GSO ISO 13971:2015

ISO 13971:2012
Gulf Standard   Current Edition · Approved on 03 September 2015

Refrigeration systems and heat pumps -- Flexible pipe elements, vibration isolators, expansion joints and non-metallic tubes -- Requirements and classification

GSO ISO 13971:2015 Files

English 9 Pages
Current Edition Reference Language

GSO ISO 13971:2015 Scope

This International standard describes requirements, design and installation of flexible pipe elements (e.g., metallic flexible pipe, metallic flexible tube, vibration isolator, expansion joint) and non-metallic tube used in the refrigerant circuits of refrigerating systems and heat pumps. It also describes the requirements to qualify the tightness and permeability of non-metallic tubes (e.g., plastic) used in evaporating and/or condensing sides of refrigerating systems and heat pumps. This International standard does not apply to flexible pipes that are only occasionally stressed beyond the elastic limit (e. g., during repair work), or to joints that are free to rotate or hinge.

Best Sellers From Mechanical Sector

GSO 42:2015
 
Gulf Technical Regulation
MOTOR VEHICLES - GENERAL REQUIREMENTS
GSO 159:1993
 
Gulf Technical Regulation
MOTOR VEHICLES – DIMENSIONS AND WEIGHTS
GSO 98:1988
 
Gulf Technical Regulation
MOTOR VEHICLES- FLAMMABILITY OF INTERIOR MATERIALS AND THEIR TESTING METHODS
GSO 1780:2010
 
Gulf Technical Regulation
Motor vehicle-vehicle identification number (vin) - requirements

Recently Published from Mechanical Sector

GSO EN 13445-6:2024
EN 13445-6:2021 
Gulf Standard
Unfired pressure vessels - Part 6: Requirements for the design and fabrication of pressure vessels and pressure parts constructed from spheroidal graphite cast iron
GSO ISO 11154:2024
ISO 11154:2023 
Gulf Standard
Road vehicles — Roof load carriers
GSO ISO 10468:2024
ISO 10468:2023 
Gulf Standard
Glass-reinforced thermosetting plastics (GRP) pipes — Determination of the ring creep properties under wet or dry conditions
GSO ISO 10300-1:2024
ISO 10300-1:2023 
Gulf Standard
Calculation of load capacity of bevel gears — Part 1: Introduction and general influence factors