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Engineering Laboratory / Fire Research Division

National Fire Research Laboratory

Test60_XLPE4_R3

Table 1. Test Information
Name
Test60_XLPE4_R3
Date
Description

1" thick, 24" wide, 96"tall panels of XLPE foam (4lb/ft3 density) mounted to aluminum foil covered 1" thick Marinite Board. Ignite using propane burner at 65kW, burner lit for 40 seconds.
Specimen
1" thick, 24" wide, 96" tall panels of XLPE foam (4lb/ft3 density)
Ignition
propane burner
Project ID (s)
Vertical Upward Flamespread on Parallel Panels
Test Director
Leventon

Timelapse Video with Heat Release Rate Plot

Table 2. Summary of Test Results
Measurement Value Uc Unit
Peak Heat Release Rate, PHRR
2,830
144
kW
Time to Peak Heat Release Rate
1.25
0.17
min
Total Heat Released, THR
174.4
9.5
MJ
Gas Burner Total Heat Released, NGTHR
2.160
0.065
MJ
Heat Release Quality Confirmation, HRQC
 Not measured -
MJ/MJ
Net Specimen Mass (gravimetric), NM = Mi-Mf
4.65
0.28
kg
Net Effective Heat of Combustion = THR / NM
37.5
3.1
MJ/kg
O2 Yield = O2 Consumed / NM
2.77
0.19
kg/kg
CO2 Yield = CO2 Generated / NM
2.66
0.19
kg/kg
CO Yield = CO Generated / NM
0.0203
0.0014
kg/kg
Soot Yield = Soot Generated / NM
0.0235
0.0035
kg/kg
Baseline Hood Exhaust Flow
21.91
0.66
kg/s
Test Duration = Time(Fire Out) - Time(Ignition)
8.15
0.03
min

Uc = Combined Expanded Uncertainty with 95% confidence level

Table 3. Summary of Test Input Parameters
Parameter Value Uc Unit
Fuel Type
Cross-linked polyethylene foam (XLPE)
 - -
Hood Size
6
 -
m
Effective Duct Diameter
1.975
0.005
m
Exhaust Flow Correction Factor
1.028
0.029
 -
Net Heat of Combustion (per unit mass O2), Ef
13.10
0.52
MJ/kg
Net Heat of Combustion(per unit mass fuel), HOCf
40.00
1.20
MJ/kg
Initial Specimen Mass, Mi (gravimetric)
4.65
0.20
kg
Final Specimen Mass, Mf (gravimetric)
below detection limit
0.20
kg
Plot of Fire Heat Release Rate with event markers. Uncertainty bar shown at peak value.
Figure 1. Plot of Heat Release Rate data with event markers and error bars shown at peak.
Table 4. Summary of Observed Test Events
Event Time (min) Description Video Snapshot Image
1
0.00
Ignition
Ignition
2
0.58
fuel to burner OFF
fuel to burner OFF
peak
1.25
Peak HRR
Peak HRR
3
8.15
Fire Out
Fire Out

Table 5. Supplemental Data Plots

Plot of Oxygen Dry Volume Fraction in hood exhaust stream.
Plot of Oxygen Dry Volume Fraction in hood exhaust stream.
Plot of Carbon Dioxide Dry Volume Fraction in hood exhaust stream.
Plot of Carbon Dioxide Dry Volume Fraction in hood exhaust stream.
Plot of Carbon Monoxide Dry Volume Fraction in hood exhaust stream.
Plot of Carbon Monoxide Dry Volume Fraction in hood exhaust stream.
Plot of Radiant Heat Flux data with event markers. r= radial distance from center of hood, h=height above floor.
Plot of Radiant Heat Flux data with event markers. r= radial distance from center of hood, h=height above floor.
Plot of Smoke Laser Extinction Coefficient in hood exhaust stream.
Plot of Smoke Laser Extinction Coefficient in hood exhaust stream.
Plot of Exhaust Duct Mass Flow Rate.
Plot of Exhaust Duct Mass Flow Rate.

Bryant, R. and Bundy, M. The NIST 20 MW Calorimetry Measurement System for Large-Fire Research, Technical Note (NIST TN) 2077, 2019
https://doi.org/10.6028/NIST.TN.2077

NIST Fire Calorimetry Database (FCD)
https://doi.org/10.18434/mds2-2314

Report Process Script Version
NFRL_Report_8.5.1
Last Updated November 8, 2023