Objective - Develop a test method that is: Representative of Actual Conditions Repeatable and...

Objective - Develop a test method that is:

•Representative of Actual Conditions

•Repeatable and Consistent

•Obtainable by All Labs in All Parts of the World

Test Method Co-Developed With NPRM

...Test Method Perfection

...Release NPRM

Delay Implementation Process

Discrepancies in Calibration and Requirements

Cold-Side Heat Flux: 1.5 or 2.0 Btu/ft2 sec?

Air Inlet Velocity: 2000, 2100, or 2200 ft/min??

Burner Heat Flux: 13.5 +/-0.5, 15.2 +/- 0.8, or 16.0 +/- 0.8???

Requirements have changed as more is learned about the equipment

Chance for industry to participate in the development of the requirements

Objective of Testing, Research, & Round Robin:

• Establish Similar Calibration Procedure

• Produce Similar Exposure From Burner

• Achieve Similar Test Results

Factors That Can Influence Calibration

• Air Intake Velocity

• Air Intake Temperature

• Fuel Flowrate

• Fuel Temperature

• Instrumentation (type/size of thermocouple, calorimeter type)

• Other Adjustments (position of igniters, static disc, tabs)

• Fuel Type (Jet A, Diesel, Fuel Oil)

• Environmental Conditions (relative humidity, barometric pressure)

Latest Calibration Procedure

Temperature: (1850 +/- 100oF)

Adjust Fuel Flowrate to 6.0 +/- 0.2 gal/hr

Adjust Burner Intake Air Velocity to 2100 +/- 100 ft/min

Heat Flux: (16.0 +/- 0.8 Btu/ft2 sec)

•After 2-minute warm-up, swing burner into position, •allow 1 minute stabilization, •take reading for 30 seconds (once per second) and average, •swing burner away from flame

•After 2-minute warm-up, swing burner into position, •allow 1 minute stabilization, •take reading for 30 seconds (once per second) and average, •swing burner away from flame

Air Velocity/Airflow Measurement

Reasons for measuring airflow at intake location:

•Allows for continuous monitoring

•Prevents removal/disruption of tabs

•Eliminates need to remove burner cone

•Intake velocity = Outlet velocity/

Intake Airbox Holding Air Velocity Meter

Intake Airbox

Data Collection Procedure is Critical

Effect of Soot Buildup on Calorimeter Performance(2 minute warm-up away from calorimeter surface)

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0 2 4 6 8 10 12

Time (minutes)

He

at

Flu

x (

Btu

/ft2 s

ec

)

1900 ft/min2000 ft/min2100 ft/min2200 ft/min2400 ft/min2600 ft/min

Date: 11/24/99

Average Rake Temperature Vs. TimeAt Various Air Velocity Settings

1600

1700

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1900

2000

0 2 4 6 8 10

Time (minutes)

Te

mp

era

ture

(oF

)

1900 ft/min

2000 ft/min2100 ft/min

2200 ft/min2400 ft/min

Data Collection Procedure is Critical

Temperature Profile Bias

Backside Heat Flux MeasurementsCalorimeters Mounted at 4 Inches from Centerline

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1.0

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Time (seconds)

He

at F

lux

(Btu

/ft2

se

c)

Cal #1 Baseline

Cal #2 Baseline

Cal #1 Nextel Test

Cal #2 Nextel Test

Location of Flame Enhancement Tab

Static Disc Mounted to Igniter Assembly

Material 1

Material 2

Material 3

Material 4

Round Robin Test Results (Initial)

Material 5

Material 6

Material 7

Material 8

Round Robin Test Results (Initial)

Burnthrough Round Robin Test ResultsFAA Lab

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Material 2 Comparison (Initial)

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Material 3 Comparison (Initial)

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Material 4 Comparison (Initial)

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Material 5 Comparison (Initial)

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Material 6 Comparison (Initial)

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Material 7 Comparison (Initial)

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Material 8 Comparison (Initial)

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Material 1 Comparison (Final)

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Material 2 Comparison (Final)

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Material 3 Comparison (Final)

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Material 4 Comparison (Final)

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Material 5 Comparison (Final)

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Material 6 Comparison (Final)

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Material 7 Comparison (Final)

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Material 8 Comparison (Final)

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Correlation Using 6 GPH Burner (Full Scale vs. Lab Scale)

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1:24

1:361:38

2:14

1:24 Avg

1:54 Avg

2000 ft/min 2100 ft/min 2200 ft/min

Full Scale Testsin 707

Lab Scale Tests with Burner.0

63

-Inc

h A

lcla

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3 L

aye

r A

ero

cor

.06

3-I

nch

Alc

lad

+ 4

Lay

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Ae

roco

r

1:22 Avg

1:37 Avg

Correlation Using 4 GPH Burner (Full Scale vs. Lab Scale)

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.06

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roco

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nch

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+ 4

Lay

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roco

r

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1:361:36 Avg

1:42 Avg

1:29 Avg

1:35 Avg

Full Scale Testsin 707

Lab Scale Tests with Burner

4 GPH Calibration Data

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Intake Air Velocity (ft/min)

Te

mp

era

ture

(oF

)

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at

Flu

x (

Btu

/ft2 s

ec

)

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6 GPH Calibration Data

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Intake Air Velocity (ft/min)

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mp

era

ture

(oF

)

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at

Flu

x (

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/ft2 s

ec

)

2000 2100 2200

Temperature Profile Comparison (Final Calibration)

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mp

era

ture

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)

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Temperature Profile Comparison (Initial Calibration)

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mp

era

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)

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Heat Flux Comparison

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at

Flu

x (

Btu

/ft2 s

ec

)

Lab A Lab B Lab C Lab D Lab E Lab F Lab G Lab H Lab I Lab J

Minimum Burner Heat Flux Maximum Burner Heat Flux