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Title: hazardous area classification


1
Hazardous Area Classification
  • 1. Hazard Its Causes/ Types
  • 2. Hazardous Area Definitions
  • 3. Material Classification
  • 4. Area Classification
  • 5. Prevention

2
1. Hazard Its Causes/ Types
  • Introduction Any area in plant where
    manufacturing processes emit/ may emit gases,
    vapours or mists if mixed with air in correct
    proportions will produce explosive medium.
  • For an ignition to occur there must be
  • A Hazard
  • A Source of Energy (Ignition or Hot Surface)
  • Air (To Support Combustion)

3
1. Hazard Its Causes/ Types
  • Fire Triangle

Air
Temperature
Fuel
4
1. Hazard Its Causes/ Types
  • Terminology
  • Flammable Mixture Rich flammable fuel/ air
    combination in atmospheric conditions
  • Hazard The Presence/ Risk of presence of
    flammable mixture
  • Hazardous Area An area where during normal
    operations, a flammable mixture is likely to be
    present. The material involved is Crude oil its
    derivatives, natural synthetic process gases,
    Hydrocarbons, Metal dusts, fibers etc.

5
1. Hazard Its Causes/ Types
  • Non-Hazardous (Safe Area) An area, which is
    neither Hazardous nor remotely hazardous.
  • Electrical Apparatus For Hazardous Area The
    apparatus which will not ignite the surrounding
    Hazardous Atmosphere, where it is used.
  • Types of Protection Specific measures applied to
    electrical apparatus to prevent ignition in
    Hazardous Area.

6
1. Hazard Its Causes/ Types
  • Combustion
  • Polymers
  • Explosive
  • Corrosive
  • Ignition

7
1. Hazard Its Causes/ Types
  • Spontaneous Combustion Many hazardous material
    have property known as auto ignition Temperature
    at which ignition occurs without source of
    ignition.
  • Polymers

8
2. Definitions
  • Prime Considerations
  • Ease of Ignition The type of Material is
    classified as per property of various materials
    for ease of ignition.
  • Area classification basis Area over Hazard may
    extend.
  • Auto-Ignition Temperature Temperature Class of
    Apparatus Used.

9
3. Material Classification
  • Standards Followed
  • Europe CENELEC IEC
  • North America NEC
  • IEC Gases and Vapours in two groups
  • GR I Mining (Sub-Surface) Industry
  • GR II Surface Industry Sub-Groups A,B,C.

10
3. Material Classification
  • As per NEC
  • Class 1 Gases Vapours further divided into 4
    groups A,B,C,D.
  • Class 2 Combustible Dusts further divided into
    3 groups based on their resistivity G,E,F.
  • Class 3 Combustible fibers or flyings.

11
3. Material Classification Gas GroupingGases
belonging to IIC are most dangerous with severity
decreasing to IIA.
12
3. Material Classification
  • Flammable Liquids
  • Classified on basis of Flash Point.
  • Class A Flash Pt lt 23oC. They produce
    large volumes of vapour
  • Class B 23oCltFlash Ptlt65oC
  • Class C 65oCltFlash Ptlt93oC

13
4. Area Classification
  • Basis
  • Probability of presence of explosive mixture.
  • IEC 3 zones (Zone 0,1,2)
  • Zone 0 Explosive Mixtures continuously present /
    Present for long (gt1000 Hrs/Yr). e.g. Inside
    Tanks, Vessels etc.
  • Zone 1 Explosive Mixtures likely to occur in
    normal operation / (Between 10 to 1000 Hrs/ Yr).
    eg Production Area, area surrounding zone 0.

14
4. Area Classification
  • Zone 2 Explosive Mixtures not likely to occur
    /occur short duration in normal operation (lt10
    Hrs/ Yr).
  • NEC 2 Divisions (Div 1 2)
  • Division I Comprising of Area Same as Zone 0
    1.
  • Division II Comprising of Area Same as Zone 2.

15
4. Area ClassificationThe max surface temp. of
exposed surface of equipment must always be lower
than Auto-Ignition Temp of the Prevailing Gas.
  • Class
  • T1
  • T2
  • T3
  • T4
  • T5
  • T6
  • Temperature(oC)
  • 450
  • 300
  • 200
  • 135
  • 100
  • 85

16
5.Prevention Methods
  • 5.1 Selection Process
  • 5.2 Protection Methods
  • 5.3 Intrinsic Safety
  • 5.4 Enclosure Protection

17
5.Prevention Methods
  • 5.1 Selection Process
  • Selection of electrical apparatus is based on
    likelihood of the simultaneous presence of
    hazardous area and source of ignition
  • Steps
  • 1. Identify the gas/ vapour.
  • 2. Define the Zone ie 0 or 1 or 2.
  • 3. Select type of protection appropriate for the
    zone.
  • 4. Select equipment based on gas group and
    temperature class.

18
5.Prevention Methods
  • Required Information
  • 1. Zone of the Area
  • 2. Ignition Temp of gas/ vapour involved or
    lowest value of
    ignition temperature if more than one explosive
    material is involved.
  • 3. Characteristic of gas/ vapour related to
  • Ignition current (in case of IS apparatus)
  • Safe gap data (in case of FP apparatus)

19
5.Prevention Methods
  • 5.2 Protection Method
  • Methods are Zone dependent ie
  • 5.2.1 Zone 0
  • 5.2.2 Zone 1
  • 5.2.3 Zone 2

20
5.Prevention Methods
  • 5.2.1 Zone 0
  • No electrical apparatus allowed OR When not
    practical only intrinsically safe apparatus is
    allowed.
  • Protection Method
  • Intrinsic Safety (IS)
  • A circuit or part of it is IS when any spark
    or thermal effect is incapable, under prescribed
    conditions, of causing ignition of prescribed
    gas/ vapour.
  • Cat Ex-ia Sustainable to Two Faults
  • Cat Ex-ib Sustainable to One Fault

21
5.Prevention Methods
  • 5.2.2 Zone 1
  • Type of protection as applied to Zone 0.
  • Flameproof, Pressurized, Sand filled, Oil
    Immersed.
  • Protection Methods
  • 1. Flameproof Enclosure (Ex-d)
  • Apparatus will withstand and not pass to
    outside an internal explosion of flammable
    mixture, which may originate inside enclosure.
  • 2. Pressurized Enclosure (Ex-p)
  • Apparatus in which, the entry of flammable
    mixture is prevented by maintaining air pressure
    within the enclosure above atmospheric pressure.

22
5.Prevention Methods
  • Protection Methods
  • 3. Sand filled (Ex-q)
  • An apparatus that has alive parts embedded in
    powdery material.
  • 4. Oil Immersed (Ex-o)
  • An apparatus that has alive parts embedded in
    oil to a sufficient depth to prevent ignition.

23
5.Prevention Methods
  • 5.2.3 Zone 2
  • Type of protection as applied to Zone 0 or Zone
    1.
  • Other methods are
  • Protection Methods
  • 1. Non-Sparking Apparatus (Ex-n)
  • Apparatus that is not capable of igniting
    surrounding.
  • 2. Increased Safety Apparatus (Ex-e)
  • Increased security against excessive
    temperatures and occurrence of arcs/ sparks.
  • 3.Hermetically Sealed (Ex-s)
  • Enclosure is so designed that gases cant enter
    in it.

24
5.Prevention Methods
  • 5.3 Intrinsic Safety
  • Based on min ignition levels established for
    various flammable mixtures.
  • Limits availability of energy even in fault
    conditions to lt min ignition energy.
  • Ex-ia suitable for all zones.
  • Ex-ib suitable for zones 1 2.
  • Achieved by using Zener Barriers or Galvanic
    Isolators.

25
5.Prevention Methods
  • Zener Barrier
  • In event of fault Zener diodes limit the voltage
    that can reach hazardous area and resistor limits
    current.
  • Requires safe grounding otherwise will not
    function.
  • Galvanic Barriers
  • Isolated by transformers.
  • Voltage regulator provided.
  • Does not require grounding.
  • Designed for special applications.
  • Preferred now-a-days.

26
5.Prevention Methods
  • Entity Concept
  • Modular approach to assemble IS systems.
  • User to identify acceptable combinations of
    intrinsically safe apparatus and associated
    apparatus.
  • Intrinsically safe apparatus is assigned Vmax,
    Imax, Ci, and Li.
  • Associated apparatus is assigned Voc, Isc, Ca,
    and La.
  • The length of cable connecting intrinsically safe
    equipment with associated equipment maybe limited
    because of the energy-storing characteristics of
    the cable.

27
5.Prevention Methods
  • Simple And Non-Simple Apparatus
  • Simple Apparatus
  • Purely resistive devices.
  • Does not exceed 1.2v, 0.1A, 20 microjules, 25
    mwatts.
  • Hence, does not require certification.
  • Eg Thermocouples, RTD, Photocells, LEDs.
  • Cable Parameters for IS
  • Energy storage due to L, C L/R.
  • Voltage Limitation 1/2 CV2
  • Current Limitation 1/2LI3

28
5.Prevention Methods
  • Earthing Requirements
  • High integrity Earth
  • Dual Earth Cable
  • Max impedance lt 1 ohm
  • All screens of IS cables to be properly earthed
  • No Earth Loops (Single Earthing)

29
6. Conclusion
  • Precautions/ Guidelines
  • Permit System
  • Work Permits
  • Hot Permits
  • Usage of Proper Tools and Tackles
  • Avoid spark, use non-sparking tools.
  • Use IS Multimeters

30
5.Prevention Methods
  • 5.4 Enclosure Protection
  • Environmental Hazardous Suitability- NEMA codes
  • ie protection against
  • Falling Dirt, Oil spraying, splashing, Rain etc
  • Also Specifies for Hazardous Locations
  • ie Class-IC requires type 7C/ 8C.
  • Ingress Protection - IP Table
  • Specifies degree of protection against solids and
    liquids.
  • Ie IP-65 for complete protection for solid
    ingress and against water jets for liquid.
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