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Detonation Arresters
WinSize Product Application Sheet
Detonation Arresters
"
*
" indicates required fields
Name
*
Company
*
Phone Number
*
Email
*
Country / State
*
City
*
What model are you using?
*
Identifies which arrester model is being applied or evaluated.
94311 Detonation Flame Arrester, Group D, FM
94312 Detonation Flame Arrester, Group D, FM/Marine/USCG
94313 Detonation Flame Arrester, Group C, FM
94314 Detonation Flame Arrester, Group C, FM/Marine
How to determine?
Refer to equipment list or product datasheet.
View Data Sheet
What is the line size?
*
Nominal diameter of the process line where arrester will be installed.
2″
3″
4″
6″
8″
10″
12″
How to determine?
Refer to piping isometrics, design drawings, or measure line directly.
What are the materials of construction? (Body & Flame Bank)
*
The material(s) used for the arrester’s body and key internal elements.
Steel
316 SS
Hastelloy-C
Carp-20
Duplex SS
How to determine?
Match materials with gas/vapor composition, corrosion resistance, and mechanical strength requirements. Use product datasheets or engineering specifications.
1 - What is the normal flow rate?
*
Typical gas/vapor flow rate under standard operating conditions.
*
SCFH
Cubic Meters per hour
Liters per minute
How to determine?
Check flowmeter readings, process data, or design documentation.
2 - What is the maximum flow rate?
*
The highest gas/vapor flow rate the system may experience.
*
SCFH
Cubic Meters per hour
Liters per minute
How to determine?
Review pump/compressor specs or process design limits.
3- What is the operating pressure?
*
The normal operating pressure of the process line.
*
Inches of Water
PSIG
Ounes per square inch
Pascals
Kilopascals
Millibars
How to determine?
Check pressure instrumentation, control system data, or process logs.
4 - What is the maximum allowable pressure drop?
*
The largest pressure loss across the arrester that is acceptable during operation.
*
Inches of Water
PSIG
Ounes per square inch
Pascals
Kilopascals
Millibars
How to determine?
Refer to process design specs or acceptable operating range calculations.
5 - What is the maximum operating temperature?
*
Highest process temperature expected at the arrester location.
*
° F
° C
How to determine?
Use process design data, temperature instrumentation, or operating logs.
6 - What is the Gas/Vapor Composition?
*
The chemical composition of the gas/vapor mixture.
How to determine?
Refer to the process description, P&IDs, or SDS documentation.
7 - What is the distance from the ignition source?
*
The straight-line distance from the arrester to the nearest possible ignition source.
*
Feet
Meters
How to determine?
Measure directly from installation drawings or confirm in field.
Are there bends in the piping?
*
Whether there are bends between the arrester and ignition source, which can affect flame propagation.
Yes
No
How to determine?
Review piping layout drawings or inspect installed piping.
8 - Is continuous burning possible on flame element?
*
Indicates whether the arrester element may be subject to continuous flame burning.
Yes
No
How to determine?
Assess process hazard analysis or operating scenarios.
Current Date
*
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