1、ICEA T-29-520 86 7007014 0001058 978 GUIDE FOR CONDUCTING VERTICAL CABLE TRAY FLAME TESTS With Theoretical Heat Input Rate Of 210,000 B.T.U./HOUR PUBLICATION T-29-520 SEPTEMBER 1986 0 1986 by INSULATED CABLE ENGINEERS ASSOCIATION, INC. ICEA T-29-520 86 = 90070L4 OOOLO59 824 = FOREWORD ICEA publicati
2、ons are adopted in the public interest and are designed to eliminate misunderstanding be- tween the manufacturer and user and to assist the user in selecting and obtaining proper products for his particular need. Existence of an ICEA publication does not in any respect preclude the manufacture or us
3、e of products not conforming to the publication. The user of this publication is cautioned to observe any health or safety regulations and rules relative to the manufacture and use of cable covered by this document. Suggestions for improvements in this publication are welcome, and should be sent to
4、ICEA at the address below. Copyrighted by the ICEA Contents may not be reproduced in any form without permission of the INSULATED CABLE ENGINEERS ASSOCIATION, Inc. Copies of this publication may be obtained from: Insulated Cable Engineers Association, Inc. Post Office Box P South Yarmouth, Massachus
5、etts 02664 Telephone: (617) 394-4424 ICEA Pub. T-29-520 Paae 1 GUIDE FOR CONDUCTING A 210,000* BTU/HR. VERTICAL CABLE TRAY FLAME TEST 1.0 Scope 1.1 This guide describes a method for testing grouped cables via a ver- tical tray flame test to determine their relative ability to resist flame propagatio
6、n in the following defined test. 1.2 The ability of a cable to resist propagation to the top of the tray does not guarantee that propagation of that same cable cannot occur under installed conditions during an actual fire nor does it pre- clude the need for other fire suppressive systems. 2.0 Summar
7、y of Method 2.1 Multiple lengths of cables are attached to a vertical tray and are subjected to a defined propane gas flame for a specified time pe- riod. At the end of the time period the amount of burn damage to the cables is determined. 3.0 Flame Test Facility 3.1 The test should be conducted in
8、a naturally ventilated room or enclo- sure free rom excessive drafts or spurious air currents. operation there should be sufficient ventilation so that burning is not limited by a build-up of combustion products or by a dearth of make-up air. During 4.0 Apparatus 4.1 The test tray should be a vertic
9、al ladder type steel cable tray 12 inches wide by 8 ft. long. (nominal) deep with one inch flanges and 0.060 inches thick. rungs should be 1 by 1/2 inches U-shaped channels, 0.125 inches thick and welded to the side rails at 9 inches on center. The side channels should be 3 inches The *Theoretical h
10、eat input. ICEA T-29-520 8b W 9007034 OOOLObL 482 ICEA Project T-29-520 Page 2 4.2 The 10-inch ribbon gas burner and air gas Venturi mixer shall be by American Gas Furnace Company, catalog numbers 1OL 11-55 and 14-18, respectively, or equivalents. 4.3 The air and gas flow shall be measured by separa
11、te flow meters. Meters should have a resolution of five standard cubic foot per hour (SCFH) or better. 4.4 The fuel should be natural grade propane of hown heat of combustion. 5.0 Specimen Cables 5.1 N cable specimens each eight feet in length should be arranged in a single layer filling at least th
12、e center six-inch portion of the tray with a separation of one-half the cable diameter between cables. The number of cable specimens should be calculated using the following formula: N = 4/D + 0.33 Where N = number of cables (rounded up to the nearest whole number) D = diameter of cable in inches 5.
13、2 The cables should be attached to each tray rung starting with the bottom rung, by the use of copper or steel ties no smaller than .040“ or larger than .064“ in diameter (see Figure 1). 6.0 Test Setup 6.1 The loaded metal tray should be positioned within the test enclosure so that no tray surface i
14、s closer than 12 inches to any enclosure wall. 6.2 The burner should be mounted horizontally 12 k i inches above the base of the tray with the burner face parallel with the back (rung side) of the tray and 8ki inches from the nearest cable surface (see Figure 1). ICEA T-27-520 8b W 900701Y 0001062 3
15、19 ICEA Project T-29-520 Page 3 6.3 The flow meters to the burner should indicate an air flow of 105 SCEX (+lo, -0) and an appropriate gas flow to provide a theoretical heat in- put of 210,000 Btulhr. , f5% (approximately 84 SCFH) . heat input should be determined using the following formula: The th
16、eoretical HT = 3xWxQC Where HT = theoretical heat input, Btu/hr. W = propane consumed in 20 minutes, lbs. (approximately 3.3 lb.) Qc = propane heat of combustion, Btu/lb. (approximately 21,500 Btu/lb.) 6.4 The cable samples should be at a temperature pot lower than 50F immediately prior to flame ign
17、ition. be at a temperature not less than 50F. The incoming air should also 7.0 Test Procedure 7.1 The test enclosure should be purged of any residual smoke or products of combustion. 7.2 The weight of the propane consumed during the test should be measured. 7.3 With prudent attention to the potentia
18、l risks and observing all nec- essary safety precautions, the burner should be ignited. should impinge on the cables approximately midway between tray rungs. The flame 7.4 The air and gas flow should be monitored and adjusted as necessary throughout the test to maintain the required flow settings. 7
19、.5 After 20 minutes the burner should be extinguished. Any afterburn on the cables should be allowed to continue until no flame is visible. ICEA T-29-520 8b = 9007014 0001063 255 ICEA Project T- 29- 520 8.0 Test Results Page 4 8.1 Each of the cable specimens should be examined for burn damage above
20、the burner location. outer jacket or insulation of the cables. which can be readily removed from the cables by wiping with a cloth or any blistering or discoloration caused by heat does not constitute damage for purposes of this test. Burn damage is defined as any charring on the Soot or other depos
21、its NOTE: Section 8.2 deleted 9.0 Report 9.1 The report of test results should include the following: 9.1.1 9.1.2 9.1.3 9.1.4 9.1.5 9.1.6 9.1.7 9.1.8 Description of cables, including OD Number of cables in tray Temperature of ambient air and specimens prior to flame application, in degrees F Air flo
22、w in SCFH Propane flow in SCFH Weight of propane consumed and calculated theoretical heat input, in Btu/hr. Afterburn of cables after gas flame has been extinguished, in minutes Height of maximum burn damage above burner, in inches. Appendix The commonly used pass/fail criteria for vertical tray flame tests is whether or not burn damage reached the top on any of the test specimens. ICEA T-29-520 86 9007034 OOOLOb4 191 Figure 1 Vertical Cable Tray Flame Test