SIST EN 1775:1998/A1:2003
(Amendment)Gas supply - Gas pipework for buildings - Maximum operating pressure up to and including 5 bar - Functional recommendations
Gas supply - Gas pipework for buildings - Maximum operating pressure up to and including 5 bar - Functional recommendations
Migrated from Progress Sheet (TC Comment) (2000-07-10): Contains also archived WI 234003 , WI 234004 , WI234005 ++ SPP update 1997-12-16
Gasversorgung - Gasleitungsanlagen für Gebäude - Maximal zulässiger Betriebsdruck bis einschließlich 5 bar - Funktionale Empfehlungen
Alimentation en gaz - Tuyauteries de gaz pour les bâtiments -Pression maximale de service inférieure ou égale a 5 bar -Recommandations fonctionnelles
Oskrba s plinom - Plinovod za stavbe - Najvišji delovni tlak do vključno 5 bar - Funkcionalna priporočila
General Information
Relations
Standards Content (Sample)
SLOVENSKI STANDARD
SIST EN 1775:1998/A1:2003
01-januar-2003
2VNUEDVSOLQRP3OLQRYRG]DVWDYEH1DMYLãMLGHORYQLWODNGRYNOMXþQREDU
)XQNFLRQDOQDSULSRURþLOD
Gas supply - Gas pipework for buildings - Maximum operating pressure up to and
including 5 bar - Functional recommendations
Gasversorgung - Gasleitungsanlagen für Gebäude - Maximal zulässiger Betriebsdruck
bis einschließlich 5 bar - Funktionale Empfehlungen
Alimentation en gaz
...
This May Also Interest You
This standard specifies detailed functional requirements for the design, selection of materials, construction, inspection and testing of industrial gas installation pipework and assemblies with an operating pressure greater than 0,5 bar, and non industrial gas installation pipework (residential and commercial) with an operating pressure greater than 5 bar in buildings, starting from the outlet of the network operator’s point of delivery up to the inlet connection to the gas appliance; normally the inlet isolation valve. This standard also covers the inlet connection to the gas appliance comprising of the pipework that does not fall within the scope of the appliance standard.
NOTE The use of the term installation and pipework is interchangeable.
This standard applies to gas installations operating at ambient temperatures between - 20 °C and 40 °C and operating pressures up to and including 60 bar. For operating conditions outside these limitations, reference should additionally be made to EN 13480 for metallic pipework.
For industrial gas installations up to and including 0,5 bar and for non industrial (residential and commercial) gas installations up to and including 5 bar in buildings, EN 1775 applies.
For gas installations that do not fall within the scope of EN 1775 or other European Standards, this standard applies.
In this standard, the term “gas“ refers to combustible gases, which are gaseous at 15 °C and 1 013 mbar absolute atmospheric pressure (normal conditions). These gases are commonly referred to as manufactured gas, natural gas or Liquefied Petroleum Gas (LPG). They are also referred to as first, second or third family gases (see Table 1 of EN 437:2003). The given values are considered as normal conditions for all volumes given in this standard.
- Standard131 pagesEnglish languagesale 10% offe-Library read for×1 day
- Draft130 pagesEnglish languagesale 10% offe-Library read for×1 day
- 08-Aug-2017
- 08-Mar-2023
- 91.140.40
- 2014/68/EU
- 97/23/EC
- M/071
- DPL
This European Standard specifies detailed functional requirements for the commissioning, operation and maintenance of
• industrial gas installations and assemblies with an operating pressure greater than 0,5 bar and of
• non-industrial installations (residential and commercial) with an operating pressure greater than 5 bar,
starting from the outlet of the network operator’s point of delivery up to the inlet connection to the gas appliance; normally the inlet isolation valve. This European Standard also covers the inlet connection to the gas appliance comprising of the pipework that does not fall within the scope of the appliance standard.
This standard applies to gas installations operating at ambient temperatures between –20 °C and 40 °C and operating pressures up to and including 60 bar. For operating conditions outside these limitations, reference should additionally be made to EN 13480 for metallic pipework.
For industrial gas installations up to and including 0,5 bar and for non-industrial (residential and commercial) gas installations up to and including 5 bar EN 1775 applies.
For gas installations that do not fall within the scope of EN 1775 or other European Standards, this European Standard applies.
In this European Standard, the term “gas“ refers to combustible gases, which are gaseous at 15 °C and 1 013 mbar absolute atmospheric pressure. These gases are commonly referred to as manufactured gas, natural gas or Liquefied Petroleum Gas (LPG). They are also referred to as first, second or third family gases (see table 1 of EN 437:2003).
LPG storage vessels (including all ancillaries fitted directly to storage vessels) are excluded. Also excluded are LPG installations and sections of LPG installations operating at vapour pressure (e.g. between the storage vessel and its pressure regulator).
In this European Standard, all pressures are gauge pressures unless otherwise stated.
For gas installations within the scope of this standard, national legisl
- Standard26 pagesEnglish languagesale 10% offe-Library read for×1 day
- Draft25 pagesEnglish languagesale 10% offe-Library read for×1 day
This document specifies requirements on the development and implementation of a safety management system for operators of gas transmission and/or distribution infrastructure.
This document refers to all activities and processes related to safety aspects and performed by operators of a gas network, including those activities entrusted to contractors. It includes safety-related provisions on operation of the gas network.
The described safety management system is applicable to infrastructure for the transmission and distribution of processed, non-toxic and non-corrosive gas of the 2nd gas family as classified in EN 437 , including injected gases.
NOTE 1 Injected gases can be bio methane, hydrogen, synthetic gases and others.
This document can also apply for gas infrastructure conveying only other gases such as bio methane, hydrogen, syntactic gases or gases of the 3rd family as classified in EN 437.
Specific requirements for either transmission or distribution can be found in de specific parts for transmission and distribution.
- Standard38 pagesEnglish languagesale 10% offe-Library read for×1 day
- Draft38 pagesEnglish languagesale 10% offe-Library read for×1 day
This European Standard specifies requirements and tests for the construction, performance and safety of class 1,5 Capillary Thermal-Mass Flow sensor gas meters (hereinafter referred to as meter(s)). This applies to meters having co-axial single pipe, or two pipe connections, that are used to measure volumes of fuel gases, which are within the limits of the test gases of the 2nd and/or 3rd family according to EN 437.
These meters have a maximum working pressures not exceeding 0,5 bar and a maximum flowrate not exceeding 160 m3.h−1 over a minimum ambient temperature range of −10 °C to +40 °C and a gas temperature range as specified by the manufacturer with a minimum range of 40 K.
- Standard82 pagesEnglish languagesale 10% offe-Library read for×1 day
- Draft88 pagesEnglish languagesale 10% offe-Library read for×1 day
- 02-Jun-2020
- 11-Jan-2022
- 91.140.40
- 2014/32/EU
- M/541
- DPL
This document specifies the requirements and tests for the construction, performance, safety and conformity of gas volume electronic conversion devices associated to gas meters, used to measure volumes of fuel gases of the 1st and 2nd families according to EN 437.
This document is intended for type testing, the detailed relevant provisions of which are given in Annex A.
Only three kinds of conversion are treated in this document:
- conversion as a function of temperature only (called T conversion);
- conversion as a function of the pressure and of the temperature with constant compression factor (called PT conversion);
- conversion as a function of the pressure, the temperature and taking into account the compression factor (called PTZ conversion).
This document is not relevant to temperature conversion integrated into gas meters which only indicate the converted volume.
EN 12405-2 applies for energy conversion.
Gas-volume conversion devices consist of a calculator and a temperature transducer or a calculator, a temperature transducer and a pressure transducer locally installed.
For application of this document, a conversion device may be, as a choice of the manufacturer, considered as a complete instrument (Type 1) or made of separate elements (Type 2), according to the definitions given in 3.1.18.1 and 3.1.18.2.
In this last case, the provisions concerning pressure transducers, temperature sensors and temperature transducers are given in Annexes B, C and D respectively.
Any conversion device can provide an error curve correction for a gas meter.
NOTE When rendering an account to an end user the readings from the conversion device can be used in conjunction with the readings from a gas meter conforming to EN 1359, EN 12480, or EN 12261, as appropriate, or to any other appropriate and relevant international or national standard for gas meters, without prejudice of national regulations.
- Standard122 pagesEnglish languagesale 10% offe-Library read for×1 day
- Draft122 pagesEnglish languagesale 10% offe-Library read for×1 day
- 03-Apr-2019
- 09-Jan-2022
- 91.140.40
- 2014/32/EU
- M/374
- M/541
- DPL
This European Standard contains requirements for the production and testing of weld joints for the installation and modification of onshore steel pipelines and pipework used in gas infrastructure, including in-service pipelines, for all pressure ranges for the carriage of processed, non-toxic and non-corrosive natural gas according to EN ISO 13686 and for the carriage of non-conventional gases
such as injected biomethane including hydrogen,
where
- the pipeline elements are made of unalloyed or low-alloyed carbon steel;
- the pipeline is not located within commercial or industrial premises as integral part of the industrial process on those premises except for any pipelines and facilities delivering gas to such premises;
- the pipework is not located within household installations according to EN 1775;
- the design temperature of the system is between -40 °C up to and including 120 °C.
The onshore steel pipelines and pipework used in gas infrastructure include in-service pipelines, for all pressure ranges for the carriage of processed, non-toxic and non-corrosive natural gas according to EN ISO 13686 and for the carriage of non-conventional gases complying with EN ISO 13686, and for which a detailed technical evaluation of the functional requirements (such as injected biomethane, hydrogen) is performed ensuring there are no other constituents or properties of the gases that can affect the integrity of the pipeline.
This standard is not applicable to welds produced prior to the publication of this European Standard.
Table 1 assigns the application areas to quality requirement categories as a function of the working pressure and pipe materials used.
Additional requirements may be specified when, for example:
- the strain on pipelines and systems,
- the materials,
- the line routing,
- the design or the welding technique
are considered critical.
- Standard81 pagesEnglish languagesale 10% offe-Library read for×1 day
- Draft80 pagesEnglish languagesale 10% offe-Library read for×1 day
This Technical Specification describes specific functional recommendations for the safe
design, handling, installation and operation of unplasticized polyamide (PA-U) gas piping
systems with fusion jointing and mechanical jointing with
a) a maximum operating pressure (MOP) up to and including 16 bar;
b) an operating temperature between -20 °C and +40 °C.
This Technical Specification covers PA pipes single layer solid wall.
This Technical Specification should be applied complementary to the functional requirements
in EN 12007-2.
- Technical specification26 pagesEnglish languagesale 10% offe-Library read for×1 day
- Draft26 pagesEnglish languagesale 10% offe-Library read for×1 day
To revise the Annex ZA, and the associated body text only, of EN 14236 to ensure the alignment with the Directive 2014/32/EU.
- Standard79 pagesEnglish languagesale 10% offe-Library read for×1 day
- 31-Aug-2017
- 06-Nov-2018
- 91.140.40
- 2014/32/EU
- M/541
- DPL
This document specifies the measuring conditions, requirements and tests for the construction,
performance and safety of class 1,0 axial and radial turbine gas meters with mechanical indicating
devices, herein after referred to as a meter(s), having in-line pipe connections for gas flow
measurement.
This document applies to turbine gas meters used to measure the volume of fuel gases of the 1st
and 2nd gas families, the composition of which is specified in EN 437, at maximum working
pressures up to 420 bar, actual flow rates up to 25 000 m3/h over a gas temperature range of at
least 40 K and for a climatic environmental temperature range of at least 50 K.
This document applies to meters that are installed in locations with vibration and shocks of low
significance and in
— closed locations (indoor or outdoor with protection as specified by the manufacturer) with
condensing or with non-condensing humidity
or, if specified by the manufacturer,
— open locations (outdoor without any covering) with condensing humidity or with noncondensing
humidity
and in locations with electromagnetic disturbances.
Unless otherwise specified in this document:
— all pressures used are gauge;
— all influence quantities, except the one under test, are kept relatively constant at their
reference value.
- Standard60 pagesEnglish languagesale 10% offe-Library read for×1 day
- 08-Aug-2017
- 15-Apr-2018
- 91.140.40
- 2014/32/EU
- M/541
- DPL
This European Standard specifies ranges, construction, performances, output characteristics and testing of rotary displacement gas meters (hereinafter referred to as RD meters or simply meters) for gas volume measurement.
This European Standard applies to rotary displacement gas meters used to measure the volume of fuel gases of at least the 1st, 2nd and 3rd gas families, the composition of which is specified in EN 437:2003+A1:2009, at a maximum working pressure up to and including 20 bar over an ambient and gas temperature range of at least −10 °C to +40 °C.
This European Standard applies to meters that are installed in locations with vibration and shocks of low significance (class M1) and in
- closed locations (indoor or outdoor with protection as specified by the manufacturer) with condensing or with non-condensing humidity
or, if specified by the manufacturer,
- open locations (outdoor without any covering) with condensing humidity or with non-condensing humidity,
and in locations with electromagnetic disturbances (class E1 and E2). The standards apply to mechanical meters with mechanical index, electronic devices are not covered by this standard.
Unless otherwise specified in this standard:
- all pressures used are gauge;
- all influence quantities, except the one under test, are kept relatively constant at their reference value.
This European Standard applies to meters with a maximum allowable pressure PS and the volume V of less than 6 000 bar · litres or with a product of PS and DN of less than 3 000 bar.
This European Standard can be used for both pattern approval and individual meter testing. Cross-reference tables are given in:
- Annex A for the tests that need to be undertaken for pattern approval;
- Annex B for individual meter testing.
Some parts of this standard cover meters with mechanical index only.
The risk philosophy adopted in this standard is based on the analysis of hazards including pressure. The standard applies principles to eliminate or reduce hazards. Where these hazards cannot be eliminated appropriate protection measures are specified.
- Standard72 pagesEnglish languagesale 10% offe-Library read for×1 day
- 31-Aug-2017
- 12-Mar-2018
- 91.140.40
- 2014/32/EU
- 2014/68/EU
- 97/23/EC
- M/071
- M/541
- DPL
Questions, Comments and Discussion
Ask us and Technical Secretary will try to provide an answer. You can facilitate discussion about the standard in here.