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Intrinsic
Safety
& Hazardous
Areas
by
Steve Mackay
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EIT Micro-Course Series
• Every two weeks we present a 35 to 45
minute interactive course
• Practical, useful with Q & A throughout
• PID loop Tuning / Arc Flash Protection,
Functional Safety, Troubleshooting
conveyors presented so far
• Upcoming:
– Electrical Troubleshooting and much,
much more…..
• Go to:
http://www.idc-online.com/slideshare
• You get the recording and slides
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Overall Presentation
The focus of this session is the building blocks
of electrical engineering, the fundamentals of
electrical design and integrating electrical
engineering know-how into the other disciplines
within an organisation.
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Objectives
The identification of:
♦ Terminology
♦ Fundamentals of Ex i Protection
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Ex Protection Definition
Explosion Protection:
The measures applied in the construction of
electrical apparatus to prevent ignition of
surrounding explosive atmosphere by such
apparatus.
Need to understand: ‘ignition’
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InspectorateInspectorate
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The Fire TriangleThe Fire Triangle
Air
with
21% Oxygen
Fuel
Sufficient Vapour
27.2
!
Bang
Source of IgnitionSource of Ignition
O2
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Electricity as a Source of Ignition
Sources of IgnitionSources of Ignition
HeatHeatSparksSparks
Electrical SourcesElectrical Sources
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Spark Ignition Characteristic
(LEL)
Lower Explosive Limit
(UEL)
Upper Explosive Limit
Minimum Ignition
Energy (MIE)
Ignition
Energy
(milliJoules)
Volume
concentration (%)
1.0
0.1
0.01
0 10 20 30 40 50 60 70 80 90 100
Flammable Range
Propane-air (1 atmos.)
Most-easily ignitable mixture
Hydrogen-air
(1 atmos.)
Ethylene-air
(1 atmos.)
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Explosive limits for materials
Gas/air mixtures are ignitable over a range of concentrations called the
“Flammable Range”
Material Lower Explosive Limit Upper Explosive Limit Minimum
LEL UEL ignition
energy*
Propane 2 % 9.5 % 180µJ
Ethylene 2.7 % 34 % 60µJ
Hydrogen 4 % 76 % 20µJ
* of most easily ignitable mixture (Note: MESG assessed for Ex d)
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Ignition Temperature Definition
The lowest temperature of a flammable gas or vapour at
which ignition occurs.
Ignition Temperature
Sometimes referred to as:
Auto-ignition temperature
Or
Spontaneous ignition temperature
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Flashpoint Definition
The temperature at which the free surface of a liquid
emits sufficient vapour to be ignited by a small flame
Flashpoint
Kerosene:
Flashpoint = 38°C; Ignition Temp. = 210°C)
Only liquids have flashpoints
Operation below Flashpoint constitutes no actual hazard
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Personnel Hazards
For Hydrogen Sulphide, H2S:
a very common danger when dealing with oil products
Property
Volume
Concentration
Smell detection level 0.1 ppm
Safe working level 10
Serious health danger level 50
Lower Flammable Limit 40,000 (4%)
Upper Flammable Limit 460,000 (46%)
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Area Classification
Nature of the Hazard
Locations of hazard
Probability of presence
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Requirement for plant classification
Plant and Installations
are classified according to:-
The nature of the Hazardous Atmosphere
The probability that the Hazardous Atmosphere
will be present
- Gas Classification
- Ignition Temperature
- Area Classification
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Requirement for equipment classification
- Apparatus Group
- Temperature Classification
Equipment
is classified according to:-
The maximum spark energy it can produce
Its maximum surface temperature
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Gas classification: the two main systems
Representative
(Test) gas
Gas classification
Ignitability
IEC countries
(including Europe) USA & Canada
Acetylene
Hydrogen
Ethylene
Propane
Methane
Metal dust
Carbon dust
Flour, starch,
Grain
Fibres & Flyings
Group IIC
Group IIC
Group IIB
Group IIA
Group I
(Mining)
(IEC 1241)
(No classification)
Class I, Group A
Class I, Group B
Class I, Group C
Class I, Group D
(No classification)
Class II, Group E
Class II, Group F
Class II, Group G
Class III
More
easily
ignited
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Temperature classification (IEC/European)
450°C T1
300°C T2
200°C T3
135°C T4
100°C T5
85°C T6
Temperature
classification
Maximum
surface
temperature
Tamb = 40o
C
unless otherwise
stated
Operation above
stated Tamb may
de-rate T Class
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Temperature classification in North America
T1 450
T2 300
T2A 280
T2B 260
T2C 230
T2D 215
T3 200
T3A 180
T3B 165
T3C 160
T4 135
T4A 120
T5 100
T6 85
T class
Apparatus is marked with either T rating
or maximum surface temperature
User has responsibility to ensure that the
T-rating is below the Spontaneous
Ignition Temperature ( SIT )
°C
Tamb = 40o
C
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Gas/Apparatus compatibility
Ammonia 630
Gas Ignition
Temperature
600
500
400
300
200
100
Apparatus
Temperature
Classification
Carbon Disulphide 105
T1T1
T2T2
T4T4
T6T6
T5T5
T3T3
Hydrogen 560
Methane 595
Propane 470
Ethylene 425
Butane 365
Cyclohexane 259
Diethyl Ether 170
T4 for apparatus is usually OK
Exception:
Carbon Disulphide, requiring T5
Don't confuse T Class with maximum operating temperature!
TAMB=40o
C
o
C
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Properties of Gases
Extract from IEC79-18
Compound Vapour LFL UFL Ignition T Apparatus
Density Temp °C Class Group
Acetone
Ammonia
Butane
Carbon Disulphide
Cyclohexane
Diethyl Ether
Ethylene
Hydrogen
Kerosene
Methane
Propane
2.00
0.59
2.05
2.64
2.90
2.55
0.97
0.07
0.55
1.56
2.0
15
1.5
1.0
1.2
1.7
2.7
4.0
0.7
5.0
2.0
13
28
8.5
60
7.8
36
34
75.6
5
15
9.5
535
630
365
100
259
170
425
560
210
595
470
T1
T1
T2
T5
T3
T4
T2
T1
T3
T1
T1
IIA
IIA
IIA
IIC
IIA
IIB
IIB
IIC
IIA
I / IIA
IIA
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Area classification in IEC/European countries
Areas classification:
The probability of a potentially explosive atmosphere being present
and
The length of time for which it is likely to exist
Zone 0:
Zone 1:
Zone 2:
in which an explosive gas-air mixture is continuously
present or present for long periods
in which an explosive gas-air mixture is likely to occur in
normal operation
in which an explosive gas-air mixture is not likely occur
in normal operation, and if it occurs it will exist only
for a short time
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Area classification in North America
Division 1
Hazardous atmosphere is likely to be present in normal operation
Division 2
Hazardous atmosphere is unlikely to be present in normal operation
Zone 0:
Zone 1:
Zone 2:
Div.1 Zone 0 sometimes specified
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Area Classification Example
Bund wall
Tank vents
Liquid surface
Area Classification
for a fixed-roof tank
with
heavier than air
vapour
Zone 1
Zone 0
Zone 2
Key
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Typical Area Classification Plan Drawing
T1
T2 T3
T4
IIB T3 Hazard
T1-4
Tanks
Zone 2 Radius
4.5 metres
Zone 1 Radius
to bund wall
2.5 metres
4 Flow Valves
Zone 1: in pipe
trench 1.75
metres wide
across CL
Zone 2: 3 metres
across CL
B
o
u
d
a
r
y
F
e
n
c
e
Name and Location of Company
N
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Thermocouple in a hazardous are
Inside of pipe or
process vessel
Zone 0Zone 1
Outside of pipe
Zone 2
Division 2
Division 1
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Why Area Classify?
Probability of
Gas/Air Mixture
being present
Probability of
Source of
IgnitionX = Acceptable
Risk
Matched to
Type of
Protection
d, i, q, o,
p, m, e, n, s
Zone 0,1,2
Nothing is
100% Safe
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Methods of Explosion Protection
E Technique: IEC Description: Zone: Application:
x 79-
p Separation (Gas) 2 Pressurisation 1,2 Control rooms, analysers
o (Liquid) 6 Oil-filling 2 Transformers switchgear
q (Semi-solid) 5 Quartz/Sand 2 Instrumentation
m (Solid) 18 Encapsulation 1,2 Instrumentation, control gear
n Construction 15 Non-incendive 2 Transformers, switchgear
e Construction 7 Increased Safety 1,2 Motors, lighting, boxes (Draft)
d Containment 1 Flameproof 1,2 Switchgear, motors, pumps
i Electrical design 11 Intrinsic Safety 0,1,2 Instrumentation, control gear
s Special Special 0,1,2 Gas detection
0 General
Requirements
Ex s Not adopted
Zones are ‘permitted Zone of use’
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Intrinsic Safety
Ex i
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Definition of ‘intrinsic’
Intrinsic:
“in-built”
or
“of its nature”
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Definition
“A circuit in which no spark or
thermal effect in any part of
the circuit intended for use in
a hazardous area is capable
of causing ignition.”
Intrinsically Safe Circuit
IEC79-11
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V & I Limiting Network
Current limiting
resistor
RCLR
Vinput
VZ
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Energy limiting arrangement
Current limiting
resistor
VZ
RCLR
Hazardous
Area
Safe Area
Circuit
FUSE
Vinput
Infallible Components
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Intrinsic safety categories
Intrinsic safety is the only protection concept which
considers failure of the field wiring
Ex ia Ex ib
Intrinsically safe
with
two countable faults
Intrinsically safe
with
one countable fault
Zones 0, 1 and 2 Zones 1 and 2
Countable Faults: Faults in infallible components
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System
+
-
RELAY
Hazardous
N LE
Fault 1
Fault 2
Note! Earth Connection
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Current Limiting from C V Supply
SupplySupply
+
-
Relay
Hazardous
N L E
Barrier
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Component Failure
Current limiting
resistor
VZ
RCLR
Hazardous area Safe area
FUSE
Vinput
Infallible Components
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Thank You For Your Interest
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Editor's Notes
CENELEC is a European organisation dedicated to the harmonisation of international standards.
MEMBERS of CENELEC are not limited to the EEC :
Austria,Belgium,Denmark,Eire,Finland,France,Italy,
Luxembourg,the Netherlands,Norway,Portugal,
Spain,Sweden,Switzerland,the United Kingdom, West
Germany
TEST LABORATORIES within CENELEC are BASEEFA,PTB
LCIE,CESI,INIEX,SEV,SEMKO,DEMKO and EVTA
MINING APPROVALS are often under a separate wing
e.g.; HSE(M),BVS,CERCHAR
APPROVAL by one recognised test house is normally accepted by all others
INTRINSIC SAFETY is the safest possible technique : no other protection concept includes an analysis of faults
FAULTS included in the safety analysis for I.S devices are open circuits,short circuits,component failures and interconnections
COUNTABLE FAULTS are those which are not so probable that they are considered to happen in normal operation and not so unlikely that their occurrence can be ignored