
75.200
Petroleum products and natural gas handling equipment
;
93.025
External water conveyance systems
;
23.040.20
Plastics pipes
;
23.040.45
Plastics fittings
|
| ISO 21307:2017 |
Plastics pipes and fittings — Butt fusion jointing procedures for polyethylene (PE) piping systems |
ISO 21307:2017 establishes general principles regarding the procedure used in the construction and quality assessment of butt fusion jointing of polyethylene (PE) piping system components specified in accordance with relevant ISO standards. These components are installed in accordance with the relevant codes of practice, national regulations or industry guidance. Specifically, this document specifies three butt fusion jointing procedures for PE pipes and fittings. These are:
- single low-pressure fusion jointing procedure;
- dual low-pressure fusion jointing procedure;
- single high-pressure fusion jointing procedure.
ISO 21307:2017 takes into consideration the materials and components used, the fusion jointing procedure and equipment and the quality assessment of the completed joint. It can be applied in conjunction with appropriate national regulations and standards.
|
Published |
2017-12 |
Edition : 3 |
Number of pages : 16 |
Technical Committee |
75.200
Petroleum products and natural gas handling equipment
;
93.025
External water conveyance systems
;
23.040.20
Plastics pipes
;
23.040.45
Plastics fittings
|
| ISO 21307:2017/Amd 1:2020 |
Plastics pipes and fittings — Butt fusion jointing procedures for polyethylene (PE) piping systems — Amendment 1 |
|
Published |
2020-01 |
Edition : 3 |
Number of pages : 2 |
Technical Committee |
75.200
Petroleum products and natural gas handling equipment
;
93.025
External water conveyance systems
;
23.040.20
Plastics pipes
;
23.040.45
Plastics fittings
|
| ISO 21329:2004 |
Petroleum and natural gas industries — Pipeline transportation systems — Test procedures for mechanical connectors |
ISO 21329:2004 specifies requirements and provides guidance for the testing of mechanical connectors for use in pipeline transportation systems for the petroleum and natural gas industries as defined in ISO 13623.
The tests specified in ISO 21329:2004 are intended to form part of the design verification process for connectors. They provide objective evidence that connectors conform to a defined performance envelope.
ISO 21329:2004 does not cover the use of design procedures as part of the qualification process for mechanical connectors, nor does it address fabrication and quality control. However, it can be used as input to a qualification procedure.Although its principles can be applied, ISO 21329:2004 does not address a) connectors that are designed to rotate in use, b) manifolds, c) topsides pipework or piping, d) flanges, e) connectors used in pipelines installed by reeling or J-tube pulls, f) factory acceptance testing, g) statistical bases for risk analysis.
|
Published |
2004-10 |
Edition : 1 |
Number of pages : 81 |
Technical Committee |
75.200
Petroleum products and natural gas handling equipment
|
| ISO 2858:1975 |
End-suction centrifugal pumps (rating 16 bar) — Designation, nominal duty point and dimensions |
Specifies the main parameters and describes the pump designation which consits of three numbers. The table covers flange sizes from 50 mm up to and including 200 mm. A figure shows the side view and the front view of the pump.
|
Published |
1975-02 |
Edition : 2 |
Number of pages : 2 |
Technical Committee |
23.080
Pumps
|
| ISO 21809-2:2007 |
Petroleum and natural gas industries — External coatings for buried or submerged pipelines used in pipeline transportation systems — Part 2: Fusion-bonded epoxy coatings |
ISO 21809-2:2007 specifies the requirements for qualification, application, testing and handling of materials for plant application of single-layer fusion-bonded epoxy (FBE) coatings applied externally for the corrosion protection of bare steel pipe for use in pipeline transportation systems for the petroleum and natural gas industries as defined in ISO 13623.
High-temperature coatings with a glass transition of above 120 °C or FBE primer coatings for three- or multi-layer polyethylene or polypropylene coatings are not covered by ISO 21809-2:2007.
Pipes coated in accordance with ISO 21809-2:2007 are considered suitable for additional protection by means of cathodic protection.
|
Withdrawn |
2007-12 |
Edition : 1 |
Number of pages : 37 |
Technical Committee |
75.200
Petroleum products and natural gas handling equipment
|
| ISO 21809-2:2007/Cor 1:2008 |
Petroleum and natural gas industries — External coatings for buried or submerged pipelines used in pipeline transportation systems — Part 2: Fusion-bonded epoxy coatings — Technical Corrigendum 1 |
|
Withdrawn |
2008-12 |
Edition : 1 |
Number of pages : 1 |
Technical Committee |
75.200
Petroleum products and natural gas handling equipment
|
| ISO 21809-2:2014 |
Petroleum and natural gas industries — External coatings for buried or submerged pipelines used in pipeline transportation systems — Part 2: Single layer fusion-bonded epoxy coatings |
ISO 21809-2:2014 specifies the requirements for qualification, application, testing and handling of materials for plant application of single layer fusion-bonded epoxy (FBE) coatings applied externally for the corrosion protection of bare steel pipe for use in pipeline transportation systems for the petroleum and natural gas industries as defined in ISO 13623.
|
Published |
2014-11 |
Edition : 2 |
Number of pages : 50 |
Technical Committee |
75.200
Petroleum products and natural gas handling equipment
|
| ISO/DIS 21809-2 |
Petroleum and natural gas industries — External coatings for buried or submerged pipelines used in pipeline transportation systems — Part 2: Single layer fusion-bonded epoxy coatings |
|
Deleted |
|
Edition : 3 |
Number of pages : 54 |
Technical Committee |
75.200
Petroleum products and natural gas handling equipment
|
| ISO 21809-3:2008 |
Petroleum and natural gas industries — External coatings for buried or submerged pipelines used in pipeline transportation systems — Part 3: Field joint coatings |
ISO 21809-3:2008 specifies requirements for field joint coating of seamless or welded steel pipes for pipeline transportation systems in the petroleum and natural gas industries as defined in ISO 13623. ISO 21809-3:2008 specifies the qualification, application and testing of the corrosion protection coatings applied to steel surfaces left bare after the pipes and fittings (components) are joined by welding.
ISO 21809-3:2008 does not address additional mechanical protection, thermal insulation or joint infills for concrete weight-coated pipes.
ISO 21809-3:2008 defines and codifies the different types of field joint coatings for buried or submerged pipelines as presented in Table 1.
|
Withdrawn |
2008-12 |
Edition : 1 |
Number of pages : 99 |
Technical Committee |
75.200
Petroleum products and natural gas handling equipment
|
| ISO 21809-3:2008/Amd 1:2011 |
Petroleum and natural gas industries — External coatings for buried or submerged pipelines used in pipeline transportation systems — Part 3: Field joint coatings — Amendment 1 |
|
Withdrawn |
2011-11 |
Edition : 1 |
Number of pages : 15 |
Technical Committee |
75.200
Petroleum products and natural gas handling equipment
|
| ISO 21809-3:2016 |
Petroleum and natural gas industries — External coatings for buried or submerged pipelines used in pipeline transportation systems — Part 3: Field joint coatings |
ISO 21809-3:2016 specifies requirements for field joint coating of seamless or welded steel pipes for buried and submerged sections of pipeline transportation systems used in the petroleum, petrochemical and natural gas industries as defined in ISO 13623. This part of ISO 21809 specifies the qualification, application and testing of the corrosion protection coatings applied to steel surfaces left bare after the joining of pipes and fittings (components) by welding.
ISO 21809-3:2016 defines and codifies in Table 1 the different types of field joint coatings for pipelines.
ISO 21809-3:2016 does not address requirements for additional mechanical protection, for thermal insulation or for joint infills of concrete weight-coated pipes.
NOTE Field joints of pipes and fittings coated in accordance with this part of ISO 21809 are considered suitable for further protection by means of cathodic protection.
|
Published |
2016-03 |
Edition : 2 |
Number of pages : 122 |
Technical Committee |
75.200
Petroleum products and natural gas handling equipment
|
| ISO 21809-3:2016/Amd 1:2020 |
Petroleum and natural gas industries — External coatings for buried or submerged pipelines used in pipeline transportation systems — Part 3: Field joint coatings — Amendment 1: Introduction of mesh-backed coating systems |
|
Published |
2020-03 |
Edition : 2 |
Number of pages : 5 |
Technical Committee |
75.200
Petroleum products and natural gas handling equipment
|
| ISO 3069:1974 |
End suction centrifugal pumps — Dimensions of cavities for mechanical seals and for soft packing |
|
Withdrawn |
1974-07 |
Edition : 1 |
Number of pages : 1 |
Technical Committee |
23.080
Pumps
|
| ISO 3069:2000 |
End-suction centrifugal pumps — Dimensions of cavities for mechanical seals and for soft packing |
|
Published |
2000-11 |
Edition : 2 |
Number of pages : 10 |
Technical Committee |
23.080
Pumps
|
| ISO 21809-5:2010 |
Petroleum and natural gas industries — External coatings for buried or submerged pipelines used in pipeline transportation systems — Part 5: External concrete coatings |
ISO 21809-5:2010 specifies the requirements for qualification, application, testing and handling of materials required for the application of reinforced concrete coating externally to either bare pipe or pre-coated pipe for use in pipeline transportation systems for the petroleum and natural gas industries as defined in ISO 13623.
ISO 21809-5:2010 is applicable to concrete thicknesses of 25 mm or greater.
|
Withdrawn |
2010-04 |
Edition : 1 |
Number of pages : 29 |
Technical Committee |
75.200
Petroleum products and natural gas handling equipment
|
| ISO 21809-5:2017 |
Petroleum and natural gas industries — External coatings for buried or submerged pipelines used in pipeline transportation systems — Part 5: External concrete coatings |
ISO 21809-5:2017 specifies the requirements for qualification, application, testing and handling of materials required for the application of reinforced concrete coating externally to either bare pipe or pre-coated pipe for use in pipeline transportation systems for the petroleum and natural gas industries as defined in ISO 13623.
The external application of concrete is primarily used for the negative buoyancy of pipes used in buried or submerged pipeline systems and/or for the mechanical protection of the pipe and its pre-coating.
ISO 21809-5:2017 is applicable to concrete thicknesses of 25 mm or greater.
|
Published |
2017-06 |
Edition : 2 |
Number of pages : 28 |
Technical Committee |
75.200
Petroleum products and natural gas handling equipment
|
| ISO 21809-11:2019 |
Petroleum and natural gas industries — External coatings for buried or submerged pipelines used in pipeline transportation systems — Part 11: Coatings for in-field application, coating repairs and rehabilitation |
This document specifies the criteria and requirements for the in-field application of coatings, coating repair and coating rehabilitation on buried pipelines.
This document specifies:
— coating assessment (new and existing);
— removal of degraded coatings;
— surface preparation;
— on site or in situ application of external coatings.
It is applicable to petroleum or natural gas pipelines, with or without a cathodic protection system.
The pipelines could be operational during the removal, preparation and application process.
This document states qualification/testing for field contractors and site applied coatings to all of the pipeline components, including bends, tees, fittings, valves and interfaces between different coatings in soil-to-air pipeline sections.
Technical and performance characteristics of the repair and rehabilitation coating materials are referenced to ISO 21809-3.
The coating of field joints is outside the scope of this document. Field joint coatings are dealt with in ISO 21809-3.
This document excludes the application of coatings when the pipeline is immersed (submerged).
|
Published |
2019-04 |
Edition : 1 |
Number of pages : 45 |
Technical Committee |
75.200
Petroleum products and natural gas handling equipment
|
| ISO 21857:2021 |
Petroleum, petrochemical and natural gas industries — Prevention of corrosion on pipeline systems influenced by stray currents |
This document establishes the general principles for the evaluation and minimization of the effects of stray current corrosion on external surfaces of buried or immersed pipeline systems caused by AC and DC electrical interference.
Other stray current effects such as overheating, and interference with welding operations are not covered in this document.
A brief description of AC effects, general principles and some guidelines, are provided.
NOTE 1 See ISO 18086 for the effects of alternating current on buried or immersed pipelines.
Systems that can also be affected by stray currents include buried or immersed metal structures such as the following:
a) pipeline systems;
b) metal sheathed cables;
c) tanks and vessels;
d) earthing systems;
e) steel reinforcement in concrete;
f) sheet steel piling.
This document gives guidelines for
— the design of cathodic protection systems that might produce stray currents,
— the design of pipeline systems, or elements of pipeline systems, which are buried or immersed, and which can be subject to stray current corrosion, and
— the selection of appropriate protection or mitigation measures.
Internal corrosion risks from stray currents are not dealt with in detail in this document but principles and measures described here can be applicable for minimizing the interference effects.
NOTE 2 The impact of electromagnetic interference on above-ground appurtenances of pipeline systems is covered in EN 50443, IEC 61140, IEC 60364-4-41, IEC 60479-1, IEC 60364-5-52, IEC/TS 61201 and IEC/TR 60479-5.
This document can also be used for pipeline systems outside of the petrochemical and natural gas industries and other buried or immersed structures.
NOTE 3 EN 50162 provides guidance for railway related structures.
|
Published |
2021-03 |
Edition : 1 |
Number of pages : 67 |
Technical Committee |
75.200
Petroleum products and natural gas handling equipment
|
| ISO/CD 22504 |
Petroleum and natural gas industries — Pipeline transportation systems — Onshore and offshore pipelines pig traps design requirements |
|
Under development |
|
Edition : 1 |
|
Technical Committee |
75.200
Petroleum products and natural gas handling equipment
|
| ISO 22621-1:2007 |
Plastics piping systems for the supply of gaseous fuels for maximum operating pressures up to and including 2 MPa (20 bar) — Polyamide (PA) — Part 1: General |
ISO 22621-1:2007 specifies the general properties of polyamide (PA) compounds for the manufacture of pipes, fittings and valves made from these compounds, intended to be buried and used for the supply of gaseous fuels at maximum operating pressures (MOP) up to and including 2 MPa (20 bar) .
It also specifies the test parameters for the test methods to which it refers.
ISO 22621-1:2007 establishes a calculation and design scheme on which to base the MOP of a piping system.
|
Withdrawn |
2007-11 |
Edition : 1 |
Number of pages : 29 |
Technical Committee |
75.200
Petroleum products and natural gas handling equipment
;
83.140.30
Plastics pipes and fittings for non fluid use
|
| ISO 3555:1977 |
Centrifugal, mixed flow and axial pumps — Code for acceptance tests — Class B |
|
Withdrawn |
1977-03 |
Edition : 1 |
Number of pages : 36 |
Technical Committee |
23.080
Pumps
|
| ISO 16358-1:2013/Cor 1:2013 |
Air-cooled air conditioners and air-to-air heat pumps — Testing and calculating methods for seasonal performance factors — Part 1: Cooling seasonal performance factor — Technical Corrigendum 1 |
|
Published |
2013-11 |
Edition : 1 |
Number of pages : 1 |
Technical Committee |
23.120
Ventilators. Fans. Air-conditioners
;
27.080
Heat pumps
|
| ISO 22621-2:2007 |
Plastics piping systems for the supply of gaseous fuels for maximum operating pressures up to and including 2 MPa (20 bar) — Polyamide (PA) — Part 2: Pipes |
ISO 22621-2:2007 specifies the physical and mechanical properties of pipes made from polyamide (PA) in accordance with ISO 22621-1, intended to be buried and used for the supply of gaseous fuels at maximum operating pressures (MOP) up to and including 2 MPa (20 bar).
It also specifies the test parameters for the test methods to which it refers.
In addition, it lays down dimensional characteristics and requirements for the marking of pipes.
|
Withdrawn |
2007-11 |
Edition : 1 |
Number of pages : 11 |
Technical Committee |
75.200
Petroleum products and natural gas handling equipment
;
83.140.30
Plastics pipes and fittings for non fluid use
|
| ISO 22621-3:2007 |
Plastics piping systems for the supply of gaseous fuels for maximum operating pressures up to and including 2 MPa (20 bar) — Polyamide (PA) — Part 3: Fittings |
ISO 22621 specifies the physical and mechanical properties of fittings made from polyamide (PA) in accordance with ISO 22621-1, intended to be buried and used for the supply of gaseous fuels at maximum operating pressures (MOP) up to and including 2 MPa (20 bar).
It also specifies the test parameters for the test methods to which it refers.
In addition, it lays down dimensional characteristics and requirements for the marking of fittings.
In conjunction with the other parts of ISO 22621, it is applicable to PA fittings, their joints, to joints with components of PA and to joints with mechanical fittings of other materials, and to the following fitting types: fusion fittings (electrofusion and butt fusion fittings); transition fittings.
|
Withdrawn |
2007-11 |
Edition : 1 |
Number of pages : 22 |
Technical Committee |
75.200
Petroleum products and natural gas handling equipment
;
83.140.30
Plastics pipes and fittings for non fluid use
|
| ISO 22621-5:2010 |
Plastics piping systems for the supply of gaseous fuels for maximum operating pressures up to and including 2 MPa (20 bar) — Polyamide (PA) — Part 5: Fitness for purpose of the system |
ISO 22621-5:2010 specifies the requirements of fitness for purpose of the polyamide (PA) piping system, intended to be buried and used for the supply of gaseous fuels at maximum operating pressures (MOP) up to and including 20 bar (2 MPa).
It specifies the definitions of electrofusion and butt fusion joints.
It also specifies the method of preparation of test piece joints and the tests to be carried out on these joints for assessing the fitness for purpose of the system under normal and extreme conditions.
In addition, it specifies the test parameters for the test methods to which it refers.
In conjunction with the other parts of ISO 22621, it is applicable to PA fittings, their joints and to joints with components of PA.
|
Withdrawn |
2010-04 |
Edition : 1 |
Number of pages : 22 |
Technical Committee |
75.200
Petroleum products and natural gas handling equipment
;
83.140.30
Plastics pipes and fittings for non fluid use
|
| ISO 22621-6:2010 |
Plastics piping systems for the supply of gaseous fuels for maximum operating pressures up to and including 2 MPa (20 bar) — Polyamide (PA) — Part 6: Code of practice for design, handling and installation |
ISO 22621-6:2010 specifies a code of practice dealing with polyamide (PA) piping systems, intended to be buried outside buildings and used for the supply of gaseous fuels.
It is applicable to mains and service lines, the components of which are prepared for jointing by scraping and/or machining, and gives instructions for the design, storage, handling, transportation, laying conditions and fusion quality control of PA pipes and fittings up to and including 250 mm outside diameter, as well as subsequent joint testing, backfilling, pipe system testing, commissioning and decommissioning.
The jointing methods covered by ISO 22621-6:2010 are butt fusion jointing and electrofusion jointing.
|
Withdrawn |
2010-04 |
Edition : 1 |
Number of pages : 21 |
Technical Committee |
75.200
Petroleum products and natural gas handling equipment
;
83.140.30
Plastics pipes and fittings for non fluid use
|
| ISO/FDIS 22974 |
Petroleum and natural gas industry — Pipeline transportation systems — Pipeline integrity assessment specification |
|
Under development |
|
Edition : 1 |
Number of pages : 24 |
Technical Committee |
75.200
Petroleum products and natural gas handling equipment
|
| ISO 22991:2004 |
Gas cylinders — Transportable refillable welded steel cylinders for liquefied petroleum gas (LPG) — Design and construction |
ISO 22991:2004 specifies minimum requirements concerning material, design, construction and workmanship, procedure and test at manufacture of transportable refillable welded steel liquefied petroleum gas (LPG) cylinders of water capacity up to and including 150 l, exposed to ambient temperatures.
|
Published |
2004-05 |
Edition : 1 |
Number of pages : 31 |
Technical Committee |
75.200
Petroleum products and natural gas handling equipment
;
23.020.35
Gas cylinders
|
| ISO 3661:1977 |
End-suction centrifugal pumps — Baseplate and installation dimensions |
Specifies basic dimensions and gives alternative numbers and locations of baseplate fixing holes to suit individual installations. Covers the baseplate numbers from 2 to 9. The data given are intended primarily for use with pumps in accordance with ISO 2858, coupled to foot-mounted electric motors for installation on a foundation.
|
Published |
1977-02 |
Edition : 1 |
Number of pages : 3 |
Technical Committee |
23.080
Pumps
|
| ISO 3669:2020 |
Vacuum technology — Dimensions of knife-edge flanges |
This document specifies the dimensions of fixed or rotatable bolted knife-edge flanges used in vacuum systems for pressures ranging from atmospheric to as low as 10−11 Pa.
|
Published |
2020-02 |
Edition : 3 |
Number of pages : 7 |
Technical Committee |
23.160
Vacuum technology
|
| ISO 24139-1:2022 |
Petroleum and natural gas industries — Corrosion resistant alloy clad bends and fittings for pipeline transportation system — Part 1: Clad bends |
This document specifies the technical delivery conditions regarding design, geometric dimensions, materials, manufacturing procedures, inspection methods, non-destructive testing (NDT), marking, package and storage for corrosion resistant alloy (CRA) clad bends for use in pipeline transportation systems for the petroleum and natural gas industries.
This document is applicable to CRA clad bends for use in transportation or process pipelines transporting corrosive media-containing single-phase or multi-phase fluid such as oil, gas and water for the petroleum and natural gas industries. It can also be used as reference in other fields.
Two technical delivery conditions classes for clad bends are designated. Class B provides a standard quality level for clad bends and Class S provides technical requirements for sour-service conditions. It is the responsibility of the purchaser to specify the appropriated class, based upon the intended use and design requirements.
|
Published |
2022-11 |
Edition : 1 |
Number of pages : 41 |
Technical Committee |
75.200
Petroleum products and natural gas handling equipment
|
| ISO 24139-2:2023 |
Petroleum and natural gas industries — Corrosion resistant alloy clad bends and fittings for pipeline transportation system — Part 2: Clad fittings |
This document specifies the technical delivery conditions regarding design, geometric dimensions, materials, manufacturing procedures, inspection methods, non-destructive testing, marking, package and storage for factory-made, seamless and welded, corrosion resistant alloy (CRA) clad fittings for use in pipeline transportation systems for the petroleum and natural gas industries as defined in ISO 13623.
This document is applicable to CRA clad fittings for use in transportation or process pipelines transporting corrosive media-containing single-phase or multi-phase fluid such as oil, gas and water for the petroleum and natural gas industries. It can also be used as reference in other fields.
The clad fittings specified in this document include clad elbows, clad reducers, clad tees and clad caps.
Two technical delivery conditions classes for clad fittings are designated. Class B provides a standard quality level for clad fittings and Class S provides technical requirements for sour-service conditions.
Fabricated laterals, fabricated lap joint stub ends and other fittings employing circumferential or intersection welds are considered as pipe fabrication and are outside the scope of this document.
|
Published |
2023-02 |
Edition : 1 |
Number of pages : 48 |
Technical Committee |
75.200
Petroleum products and natural gas handling equipment
|
| ISO 27127:2014 |
Thermoplastic multi-layer (non-vulcanized) hoses and hose assemblies for the transfer of liquid petroleum gas and liquefied natural gas — Specification |
ISO 27127:2014 specifies requirements for two types of thermoplastic multi-layer (non-vulcanized) transfer hoses and hose assemblies for carrying liquefied petroleum gas and liquefied natural gas. Each type is subdivided into two classes, one for onshore duties, and the other for offshore.
Class A hose is for use onshore.
Class B hose is for use offshore.
ISO 27127:2014 is applicable for hose sizes from 25 mm to 250 mm, working pressures from 10,5 bar to 25 bar and operating temperatures from -196 °C to +45 °C, according to class.
|
Withdrawn |
2014-07 |
Edition : 1 |
Number of pages : 18 |
Technical Committee |
75.200
Petroleum products and natural gas handling equipment
;
83.140.40
Hoses
|
| ISO 27127:2021 |
Thermoplastic multi-layer (non-vulcanized) hoses and hose assemblies for the transfer of liquid petroleum gas and liquefied natural gas — Specification |
This document specifies requirements for two types of thermoplastic multi-layer (non-vulcanized) transfer hoses and hose assemblies for carrying liquefied petroleum gas and liquefied natural gas. Each type is subdivided into two classes, one for onshore duties, and the other for offshore.
— Class A hose is for use onshore.
— Class B hose is for use offshore.
This document is applicable for hose sizes from 25 mm to 250 mm, working pressures from 10,5 bar to 25 bar and operating temperatures from −196 °C to +45 °C, according to class.
NOTE Offshore liquefied natural gas (LNG) hose assemblies are also specified in EN 1474-2. EN 1474-2 does not only specify offshore use, but also ship to shore and other LNG transfer applications.
|
Published |
2021-11 |
Edition : 2 |
Number of pages : 20 |
Technical Committee |
75.200
Petroleum products and natural gas handling equipment
;
83.140.40
Hoses
|
| ISO 28460:2010 |
Petroleum and natural gas industries — Installation and equipment for liquefied natural gas — Ship-to-shore interface and port operations |
ISO 28460:2010 specifies the requirements for ship, terminal and port service providers to ensure the safe transit of an LNG carrier through the port area and the safe and efficient transfer of its cargo. It is applicable to
pilotage and vessel traffic services (VTS);
tug and mooring boat operators;
terminal operators;
ship operators;
suppliers of bunkers, lubricants and stores and other providers of services whilst the LNG carrier is moored alongside the terminal.
ISO 28460:2010 includes provisions for
a ship's safe transit, berthing, mooring and unberthing at the jetty;
cargo transfer;
access from jetty to ship;
operational communications between ship and shore;
all instrumentation, data and electrical connections used across the interface, including OPS (cold ironing), where applicable;
the liquid nitrogen connection (where fitted);
ballast water considerations.
ISO 28460:2010 applies only to conventional onshore LNG terminals and to the handling of LNGC's in international trade. However, it can provide guidance for offshore and coastal operations.
|
Published |
2010-12 |
Edition : 1 |
Number of pages : 28 |
Technical Committee |
75.200
Petroleum products and natural gas handling equipment
|
| ISO 2548:1973 |
Centrifugal, mixed flow and axial pumps — Code for acceptance tests — Class C |
|
Withdrawn |
1973-06 |
Edition : 1 |
Number of pages : 34 |
Technical Committee |
23.080
Pumps
|
| ISO 5199:1986 |
Technical specifications for centrifugal pumps — Class II |
Covers class II requirements for pumps of back pull-out construction as used primarily in the chemical and petrochemical industries. Includes design features concerned with installation, maintenance and safety for these pumps, including baseplate couplings and auxiliary piping but excluding the driver.
|
Withdrawn |
1986-04 |
Edition : 1 |
Number of pages : 37 |
Technical Committee |
23.080
Pumps
|
| ISO 5199:2002 |
Technical specifications for centrifugal pumps — Class II |
|
Published |
2002-03 |
Edition : 2 |
Number of pages : 57 |
Technical Committee |
23.080
Pumps
|
| ISO 9905:1994 |
Technical specifications for centrifugal pumps — Class I |
Consists of a basic text covering general requirements. The technical requirements refer only to the pump unit. Includes design features concerned with installation, maintenance and safety of such pumps, including baseplate, coupling and auxiliary piping. The selection of the class to be used is made in accordance with the technical requirements for the application for which the pump is intended. The class chosen is to be agreed between purchaser and manufacturer/supplier.
|
Published |
1994-05 |
Edition : 1 |
Number of pages : 72 |
Technical Committee |
23.080
Pumps
|
| ISO 9905:1994/Amd 1:2011 |
Technical specifications for centrifugal pumps — Class I — Amendment 1 |
|
Published |
2011-04 |
Edition : 1 |
Number of pages : 2 |
Technical Committee |
23.080
Pumps
|
| ISO 9905:1994/Cor 1:2005 |
Technical specifications for centrifugal pumps — Class I — Technical Corrigendum 1 |
|
Published |
2005-02 |
Edition : 1 |
Number of pages : 1 |
Technical Committee |
23.080
Pumps
|
| ISO 9906:1999 |
Rotodynamic pumps — Hydraulic performance acceptance tests — Grades 1 and 2 |
|
Withdrawn |
1999-12 |
Edition : 1 |
Number of pages : 61 |
Technical Committee |
23.080
Pumps
|
| ISO 9906:2012 |
Rotodynamic pumps — Hydraulic performance acceptance tests — Grades 1, 2 and 3 |
ISO 9906:2012 specifies hydraulic performance tests for customers' acceptance of rotodynamic pumps (centrifugal, mixed flow and axial pumps). It is intended to be used for pump acceptance testing at pump test facilities, such as manufacturers' pump test facilities or laboratories. ISO 9906:2012 can be applied to pumps of any size and to any pumped liquids which behave as clean, cold water.
It specifies three levels of acceptance:
grades 1B, 1E and 1U with tighter tolerance;
grades 2B and 2U with broader tolerance;
grade 3B with even broader tolerance.
It applies either to a pump itself without any fittings or to a combination of a pump associated with all or part of its upstream and/or downstream fittings.
|
Published |
2012-05 |
Edition : 2 |
Number of pages : 59 |
Technical Committee |
23.080
Pumps
|
| ISO 9908:1993 |
Technical specifications for centrifugal pumps — Class III |
Covers class III requirements for centrifugal pumps of single stage, multistage, horizontal or vertical construction (coupled or close-coupled) with any drive and any installation for general application. Includes design features concerned with installation, maintenance and safety of such pumps including baseplate, coupling and auxiliary piping but excluding the driver, if it is not an integral part of the pump.
|
Published |
1993-11 |
Edition : 1 |
Number of pages : 21 |
Technical Committee |
23.080
Pumps
|
| ISO 9908:1993/Amd 1:2011 |
Technical specifications for centrifugal pumps — Class III — Amendment 1 |
|
Published |
2011-04 |
Edition : 1 |
Number of pages : 1 |
Technical Committee |
23.080
Pumps
|
| ISO/ASME 14414:2015 |
Pump system energy assessment |
ISO/ASME 14414:2015 sets the requirements for conducting and reporting the results of a pumping system energy assessment (hereafter referenced as "assessment") that considers the entire pumping system, from energy inputs to the work performed as the result of these inputs.
The objective of a pumping system energy assessment is to determine the current energy consumption of an existing system and identify ways to improve system efficiency.
These requirements consist of
organizing and conducting an assessment,
analysing the data from the assessment, and
reporting and documenting assessment findings.
ISO/ASME 14414:2015 is designed to be applied, to open and closed loop pumping systems typically used at industrial, institutional, commercial, and municipal facilities, when requested.
ISO/ASME 14414:2015 is focused on assessing electrically-driven pumping systems, which are dominant in most facilities, but is applicable with other types of drivers, such as steam turbines and engines, and drives such as belt.
|
Withdrawn |
2015-04 |
Edition : 1 |
Number of pages : 61 |
Technical Committee |
23.080
Pumps
|
| ISO/ASME 14414:2015/Amd 1:2016 |
Pump system energy assessment — Amendment 1 |
|
Withdrawn |
2016-04 |
Edition : 1 |
Number of pages : 1 |
Technical Committee |
23.080
Pumps
|
| ISO 17769-2:2012 |
Liquid pumps and installation — General terms, definitions, quantities, letter symbols and units — Part 2: Pumping system |
ISO 17769-2:2012 specifies terms, letter symbols and units related to the flow of liquids through rotodynamic and positive displacement liquid pumps and associated installations. It serves as a means of clarifying communications between the installation designer, manufacturer, operator and plant constructor.
ISO 17769-2:2012 identifies the units in common usage, but all additional legal units can be used.
ISO 17769-2:2012 deals mainly with pumping systems.
|
Published |
2012-07 |
Edition : 1 |
Number of pages : 27 |
Technical Committee |
23.080
Pumps
|
| ISO/ASME 14414:2019 |
Pump system energy assessment |
This document sets the requirements for conducting and reporting the results of a pumping system energy assessment (hereafter referenced as "assessment") that considers the entire pumping system, from energy inputs to the work performed as the result of these inputs.
The objective of a pumping system energy assessment is to determine the current energy consumption of an existing system and identify ways to improve system efficiency.
These requirements consist of
— organizing and conducting an assessment,
— analysing the data from the assessment, and
— reporting and documenting assessment findings.
This document is designed to be applied, to open and closed loop pumping systems typically used at industrial, institutional, commercial, and municipal facilities, when requested.
This document is focused on assessing electrically-driven pumping systems, which are dominant in most facilities, but is also applicable with other types of drivers, such as steam turbines and engines. The document does not
a) specify how to design a pumping system,
b) give detailed qualifications and expertise required of the person using the International Standard although provides a list of body of knowledge in Annex C,
c) address the training or certification of persons,
d) specify how to implement the recommendations developed during the assessment, but does include requirements for an action plan,
e) specify how to measure and validate the energy savings that result from implementing assessment recommendations,
f) specify how to make measurements and how to calibrate test equipment used during the assessment,
g) specify how to estimate the implementation cost or conduct financial analysis for recommendations developed during the assessment,
h) specify specific steps required for safe operation of equipment during the assessment. The facility personnel in charge of normal operation of the equipment are responsible for ensuring that it is operated safely during the data collection phase of the assessment,
i) address issues of intellectual property, security, confidentiality, and safety.
|
Published |
2019-01 |
Edition : 2 |
Number of pages : 56 |
Technical Committee |
23.080
Pumps
|
| ISO 14617-9:2002 |
Graphical symbols for diagrams — Part 9: Pumps, compressors and fans |
This part of ISO 14617 specifies graphical symbols for pumps, compressors and fans, used mainly for transportation, in diagrams.
|
Published |
2002-09 |
Edition : 1 |
Number of pages : 10 |
Technical Committee |
23.080
Pumps
;
23.120
Ventilators. Fans. Air-conditioners
;
23.140
Compressors and pneumatic machines
;
01.080.30
Graphical symbols for use on mechanical engineering and construction drawings, diagrams, plans, maps and in relevant technical product documentation
|
| ISO 14847:1999 |
Rotary positive displacement pumps — Technical requirements |
|
Published |
1999-04 |
Edition : 1 |
Number of pages : 17 |
Technical Committee |
23.080
Pumps
|
| ISO 15783:2002 |
Seal-less rotodynamic pumps — Class II — Specification |
1.1 This International Standard specifies the requirements for seal-less rotodynamic pumps that are driven with
permanent magnet coupling (magnet drive pumps) or with canned motor, and which are mainly used in chemical
processes, water treatment and petrochemical industries. Their use can be dictated by space, noise, environment
or safety regulations.
Seal-less pumps are pumps where an inner rotor is completely contained in a pressure vessel holding the pumped
fluid. The pressure vessel or primary containment device is sealed by static seals such as gaskets or O-rings.
1.2 Pumps will normally conform to recognized standard specifications (e.g. ISO 5199, explosion protection,
electromagnetic compatibility), except where special requirements are specified herein.
1.3 This International Standard includes design features concerned with installation, maintenance and
operational safety of the pumps, and defines those items to be agreed upon between the purchaser and
manufacturer/supplier.
1.4 Where conformity to this International Standard has been requested and calls for a specific design feature,
alternative designs may be offered providing that they satisfy the intent of this International Standard and they are
described in detail. Pumps which do not conform with all requirements of this International Standard may also be
offered providing that the deviations are fully identified and described.
Whenever documents include contradictory requirements, they should be applied in the following sequence of
priority:
a) purchase order (or inquiry, if no order placed), see annexes D and E;
b) data sheet (see annex A) or technical sheet or specification;
c) this International Standard;
d) other standards.
|
Published |
2002-02 |
Edition : 1 |
Number of pages : 44 |
Technical Committee |
23.080
Pumps
|
| ISO 15783:2002/Amd 1:2008 |
Seal-less rotodynamic pumps — Class II — Specification — Amendment 1 |
|
Published |
2008-11 |
Edition : 1 |
Number of pages : 7 |
Technical Committee |
23.080
Pumps
|
| ISO 16330:2003 |
Reciprocating positive displacement pumps and pump units — Technical requirements |
ISO 16330:2003 specifies the technical requirements, other than safety and testing, for reciprocating positive displacement pumps and pump units. It applies to pumps which utilize reciprocating motion derived from crankshafts and camshafts and also direct-acting fluid driven pumps. It does not apply to reciprocating positive displacement pumps, nor pumping water, where the whole pump is lubricated with the liquid being pumped.
|
Published |
2003-05 |
Edition : 1 |
Number of pages : 21 |
Technical Committee |
23.080
Pumps
|
| ISO 17613-1:2006 |
Manually operated pumps for drinking water — Selection and acceptance — Part 1: Southeast Asia |
17613-1:2006 gives recommendations for the selection and acceptance of manually operated pumps suitable for lifting water, free of sand and/or suspended particles, from shallow and deep borewells situated in Southeast Asia.
|
Withdrawn |
2006-05 |
Edition : 1 |
Number of pages : 13 |
Technical Committee |
23.080
Pumps
|
| ISO/TR 17766:2005 |
Centrifugal pumps handling viscous liquids — Performance corrections |
ISO/TR 17766:2005 gives performance corrections for all worldwide designs of centrifugal pumps of conventional design, in the normal operating range, with open or closed impellers, single or double suction, pumping Newtonian fluids.
|
Withdrawn |
2005-12 |
Edition : 1 |
Number of pages : 35 |
Technical Committee |
23.080
Pumps
|
| ISO 17769-1:2012 |
Liquid pumps and installation — General terms, definitions, quantities, letter symbols and units — Part 1: Liquid pumps |
ISO 17769-1:2012 specifies terms, letter symbols and units related to the flow of liquids through rotodynamic and positive displacement liquid pumps and associated installations. It serves as a means of clarifying communications between the installation designer, manufacturer, operator and plant constructor. It identifies the units in common usage, but all additional legal units can be used.
ISO 17769-1:2012 deals solely with conditions described by positive values for the rate of flow and pump head.
|
Published |
2012-07 |
Edition : 1 |
Number of pages : 181 |
Technical Committee |
23.080
Pumps
|
| ISO 17769:2008 |
Liquid pumps and installation — General terms — Definitions, quantities, letter symbols and units |
ISO 17769:2008 deals with terms, letter symbols and units related to the flow of liquids through rotodynamic and positive displacement liquid pumps and associated installations. It serves as a means of clarifying communications between the installation designer, manufacturer, operator and plant constructor.
ISO 17769:2008 identifies the units in common usage but all other legal units can be used.
ISO 17769:2008 deals solely with conditions described by positive values for the rate of flow and pump head. The definitions are set out showing, first, the most common form of a quantity followed by some frequently used variants. Other variants can be constructed and appropriate symbols evolved using the symbols and subscripts shown. Prefixes such as “working” and “design” can also be applied to the defined quantities.
|
Withdrawn |
2008-03 |
Edition : 1 |
Number of pages : 48 |
Technical Committee |
23.080
Pumps
|
| ISO/TR 19688:2019 |
Rotodynamic pumps — Hydraulic performance acceptance test using a model pump |
This document describes hydraulic performance tests (including cavitation tests) using a small size pump (centrifugal, mixed flow or axial pump, hereinafter referred to as a "model pump").
This document is used for pump acceptance tests with a geometrically similar model pump to guarantee the performance of a large size pump manufactured for practical use (hereinafter, a "prototype pump"). This document, however does not preclude a temporary assembly inspection or other tests on the prototype pump. Moreover, it is preferable to conduct the tests with prototype pumps unless
— the capacity of the pump, namely its flow rate and/or its power input, is beyond the limitations of the test facility, though it is difficult to set a criterion for carrying out a model pump test instead of the prototype pump test in terms of the volume rate of flow or the power input,
— a part of the pump is to be constructed by concrete walls and reproduction of the whole assembly is impractical,
— model tests are specified by the purchaser, or
— it is difficult to carry out the prototype pump test due to any other reasons.
This document applies to performance tests under steady operating conditions corresponding to the prototype pump.
|
Published |
2019-01 |
Edition : 1 |
Number of pages : 44 |
Technical Committee |
23.080
Pumps
|
| ISO 20361:2007 |
Liquid pumps and pump units — Noise test code — Grades 2 and 3 of accuracy |
ISO 20361:2007 specifies all the information necessary to carry out efficiently and under standardized conditions the determination, declaration and verification of the airborne noise emission of liquid pumps or pump units. It specifies the noise measurement methods and the operating and mounting conditions that shall be used for the test.
The use of ISO 20361:2007 ensures the reproducibility of the determination of the airborne noise-emission characteristics within specified limits determined by the grade of accuracy of the basic airborne noise measurement method used. Noise measurement methods according to ISO 20361:2006 are engineering methods (grade 2) and survey methods (grade 3).
ISO 20361:2007 does not deal with the characterization of the structure-borne sound and liquid-borne noise generated by liquid pumps.
|
Withdrawn |
2007-02 |
Edition : 1 |
Number of pages : 21 |
Technical Committee |
23.080
Pumps
;
17.140.20
Noise emitted by machines and equipment
|
| ISO 20361:2015 |
Liquid pumps and pump units — Noise test code — Grades 2 and 3 of accuracy |
ISO 20361:2015 specifies all the information necessary to carry out efficiently and under standardized conditions the determination, declaration, and verification of the airborne noise emission of liquid pumps or pump units. It specifies the noise measurement methods and the operating and mounting conditions that shall be used for the test.
Noise emission characteristics include emission sound pressure levels at specified positions and the sound power level. The determination of these quantities is necessary for
declaring the noise emission values, and
purpose of noise control at source at the design stage.
The determination of these quantities is also necessary for comparing the noise emitted by liquid pumps on the market.
The use of ISO 20361:2015 ensures the reproducibility of the determination of the airborne noise-emission characteristics within specified limits determined by the grade of accuracy of the basic airborne noise measurement method used. Noise measurement methods according to ISO 20361:2015 are engineering methods (grade 2) and survey methods (grade 3).
ISO 20361:2015 does not deal with the characterization of the structure-borne sound and liquid-borne noise generated by liquid pumps.
|
Withdrawn |
2015-06 |
Edition : 2 |
Number of pages : 22 |
Technical Committee |
23.080
Pumps
;
17.140.20
Noise emitted by machines and equipment
|
| ISO 20361:2019 |
Liquid pumps and pumps units — Noise test code — Grades 2 and 3 of accuracy |
This document specifies all the information necessary to carry out efficiently and under standardized conditions the determination, declaration, and verification of the airborne noise emission of liquid pumps or pump units (see 4.1). It specifies the noise measurement methods and the operating and mounting conditions that shall be used for the test.
Noise emission characteristics include emission sound pressure levels at specified positions and the sound power level. The determination of these quantities is necessary for
— declaring the noise emission values, and
— purpose of noise control at source at the design stage.
The determination of these quantities is also necessary for comparing the noise emitted by liquid pumps on the market.
The use of this document ensures the reproducibility of the determination of the airborne noise-emission characteristics within specified limits determined by the grade of accuracy of the basic airborne noise measurement method used. Noise measurement methods according to this document are engineering methods (grade 2) and survey methods (grade 3).
This document does not deal with the characterization of the structure-borne sound and liquid-borne noise generated by liquid pumps.
NOTE This document is specified in EN 809+A1 for noise measurements of the pump (or pump unit).
|
Published |
2019-07 |
Edition : 3 |
Number of pages : 24 |
Technical Committee |
23.080
Pumps
;
17.140.20
Noise emitted by machines and equipment
|
| ISO 21049:2004 |
Pumps — Shaft sealing systems for centrifugal and rotary pumps |
ISO 21049:2004 specifies requirements and gives recommendations for sealing systems for centrifugal and rotary pumps used in the petroleum, natural gas and chemical industries. It is applicable mainly for hazardous, flammable and/or toxic services where a greater degree of reliability is required for the improvement of equipment availability and the reduction of both emissions to the atmosphere and life-cycle sealing costs. It covers seals for pump shaft diameters from 20 mm (0,75 in) to 110 mm (4,3 in).
ISO 21049:2004 is also applicable to seal spare parts and can be referred to for the upgrading of existing equipment. A classification system for the seal configurations covered by ISO 21049:2004 into categories, types, arrangements and orientations is provided.
|
Published |
2004-02 |
Edition : 1 |
Number of pages : 195 |
Technical Committee |
23.080
Pumps
;
23.100.60
Filters, seals and contamination of fluids
;
83.140.50
Seals
|
| ISO 21630:2007 |
Pumps — Testing — Submersible mixers for wastewater and similar applications |
ISO 21630:2007 prescribes acceptance test methods for submersible mixers used for mixing in wastewater and other applications where at least one system component is a liquid.
"Submersible mixer" is taken to mean a fully submersible aggregate consisting of a drive unit and an axial flow type impeller, and optional parts, such as shrouds, supporting the basic functions.
"Liquid" is taken to mean a body without capacity to accommodate shear stresses when at rest. This includes suspensions and dispersions (liquid/solid, gas/liquid and gas/liquid/solid), and non-Newtonian liquids, provided that a possible small yield stress does not prevent the liquid from flowing when agitated.
|
Published |
2007-08 |
Edition : 1 |
Number of pages : 21 |
Technical Committee |
23.080
Pumps
|
| ISO 3019-1:1975 |
Hydraulic fluid power — Positive displacement pumps and motors — Dimensions and identification code for mounting flanges and shaft ends — Part 1: Inch series shown in metric units |
|
Withdrawn |
1975-02 |
Edition : 1 |
Number of pages : 8 |
Technical Committee |
23.100.10
Pumps and motors
|
| ISO 3019-1:2001 |
Hydraulic fluid power — Dimensions and identification code for mounting flanges and shaft ends of displacement pumps and motors — Part 1: Inch series shown in metric units |
This part of ISO 3019 specifies sizes and dimensions and establishes an identification code for the two- and fourbolt
mounting flanges and the shaft ends of positive-displacement, rotary hydraulic fluid power pumps and motors.
It is applicable to cylindrical keyed shaft ends with an external thread, as well as to those without a thread, to
conical keyed shaft ends with an external thread and to 30° involute spline shaft ends.
NOTE Involute spline is in accordance with SAE J744 [1].
|
Published |
2001-06 |
Edition : 2 |
Number of pages : 12 |
Technical Committee |
23.100.10
Pumps and motors
|
| ISO 3019-2:1980 |
Hydraulic fluid power — Positive displacement pumps and motors — Dimensions and identification code for mounting flanges and shaft ends — Part 2: 2 and 4-hole flanges and shaft ends — Metric series |
|
Withdrawn |
1980-04 |
Edition : 1 |
Number of pages : 12 |
Technical Committee |
23.100.10
Pumps and motors
|
| ISO 3019-2:1986 |
Hydraulic fluid power — Positive displacement pumps and motors — Dimensions and identification code for mounting flanges and shaft ends — Part 2: Two- and four-hole flanges and shaft ends — Metric series |
|
Withdrawn |
1986-08 |
Edition : 2 |
Number of pages : 13 |
Technical Committee |
23.100.10
Pumps and motors
|
| ISO 3019-2:2001 |
Hydraulic fluid power — Dimensions and identification code for mounting flanges and shaft ends of displacement pumps and motors — Part 2: Metric series |
|
Published |
2001-06 |
Edition : 3 |
Number of pages : 19 |
Technical Committee |
23.100.10
Pumps and motors
|
| ISO 3019-2:2001/Cor 1:2006 |
Hydraulic fluid power — Dimensions and identification code for mounting flanges and shaft ends of displacement pumps and motors — Part 2: Metric series — Technical Corrigendum 1 |
|
Published |
2006-12 |
Edition : 3 |
Number of pages : 1 |
Technical Committee |
23.100.10
Pumps and motors
|
| ISO 3019-3:1981 |
Hydraulic fluid power — Positive displacement pumps and motors — Dimensions and identification code for mounting flanges and shaft ends — Part 3: Polygonal flanges (including circular flanges) |
|
Withdrawn |
1981-12 |
Edition : 1 |
Number of pages : 5 |
Technical Committee |
23.100.10
Pumps and motors
|
| ISO 3019-3:1988 |
Hydraulic fluid power — Positive displacement pumps and motors — Dimensions and identification code for mounting flanges and shaft ends — Part 3: Polygonal flanges (including circular flanges) |
|
Withdrawn |
1988-10 |
Edition : 2 |
Number of pages : 5 |
Technical Committee |
23.100.10
Pumps and motors
|
| ISO 3662:1976 |
Hydraulic fluid power — Pumps and motors — Geometric displacements |
Establishes the geometric displacements of pumps and motors having rotating or oscillating drives, and is also applicable to variable displacement units; in such cases, the values refer to the maximum displacement. The displacements specified may be used to derive other basic design criteria and normal ratings. Tabulates nominal values for diplacements from 0,1 up to and including 9000 millilitres per revolution.
|
Published |
1976-11 |
Edition : 1 |
Number of pages : 2 |
Technical Committee |
23.100.10
Pumps and motors
|
| ISO 4391:1983 |
Hydraulic fluid power — Pumps, motors and integral transmissions — Parameter definitions and letter symbols |
Describes and systematically defines the principal technical characteristics, and allots letter symbols to these characteristics, and indicates how they can be more clearly defined by suffixes corresponding to particulate cases. Lists also an analysis of parameter dimensions. Gives examples for the use of symbols with suffix, and includes definition of terms without symbols.
|
Published |
1983-06 |
Edition : 2 |
Number of pages : 10 |
Technical Committee |
23.100.10
Pumps and motors
|
| ISO 4392-1:1988 |
Hydraulic fluid power — Determination of characteristics of motors — Part 1: At constant low speed and at constant pressure |
|
Withdrawn |
1988-04 |
Edition : 1 |
|
Technical Committee |
23.100.10
Pumps and motors
|
| ISO 4392-1:1989 |
Hydraulic fluid power — Determination of characteristics of motors — Part 1: At constant low speed and at constant pressure |
This part describes a method of determining the characteristics of motors, of either fixed or variable displacement types. The accuracy of measurements is divided into 3 classes, A, B, and C which are explained in annex A. Figure 1 shows a typical test circuit for bidirectional motor. The informative annex B contains the bibliography. This second edition cancels and replaces the first edition (1988).
|
Withdrawn |
1989-08 |
Edition : 2 |
Number of pages : 7 |
Technical Committee |
23.100.10
Pumps and motors
|
| ISO 4392-1:2002 |
Hydraulic fluid power — Determination of characteristics of motors — Part 1: At constant low speed and constant pressure |
This part of ISO 4392 describes a method of determining the low speed characteristics of positive displacement rotary fluid power motors, of either fixed or variable displacement types.
The method involves testing at slow speeds which may generate frequencies having a significant influence upon the steady continuous torque output of the motor and affect the system to which the motor would be connected.
|
Published |
2002-02 |
Edition : 3 |
Number of pages : 11 |
Technical Committee |
23.100.10
Pumps and motors
|
| ISO 4392-2:1988 |
Hydraulic fluid power — Determination of characteristics of motors — Part 2: Startability |
|
Withdrawn |
1988-03 |
Edition : 1 |
|
Technical Committee |
23.100.10
Pumps and motors
|
| ISO 4392-2:1989 |
Hydraulic fluid power — Determination of characteristics of motors — Part 2: Startability |
This part specifies two test methods for hydraulic motors. Describes two comparable methods of measurement, namely the constant torque method and the constant pressure method. The accuracy of measurements is divided into 3 classes, A, B, and C which are explained in the normative annex A. The normative annex B includes the classes of measurement accuracy, and the normative annex C contains the use of practical units. This second edition cancels and replaces the first edition (1988).
|
Withdrawn |
1989-08 |
Edition : 2 |
Number of pages : 10 |
Technical Committee |
23.100.10
Pumps and motors
|
| ISO 4392-2:2002 |
Hydraulic fluid power — Determination of characteristics of motors — Part 2: Startability |
This part of ISO 4392 specifies two test methods for determining the startability of rotary hydraulic motors. It describes two comparable methods of measurement, namely the constant torque method and the constant pressure method. Since the results obtained by these two methods are equivalent, no preference is given to either.
|
Published |
2002-02 |
Edition : 3 |
Number of pages : 14 |
Technical Committee |
23.100.10
Pumps and motors
|
| ISO 4392-3:1993 |
Hydraulic fluid power — Determination of characteristics of motors — Part 3: At constant flow and at constant torque |
Describes a method of determining the low-speed characteristics of positive-displacement rotary fluid power motors under constand flow and constant torque conditions. The method involves testing at slow speeds, which may generate frequencies having a significant influence upon the steady continuous torque output of the motor and affect the system to which the motor would be connected. The accuracy of measurement is divided into three classes, A, B and C, which are explained in annex A.
|
Published |
1993-12 |
Edition : 1 |
Number of pages : 10 |
Technical Committee |
23.100.10
Pumps and motors
|
| ISO 4409:1986 |
Hydraulic fluid power — Positive displacement pumps, motors and integral transmissions — Determination of steady-state performance |
Specifies methods for determining the performance and efficiency of equipment, and applies to components having continuously rotating shafts. Describes requirements for test installations, test procedures, and the presentation of test results. Annex A gives guidance as to the use of practical units, annex B contains information on errors and classes of measurement accuracy, and annex C provides a pretest checklist of those items on which agreement is recommended between the parties concerned.
|
Withdrawn |
1986-10 |
Edition : 1 |
Number of pages : 15 |
Technical Committee |
23.100.10
Pumps and motors
|
| ISO 4409:2007 |
Hydraulic fluid power — Positive-displacement pumps, motors and integral transmissions — Methods of testing and presenting basic steady state performance |
ISO 4409:2007 specifies methods for determining the performance and efficiency of hydraulic fluid power positive displacement pumps, motors and integral transmissions. It applies to components having continuously rotating shafts.
ISO 4409:2007 specifies the requirements for test installations, test procedures under steady-state conditions and the presentation of test results.
|
Withdrawn |
2007-04 |
Edition : 2 |
Number of pages : 23 |
Technical Committee |
23.100.10
Pumps and motors
|
| ISO 4409:2019 |
Hydraulic fluid power — Positive-displacement pumps, motors and integral transmissions — Methods of testing and presenting basic steady state performance |
This document specifies methods for determining the performance and efficiency of hydraulic fluid power positive displacement pumps, motors and integral transmissions. It applies to components having continuously rotating shafts.
This document specifies the requirements for test installations, test procedures under steady-state conditions and the presentation of test results.
|
Published |
2019-07 |
Edition : 3 |
Number of pages : 26 |
Technical Committee |
23.100.10
Pumps and motors
|
| ISO 4412-1:1979 |
Hydraulic fluid power — Test code for the determination of airborne noise levels — Part 1: Pumps |
|
Withdrawn |
1979-11 |
Edition : 1 |
Number of pages : 6 |
Technical Committee |
17.140.20
Noise emitted by machines and equipment
;
23.100.10
Pumps and motors
|
| ISO 4412-1:1991 |
Hydraulic fluid power — Test code for determination of airborne noise levels — Part 1: Pumps |
Establishes a test code describing procedures based on ISO 2204. Applies to all types of fluid power pumps. Guidelines for application are given in annex C. This second edition cancels and replaces the first edition (1979). Annexes C and D are for information only.
|
Published |
1991-08 |
Edition : 2 |
Number of pages : 20 |
Technical Committee |
17.140.20
Noise emitted by machines and equipment
;
23.100.10
Pumps and motors
|
| ISO 4412-2:1984 |
Hydraulic fluid power — Test code for the determination of airborne noise levels — Part 2: Motors |
|
Withdrawn |
1984-05 |
Edition : 1 |
Number of pages : 6 |
Technical Committee |
17.140.20
Noise emitted by machines and equipment
;
23.100.10
Pumps and motors
|
| ISO 4412-2:1991 |
Hydraulic fluid power — Test code for determination of airborne noise levels — Part 2: Motors |
Establishes a test code describing procedures based on ISO 2204. Applies to all types of fluid power motors. Guidelines for application are given in annex C. This second edition cancels and replaces the first edition (1984). Annexes C and D are for information only.
|
Published |
1991-08 |
Edition : 2 |
Number of pages : 20 |
Technical Committee |
17.140.20
Noise emitted by machines and equipment
;
23.100.10
Pumps and motors
|
| ISO 4412-3:1991 |
Hydraulic fluid power — Test code for determination of airborne noise levels — Part 3: Pumps — Method using a parallelepiped microphone array |
This part closely follows the methods described in the two other parts, but allows the use of alternative pump mounting and drive configurations which are simpler and cheaper to implement in an anechoic chamber. May also be applied to test motors.
|
Published |
1991-08 |
Edition : 1 |
Number of pages : 9 |
Technical Committee |
17.140.20
Noise emitted by machines and equipment
;
23.100.10
Pumps and motors
|
| ISO 8426:1988 |
Hydraulic fluid power — Positive displacement pumps and motors — Determination of derived capacity |
Specifies the methods for determining the derived capacity under steady-state conditions and at defined, continuously rotating shaft speeds. The unit may be tested as a pump, with mechanical energy applied to the shaft and hydraulic energy obtained at the fluid connections, or as a motor, with the hydraulic energy supplied to the fluid connections and mechanical energy obtained at the shaft. Accuracy of measurement is divided into three classes (A, B, and C) which are explained in annex A.
|
Withdrawn |
1988-10 |
Edition : 1 |
Number of pages : 9 |
Technical Committee |
23.100.10
Pumps and motors
|
| ISO 8426:2008 |
Hydraulic fluid power — Positive displacement pumps and motors — Determination of derived capacity |
ISO 8426:2008 specifies the methods of determining the derived capacity of hydraulic fluid power positive displacement pumps and motors under steady-state conditions and at defined, continuous shaft rotational frequencies.
Units can be tested as a positive displacement pump, with mechanical energy applied to the shaft and hydraulic energy obtained at the outlet fluid connection, or as a motor, with hydraulic energy supplied to the inlet fluid connection and mechanical energy obtained at the shaft.
|
Published |
2008-02 |
Edition : 2 |
Number of pages : 14 |
Technical Committee |
23.100.10
Pumps and motors
|
| ISO 9632:1992 |
Hydraulic fluid power — Fixed displacement pumps — Flow degradation due to classified AC Fine Test Dust contaminant — Test method |
|
Withdrawn |
1992-05 |
Edition : 1 |
Number of pages : 8 |
Technical Committee |
23.100.10
Pumps and motors
|
| ISO 10767-1:1996 |
Hydraulic fluid power — Determination of pressure ripple levels generated in systems and components — Part 1: Precision method for pumps |
Specifies a precision method for the determination of pressure ripple levels and source impedance generated in hydraulic fluid power systems and components by positive-displacement hydraulic pumps.
|
Withdrawn |
1996-03 |
Edition : 1 |
Number of pages : 22 |
Technical Committee |
23.100.10
Pumps and motors
|
| ISO/ASTM DTR 52913-1 |
Additive manufacturing — Feedstock materials — Part 1: Parameters for characterization of powder flow properties |
|
Under development |
|
Edition : 1 |
|
Technical Committee |
25.030
Additive manufacturing
|
| ISO 10767-1:2015 |
Hydraulic fluid power — Determination of pressure ripple levels generated in systems and components — Part 1: Method for determining source flow ripple and source impedance of pumps |
ISO 10767-1:2015 establishes a test procedure for measuring the source flow ripple and source impedance of positive-displacement hydraulic pumps. It is applicable to all types of positive-displacement pumps operating under steady-state conditions, irrespective of size, provided that the pumping frequency is in the range from 50 Hz to 400Hz.
Source flow ripple causes fluid borne vibration (pressure ripple) and then airborne noise from hydraulic systems. This procedure covers a frequency range and pressure range that have been found to cause many circuits to emit airborne noise which presents a major difficulty in design of hydraulic fluid power systems. Once the source flow ripple and source impedance of hydraulic fluid power pump are known, the pressure ripple generated by the pump in the fluid power system can be calculated by computer simulation using the known ripple propagation characteristics of the system components. As such, this part of ISO 10767 allows the design of low noise fluid power systems to be realized by establishing a uniform procedure for measuring and reporting the source flow ripple and the source impedance characteristics of hydraulic fluid power pumps.
In ISO 10767-1:2015, calculation is made for blocked acoustic pressure ripple as an example of the pressure ripple. An explanation of the methodology and theoretical basis for this test procedure is given in Annex B. The test procedure is referred to here as the two pressures/two systems method. Ratings are obtained as follows:
a) source flow ripple (in the standard "Norton" model) amplitude, in cubic meter per second[m3/s], and phase, in degree, over 10 individual harmonics of pumping frequency;
b) source flow ripple (in the modified model) amplitude, in cubic meter per second [m3/s], and phase, in degree, over 10 individual harmonics of pumping frequency; and its time history wave form,
c) source impedance amplitude, in Newton second per meter to the power of five [(Ns)/m5]., and phase, in degree, over 10 individual harmonics of pumping frequency;
d) blocked acoustic pressure ripple, in MPa (1 MPa = 106 Pa) or in bar (1 bar = 105 Pa), over 10 individual harmonics of pumping frequency; and the RMS average of the pressure ripple harmonic f1 to f10.
|
Published |
2015-10 |
Edition : 2 |
Number of pages : 28 |
Technical Committee |
23.100.10
Pumps and motors
|
| ISO 10767-2:1999 |
Hydraulic fluid power — Determination of pressure ripple levels generated in systems and components — Part 2: Simplified method for pumps |
|
Published |
1999-10 |
Edition : 1 |
Number of pages : 20 |
Technical Committee |
23.100.10
Pumps and motors
|