INDUSTRIAL EXPLOSION PROTECTION - DIOSH Day

FENWAL Protection Systems

INDUSTRIAL EXPLOSION PROTECTION

presented by Fenwal Protection Systems Fenwal Protection Systems Proprietary

FENWAL

Fenwal Protection Systems

Protection Systems

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Part of UTC Fire and Safety, largest fire and explosion protection company in the world

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Explosion Suppression

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Explosion Isolation

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Explosion Venting

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Material Evaluation (Combustion Research Center)

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FENWAL Protection Systems

Industries at Risk • • • • • • • • •

Chemical Petrochemical Grain Food Pharmaceutical Aerosol Steel Cement Wood

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Deflagrations - What Happens

Protection Systems

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Flame Speed 30 ft/s Pressure Wave 1100 ft/s Secondary Explosions Flame Propagation

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Deflagration Pressure vs. Time 120 110 100 90

VESSEL: 1.9 M3 DUST: DRY STARCH DUST CONC.: 1000 G/M3 IGNITION ENERGY: 5 KJ

80 70 PRESSURE 60 PSIG

50 40 30 20

IGNITION

10 0

PNEUMATIC DUST INJECTION

0

0.2 TIME, SEC.

0.4

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Explosibility Calculation

Pressure

Pmax Kst = R max V1/3 [bar-m/s] Where

Rmax dP

dt

Rmax = The maximum rate of pressure rise [bar/s] V = The volume of the test vessel [m3]

Rmax = (dP/dt)max Time

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ST Classification and Kst

ST Classification ST - 1 ST - 2 ST - 3

Kst Value 1 -200 201 - 300 301 and above

Example - Pittsburgh seam coal has a Kst value of 129 bar m/s it is therefore considered an ST - 1 dust.

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NFPA and Explosion Protection

Applicable Codes (USA) • NFPA 654 Combustible Particulate Solids • NFPA 664 Wood Processing • NFPA 61

Agricultural and Food Products

• NFPA 30B Aerosol Products • NFPA 484 Combustible Metals • NFPA 68

Venting of Deflagrations

• NFPA 69

Explosion Prevention Systems

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OSHA Combustible Dust Directive

• Chemical Safety Board – – – – –

Independent Federal Agency 1998 Investigates industrial chemical accidents Determines and reports root cause 2003 investigate three fatal dust explosions These events led to a 2005/2006 commission to study dust explosion

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FENWAL Protection Systems

Chemical Safety Board Findings

Study Findings – 300 dust explosions over 25 year period – 119 fatalities, almost 800 injured – MSDS for combustible dusts do not contain explosion hazard information – US safety regulations do not address dust explosion mitigation requirements – Consensus standards provide guidance, but are voluntary unless adopted by state or local AHJs – OSHA responsible per General Duty Clause requiring safe and healthful workplace

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FENWAL Combustible Dust National Emphasis Program Protection Systems

http://www.osha.gov/OshDoc/Directive_pdf/CPL_03-00-008.pdf

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OSHA Directive CPL 03-00-008

National Emphasis Program on Combustible Dusts “Purpose. This instruction contains policies and procedures for inspecting workplaces that handle combustible dusts that are likely to cause dust deflagrations, other fires, or explosions. These dusts include, but are not limited to: • Metal dust such as aluminum and magnesium. • Wood dust • Coal and other carbon dusts • Plastic dust and additives • Biosolids • Other organic dust such as sugar, paper, soap, and dried blood. • Certain textile materials.”

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OSHA Directive CPL 03-00-008

National Emphasis Program on Combustible Dusts – – – – – – –

General Duty Clause requiring safe and healthful workplace Issued 10-18-2007, updated March 2008 Testing samples for combustibility Explosion mitigation requirements per NFPA 654 Deflagration isolation required per NFPA 654 Reviewing housekeeping (1/32”) Citations and Fines

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OSHA Fact Sheet and Poster

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Explosion Protection Methods

• Containment • Inerting • Deflagration Relief Venting • Deflagration Suppression • Deflagration Isolation

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FENWAL

Containment

Protection Systems

• Withstand Maximum Deflagration Pressure • ASME Pressure Vessel Code • Initial Pressure 30 psig max. • NFPA 69

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Containment Vessel

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Inerting

• Lowering Oxygen Concentration • Inert Gases: Nitrogen, Carbon dioxide, Argon • NFPA 69

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FENWAL

Min. Safe Oxygen Concentration

Protection Systems

Dusts Aluminum Propane Hydrogen

9 - 16% 5 11 5

Use data for determining inerting system design

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Max. Pressure vs. Oxygen Concentration

6 5 4 3

.

1

2

Pressure Bar Ga

8

7

9

Protection Systems

8

10

12

14

16

18

20

22

Oxygen Concentration (Vol. %)

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Deflagration Relief Vents •Rupture-style •flat or domed •Square or rectangular •Optional burst sensors

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Vented Dust Explosion

•Fireball 7x volume of vessel •Flame ejection >50’ •Must vent to safe area •Combustible must be safe to vent outside

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Vented Explosion

Protection Systems

Pressure-Time Graph Pmax

Pressure

Unvented

Strength of Vessel P red - Vented Deflagration Pressure Pstat - Vent Opening Pressure Vented

Time

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Vented Dust Explosion

Venting of Inside Vessels • Ducts less than 6 meters • Ducts straight (no bends) • Ducts strength sufficient • Additional vent area/vessel strength required

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Flameless Explosion Vents

Protection Systems

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Flameless Explosion Vents

• Passive protection means • Decreases the energy emitted from a vented deflagration • Allows inside venting to be performed without vent ducts • Temperatures cooled to approx. 900 C • Burst sensor for signaling activation

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Explosion Suppression

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Explosion - Unsuppressed vs. Suppressed

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Deflagration Suppression

PRESSURE, PSIG

DEFLAGRATION SUPPRESSION: P Vs TIME VESSEL: 1.9 M3 DUST: DRY STARCH DUST CONC.: 1000 G/M3 IGNITION ENERGY: 5 KJ

5 4

SUPPRESSION

3

AGENT: SODIUM BICARBONATE HRD DISCHARGE

2

DETECTION P: 0.5 PSIG

IGNITION

1 0 -1

0

PNEUMATIC DUST INJECTION 0.2 TIME, SEC.

0.4

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Explosion Suppression Components

Control Unit

Explosion Pressure Detectors

Explosion Suppression Extinguisher

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Explosion Pressure Detector Static or Dynamic Detector • S/s diaphragm • Field adjustable • Paired sensors for false alarm safeguard • Often mounted with standoffs for vibration isolation

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Control Unit •Microprocessor-controlled •NEMA 4 Enclosure •Wall-Mount •Keyswitch Arming/Disarming •self-diagnostic LED indicators for alarm and trouble conditions •includes battery backup •Equipment Interlocking

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Explosion Suppression Extinguisher

• Sodium-bicarbonate agent • Used for suppression and chemical explosion isolation • Supervised, integral OSHA lockout/tag-out plate. • Dust-ignition proof, weatherproof NEMA enclosure. • DOT/TC approved. • Nitrogen pressurized at 900 psi

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PistonFire - Discharge

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Computer Model

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•Vessel Volume •Length/Diameter Ratio •Explosivity Characteristics – KST, PMAX, AIT •Detection Setpoint •Extinguisher Orientation •Style of HRD •Type of Suppressant •Volume of Suppressant •Agent Throw

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Explosion Propagation

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Explosion Isolation

•NFPA 68 •NFPA 654 •Mechanical Isolation •Chemical Isolation

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Active Explosion Isolation

Chemical Explosion Isolation

Mechanical Isolation Valve

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Explosion Isolation Barriers

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Detection – Recirculated Exhaust

•Must stop transmission of explosion or fire if exhaust is recycled back into plant per NFPA 654 •Explosion detector on vessel, IR flame detector on exhaust •Mechanical or chemical isolation

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Collector Passive Explosion Isolation

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Explosivity Testing • • • • • •

Dust cloud reactivity (Pmax and Kst) Dust cloud minimum ignition temperature Dust layer minimum ignition temperature dust cloud minimum ignition energy Minimum explosible dust concentration Minimum safe oxygen concentration

20-Liter test vessel for Kst, Pmax determination

Go-No Go Test

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Explosion Risks – Process Areas

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Dust Collectors - Baghouses

Active Suppression and Isolation

Passive – Venting and Inlet Isolation

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Air Separation Vessels - Cyclones

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Mills/Pulverizers

Baghouse Cyclone

Mill

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Spray Dryers

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Fluid Bed Dryers

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Silos/Hoppers

Protection Systems

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Bucket Elevator

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Combustible Vapor - Manned

Chemical Storage Rooms Chemical Mixing Rooms Aerosol Fill Rooms/Gashouses Hydrocarbon Gas Filling Hydrocarbon Reclaim Areas

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System Inspections and Support

• Quarterly inspections required per NFPA 69 • Local Fire Protection Distributor to stock and supply spare parts as needed • Emergency reconditioning after system discharge – 24/7 • Minor system troubleshooting

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Explosion Hazard Evaluation

A thorough review of the plant, processes, equipment and materials CONSIDER: Normal, Abnormal and Upset Conditions Ignition Sources Geometry and Strength Housekeeping Process Temperature and Pressure Limits Existing Explosion Prevention and Protection Measures Material Hazards

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