Codes of Practice (CP)
Industrial gas cylinder manifolds and gas distribution pipework (excluding acetylene). Revision 4: 2012
Provides the minimum safety standards for the design, construction, installation, operation, examination and maintenance of industrial gas supply manifolds, and associated distribution pipework up to 54 mm nominal bore. The manifold pressure is up to 300 bar, while the distribution pressure is limited to 50 bar.
The design and construction of manifolds using acetylene gas from 1.5 to 25 bar. Revision 3: 2016
Covers the design and construction of acetylene gas manifolds, working at pressures from 1.5 bar up to 25 bar, to which single or multiple cylinders can be connected. The statutory requirements in such systems are detailed.
The safe distribution of acetylene in the pressure range 0 - 1.5 bar. Revision 3: 2015
Gives guidance on the safe distribution of acetylene at pressures between 0-1.5 bar. Both fixed and mobile systems are included, as are the statutory requirements.
The safe use of oxy-fuel gas equipment (individual portable or mobile cylinder supply). Revision 7 2014, Corrigendum 1: January 2017
Minimum safety standards for the use, inspection and maintenance of oxy-fuel gas welding, cutting and heating equipment incorporating individual portable or mobile cylinder gas supplies.
The movement of static gas storage tanks by road. Revision 4: 2013
The movement on public roads of tanks designed for the static storage of liquefied gases. This code does not apply to tanks designed to the road transport regulations.
The safe storage, handling and use of special gases. Revision 3: 2014
Provides technical and safety guidelines and principles for the safe storage and handling of special gases in transportable containers up to the point where product is provided at the required pressure and flow at the junction with the user process.Guidelines on disposal are also given.The safe operation of processes is not included, although many of the principles given in this Code will apply.
Bulk liquid oxygen storage at production sites. Revision 2: 2002
Covers liquid oxygen storage installations on production sites where the storage is connected to the production process plant. No upper limit on tank size applies.
Bulk liquid argon or nitrogen storage at production sites. Revision 1: 2002
Covers liquid argon or nitrogen storage installations on production sites where the storage is connected to the production process plant. No upper limit on tank size applies.
Bulk liquid carbon dioxide storage at users' premises. Revision 3: 2012
The design, installation, operation and maintenance of bulk liquid carbon dioxide storage systems at users' premises. All tanks up to 250,000 litres capacity are included.
Transportable vacuum insulated containers of not more than 1000 litres volume. Revision 1: 2004
This code of practice applies to transportable, vacuum insulated, tanks of not more than 1,000 litres water capacity, for the following gases: Nitrogen, argon, oxygen, carbon dioxide, helium or nitrous oxide.This code provides guidance for the minimum requirements for: General safety precautions, design and construction, operation, tank management and filling, transportation, in-service examination, modifications/repairs and records.
The design and operation of cylinder and tube trailers (battery vehicles) and multiple-element gas containers for the safe transport of compressed gases by road. Revision 2: 2013
Provides practical guidance on the design, construction, examination, testing and certification, and the filling/discharging of cylinder vehicle/trailers used for the domestic conveyance of compressed, but not liquefiable gases.
The safe use of liquid nitrogen dewars up to 50 litres. Revision 2: 2013
Specifically addresses the use of liquid nitrogen in open dewars and dewars fitted with liquid withdrawal attachments operating at less than 0.5 bar. Covers the storage, filling, use and maintenance of dewars of not more than 50 litres capacity. A Model Risk Assessment is available in support of this Code of Practice to assist in providing a structured approach when evaluating workplace hazards. See BCGA TIS 27.
The safe filling of beverage gas cylinders. Revision 2: 2014
This Code of Practice addresses the safety, quality and operational issues necessary for the filling of beverage gas cylinders. The document covers safe filling practices, cylinder identification, handling, corrosion prevention and product quality.
The bulk storage of gaseous hydrogen at users' premises. Revision 1: 2012
Code of Practice CP33 covers the location, design, installation, commissioning, operation and maintenance of equipment for the bulk storage and supply of compressed hydrogen gas at users premises. Reference is made to relevant legislation, Codes of Practice and Standards and summarises the hazards and properties of compressed hydrogen. Compliance with the Management of Health & Safety at Work Regulations will require risk assessments to be carried out, which may include a formal HAZOP, during the process of installation of bulk hydrogen systems.
The application of the Pressure Equipment Regulations to customer sites. Revision 1: 2014
Provides interpretation of the UK Pressure Equipment Regulations (SI 1999 No. 2001) in terms of their application to pressure systems installed at users' premises. Issues arising from the re-use of existing equipment in otherwise new installations are covered in detail.
Filling ratios and developed pressures for liquefied and compressed gases. Revision 2: 2017
This Code of Practice gives data about the filling ratios applicable when filling gas cylinders with liquefiable gases for transport within the United Kingdom. It does not apply to any international transport - in this case the requirements of ADR will apply. It can therefore only be used with non pi-marked cylinders. Information is also given on the developed pressures in cylinders of compressed gas exposed to UK and other area climatic conditions. In some cylinder design codes the developed pressure is an important element in the establishment of the correct design criteria. Cylinders being exported from the UK may also need to be checked for safety according to the climatic conditions they may be exposed to.
Cryogenic liquid storage at users' premises. Revision 2: 2013
This document covers the installation of cryogenic liquid storage tanks and associated equipment at customer sites. For liquid oxygen, nitrogen and argon. Tank sizes range from 0 to 125000 litre water capacity.
In-service requirements for refrigerated gas transportable pressure equipment. Revision 1: 2018
Provides guidance on the management of in-service refrigerated gas transportable pressure equipment to ensure that it is serviceable for the safe transportation of gases without unintended release during the complete journey. The equipment covered includes road tankers, tank containers and other tanks used for the operation of special equipment used during transport, such as cooling equipment.
In-service requirements of pressure equipment (gas storage and gas distribution systems). Revision 2: 2017
Pressure systems require regular examination and maintenance to ensure the continuing integrity of the equipment and the safety of personnel. This code covers the principles and a risk based methodology to meet these requirements. It provides guidance on Written Schemes of Examination, Ageing Pressure Equipment Assessments and Revalidation of pressure vessels.
Templates - Excel Spreadsheet templates of Forms A & B
Template for use with CP39 when conducting an APEA. Refer to Section 4.1. The document is an Excel spreadsheet.
CP40 Member Only
Security requirements for industrial, medical and food gases. Revision 1: 2016
This document addresses the issues surrounding the security of industrial, medical and food gases (including in liquefied form) and associated items held in bulk, as cylinder stock or in transport. It provides advice on implementing security as well as reacting to security incidents.
This document is for BCGA members only. Click to Request Access (this will open a new window in your mail client).
The design, construction, maintenance and operation of filling stations dispensing gaseous fuels. Revision 1: 2016
This Code of Practice covers the location, design, installation, commissioning, operation, maintenance and inspection of equipment used in a filling station for the dispensing into a vehicle of gaseous hydrogen, Compressed Natural Gas (CNG), or Liquefied Natural Gas (LNG), with or without the dispensing of other vehicle fuels such as petrol, diesel, Liquefied Petroleum Gas (LPG) etc.
Implementation of EIGA Carbon Dioxide Standards. Revision 2: 2018
This publication implements the documents published by the European Industrial Gases Association to provide a basis for quality assurance of the carbon dioxide (CO2) supply chain in a consistent manner and to ensure measures for verification are adopted and maintained across UK industry.
The safe filling of gas cylinders. 2018
The filling of gas cylinders is hazardous and subject to statutory controls. Cylinders have to be checked to ensure their integrity and that they are safe to fill. Filling has to be carried out at specially-equipped centres, with qualified staff using appropriate procedures.
The storage of gas cylinders. 2016
This document defines the principles of safe practice for the storage of gas cylinders and bundles. It promotes the use of an external store, in a secure location, with good natural ventilation and away from any sources of ignition.
The storage of cryogenic flammable fluids. 2016
This document covers cryogenic flammable liquid storage tanks and associated equipment at customer sites. Tank sizes range from 0 to 125000 litre water capacity. It provides guidance on their design, installation, commissioning and the operation of cryogenic flammable liquid storage installations.
The safe use of individual portable or mobile cylinder gas supply equipment. 2018
Provides guidance on the safe use, examination, inspection and maintenance of individual cylinder gas supply equipment, the gas being controlled by a single cylinder mounted regulator. It does not cover toxic or corrosive gases.