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ISO 22899-1:2021 Determination of the resistance to jet fires of passive fire protection materials — Part 1: General requirements
Introduction
The test procedure described in this document enables the determination of properties of passive fire protection materials. This test is designed to give an indication of how passive fire protection materials are likely to perform in a jet fire. The dimensions of the test specimen can be smaller than typical structure or plant items and the release of gas can be substantially less than that which can occur in a credible event. However, individual thermal and mechanical loads imparted to the passive fire protection material from the jet fire defined in this document have been shown to be similar to those imparted from large-scale jet fires resulting from high-pressure releases of natural gas.
NOTE Guidance on the applicability of the test is intended to be covered in a future part of the ISO 22899 series.
Although the method specified in this document has been designed to simulate certain conditions that occur in an actual jet fire, it cannot reproduce them all exactly and the thermal and mechanical loads do not necessarily coincide. The results of this test do not guarantee safety but may be used as elements of a fire risk assessment for structures or plants. This should also take into account all the other factors that are pertinent to an assessment of the fire hazard for a particular end use. The test is not intended to replace the hydrocarbon fire resistance test (ISO/TR 834-3/EN 1363-2[3]) but is seen as a complementary test.
Users of this document are advised to consider the desirability of third-party certification/inspection/testing of product conformity with this document.
1 Scope
This document describes a method of determining the resistance to jet fires of passive fire protection materials and systems. It gives an indication of how passive fire protection materials behave in a jet fire and provides performance data under the specified conditions.
It does not include an assessment of other properties of the passive fire protection material such as weathering, ageing, shock resistance, impact or explosion resistance, or smoke production.
Complete I-beams and columns cannot be tested to this document due to disruption of the characteristics of the jet.
2 Normative references
The following documents are referred to in the text in such a way that some or all of their content constitutes requirements of this document. For dated references, only the edition cited applies. For undated references, the latest edition of the referenced document (including any amendments) applies.
ISO 834-1:1999, Fire-resistance tests — Elements of building construction — Part 1: General requirements
ISO 13702, Petroleum and natural gas industries — Control and mitigation of fires and explosions on offshore production installations — Requirements and guidelines
3 Terms and definitions
For the purposes of this document, the following terms and definitions apply.
ISO and IEC maintain terminological databases for use in standardization at the following addresses:
— ISO Online browsing platform: available at https://www.iso.org/obp
— IEC Electropedia: available at https://www.electropedia.org/
3.1
assembly
unit or structure composed of a combination of materials or products, or both
3.2
critical temperature
maximum temperature that the equipment, assembly (3.1) or structure to be protected may be allowed to reach
3.3
Delta Tmax
maximum temperature rise (3.18) recorded by any of the installed thermocouples
3.4
fire barrier
separating element that resists the passage of flame and/or heat and/or effluents for a period of time under specified conditions
3.5
fire resistance
ability of an item to fulfil, for a stated period of time, the required stability and/or integrity (3.8) and/or thermal insulation and/or other expected duty, reaching the critical temperature (3.2) specified in a standard fire-resistance test
3.6
fire test
procedure designed to measure or assess the performance of a material, product, structure or system to one or more aspects of fire
3.7
flame re-circulation chamber
mild steel box, open at the front, into which the jet fire (3.10) is directed giving a re-circulating flame resulting in a fireball
Note 1 to entry: Materials other than mild steel may be used when appropriate.
3.8
integrity
ability of a separating element, when exposed to fire on one side, to prevent the passage of flames and hot gases or occurrence of flames on the unexposed side, for a stated period of time in a standard fire resistance (3.5) test
3.9
intermediate-scale test
test performed on an item of medium dimensions
Note 1 to entry: A test performed on an item of which the maximum dimension is between 1 m and 3 m is usually called an intermediate-scale test. This document describes an intermediate-scale jet fire test (3.6).
3.10
jet fire
ignited discharge of propane vapour under pressure
3.11
jet nozzle
orifice from which the flammable material issues
3.12
outside specimen diameter
specimen diameter measured to the outer surface of the passive fire protection (3.13) system on a tubular specimen
3.13
passive fire protection
coating or cladding arrangement or free-standing system that, in the event of fire, provides thermal protection to restrict the rate at which heat is transmitted to the object or area being protected
Note 1 to entry: The term "passive" is used to distinguish the systems tested, including those systems that react chemically, e.g. intumescents, from active systems such as water deluge.
3.14
passive fire protection material
coating or cladding that, in the event of a fire, provides thermal protection to restrict the rate at which heat is transmitted to the object or area being protected
3.15
passive fire protection system
removable jacket or inspection panel, cable transit system, pipe penetration seal (3.16) or other such system that, in the event of a fire, provides thermal protection to restrict the rate at which heat is transmitted to the object or area being protected
3.16
penetration seal
system used to maintain the fire resistance (3.5) of a separating element at the position where there is provision for services to pass through the separating element
3.17
protective chamber
mild steel box, open at the front and back, which is designed to be attached to the rear of the flame re?circulation chamber (3.7) to shield the rear of the flame re-circulation chamber from environmental influences
Note 1 to entry: A protective chamber is not required for tubular section tests but may be used to provide additional stability to the flame re-circulation chamber.
3.18
temperature rise
increase in measured temperature above the initial temperature at a given location
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Bibliography
[1] ISO 630-1:2011, Structural steels — Part 1: General technical delivery conditions for hot-rolled products
[2] ISO 13943, Fire safety — Vocabulary
[3] EN 1363-2, Fire resistance tests — Part 2: Alternative and additional procedures
[4] Mather P., Smart R D., Large scale and medium scale jet fire tests, Offshore Technology Report – OTO 97 079, HSE, 1997
[5] British Gas plc, Assessment of the uniformity of the interim jet fire test procedure, Offshore Technology Report OTH 95 477, HSE, ISBN 0-7176-1215-5, 1996
[6] Kay J., Willoughby D., Kerr D., Jet fire tests on a bulkhead pipe penetration seal, PS/06/23, HSE
[7] BS 476-20:1987, Fire resistance test for loadbearing structures, BSI
[8] UL 1709 version 5, 2014 Rapid temperature rise hydrocarbon fire test
ISO 22899-1 Determination of the resistance to jet fires of passive fire protection materials - Part 1: General requirements
ISO 22899-1 被動防火材料的抗噴火的測定.第1部分: 一般要求
ISO 22899-1 and OTI 95634 具體內(nèi)容可以參考:https://www.fire-test.cn/newsinfo/1258674.html
噴射防火測試按照ISO 22899-1要求測定被動消防材料的抗噴射火性能。噴射防火設(shè)施模擬可能發(fā)生在海上平臺和陸上設(shè)備的天然氣噴射火,在這些海上平臺和陸上設(shè)備中,天然氣外漏可使結(jié)構(gòu)鋼曝露到明顯熱流中。該測試用于認(rèn)證通常用來保護(hù)海上石油平臺上鋼鐵的被動消防材料,并用來模擬高壓天然氣泄漏引燃和碰撞鋼結(jié)構(gòu)的情況。
若要了解噴射防火測試:ISO 22899-1:2021,請與我們聯(lián)系。
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