BSI 23/30444341 DC:2023 Edition
$13.70
BS EN 1366-9. Fire resistance tests for service installations – Part 9. Single compartment smoke extraction ducts
| Published By | Publication Date | Number of Pages |
| BSI | 2023 | 46 |
This part of EN 1366 specifies a test method for determining the fire resistance of smoke extraction ducts that are used for single compartment applications only. In such applications, the smoke extraction system is only intended to function up to flashover (typically 600 °C). This method of test is only suitable for ducts constructed from non-combustible materials (euro class A1 and A2-s1, d0). It is applicable only to four sided and circular ducts. One-, two- and three-sided ducts are not covered. This standard is applicable only for the standard sizes or smaller as described. This test method of part 9 is applicable only to smoke extraction ducts that do not pass into other fire compartments. For smoke extraction ducts that pass into other compartments, the method of test described in EN 1366-8 is used. The smoke extraction duct is part of the smoke extraction system which also includes smoke control dampers and smoke extract fans.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 7 | 1 Scope 2 Normative references 3 Terms and definitions |
| 8 | 4 Test equipment 4.1 General 4.2 Furnace 4.3 Perforated plate |
| 10 | 4.4 Inlet nozzles (fire test) 4.5 Ambient temperature leakage measuring device 4.6 Pressure sensors for differential pressure control 4.7 Welded connecting tube 4.8 Extract fan connecting duct 4.9 Extraction fan 4.10 Thermocouples |
| 11 | 4.11 Oxygen measuring equipment 4.12 Oxygene measurement probes 4.13 Restraint equipment 4.14 Deflection measurements 5 Test conditions 5.1 Differential pressure conditions 5.2 Heating conditions |
| 12 | 6 Test specimen 6.1 Size 6.1.1 Length 6.1.2 Cross-section 6.2 Number 6.3 Design 7 Installation of test specimen 7.1 General |
| 13 | 7.2 Supporting construction 7.3 Duct arrangement 7.4 Restraint of ducts 7.4.1 Inside the furnace 7.4.2 Outside the furnace 7.5 Perforated plate 8 Conditioning 8.1 General |
| 14 | 8.2 Water based sealing materials 9 Application of instrumentation 9.1 Thermocouples 9.1.1 Furnace thermocouples (plate thermometers) 9.1.2 Gas temperature within flow nozzles 9.2 Pressure 9.2.1 Furnace pressure 9.2.2 Differential under-pressure in duct 9.3 Oxygen measurements |
| 15 | 9.4 Deflection measurement for determination of reduction in internal cross-section area |
| 16 | 10 Test procedure 10.1 Pre-test calibration 10.1.1 Oxygen-measuring instrument 10.1.2 Perforated plate 10.2 Leakage measurement at ambient temperature |
| 17 | 10.3 Pre-fire test procedures 10.4 Fire test |
| 18 | 10.5 Termination of test 11 Performance criteria 11.1 General requirements |
| 19 | 11.2 Criteria at ambient temperature 11.2.1 Ambient leakage 11.2.2 Reduction in internal cross-section area under ambient conditions outside the furnace 11.3 Criteria under fire conditions 11.3.1 General 11.3.2 Integrity 11.3.2.1 Leakage 11.3.2.2 Reduction in internal cross-section area under fire conditions 11.3.2.3 Mechanical stability 11.3.3 Smoke Leakage 12 Test report |
| 20 | 13 Direct field of application of test results 13.1 General 13.2 Duct sizes |
| 21 | 13.3 Suspension device 13.4 Pressure difference 13.5 Vertical part of duct |
| 35 | Annex A (informative)Measurement of volume/mass flow A.1 Hints on measuring volume flow or mass flow with differential pressure devices A.2 Density A.3 Absolute Pressure (barometric pressure) |
| 36 | A.4 Viscosity A.5 Characteristic data of the inlet nozzles according to Figure 10 |
| 39 | Annex B (informative)Measurement of oxygen content |
| 42 | Annex C (informative)The usage of correction factors for the consideration of different parameters |
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