NITM Shillong Student Presentation - ME 291 Modules III & IV 2024-2025 PDF

Summary

This presentation is for students at NITM Shillong and likely details topics and concepts that would be covered during the 2024-2025 academic session for the course ME291, focusing on electrical safety and emergency measures related to electrical risks. Topics include electrocutation, safety measures for electrical work, fires, explosions, and toxic gases.

Full Transcript

ME 291-Modules III & IV
Session 2024-2025
 Scope of Coverage – Module III

✔ Electrical Safety
✔ Safety measures for Electrical work
✔ Fires & Explosion
✔ Classification of Fire & Fire Extinguishers
✔ Toxic Gas Release & Preventive Measures
thereof

Nov2024 AKD-NIT-SHG- 2
Nov2024 AKD-NIT-SHG- 3
Two employees of Tawang electrical division
electrocuted to death
October 19, 2024
ITANAGAR, 18 Oct: Two staffers of the Tawang electrical division
were killed on Thursday by electrocution while they were repairing the
11kvTawang-Timilo-Changprong-Seru-Yusum feeder line.
The deceased have been identified as Tenzin Lotey and Vikash Kumar.
Speaking to this daily, Tawang Electrical Division Executive Engineer Sange
Phuntso informed that “all the three phases were restored till a double-pole
structure near Timilo on 17th morning.”
“The line was isolated at that point by taking shutdown, and again
charged up to Timilo, and a group had gone to find the fault and
restore the whole faulty segment.” he said.
He informed that Lotey and Kumar had used an aluminium ladder to
fix an isolated conductor at around 4:45 pm on Thursday, “without
taking shutdown from the control room, and were electrocuted.”
“Two other staffers, who went unharmed, are Wangchin and Tenzin,”
he said.
The EE added that the district power department … will ensure that such
incident does not recur by ensuring that awareness is generated among the
staff.
Chief Minister Pema Khandu expressed sorrow over the tragic incident and said
that ex gratia will be paid to the families of the deceased as per the
government norms.
Nov2024 AKD-NIT-SHG- 4
 What electricity can do
Electric shock and burns from contact with
live parts
Thermal burns from contact with heated
electrical equipment/appliances
Arcing causing injury (even death) or fire
Fire from faulty or misuse of electrical
equipment/appliances
Fire or explosion by unsuitable electrical
apparatus in hazardous areas
Static electricity causing fire or explosion in
flammable vapours or dusts
Secondary Injuries
Nov2024 AKD-NIT-SHG- 5
 Electricity & the Human Body
Electric current f;lows through the body tissues
when simultaneous contact is made with 2
objects at different voltages (earth included)
The human body with many tissues and fluids
permits easy passage of current that may affect
✔ Muscular
✔ Circulatory &
✔ Respiratory functions
✔ Serious burns may also occur
Resistance to current flow offered by hairs, skin
& inner body tissues (So can vary from personto
person)
Current primarily determines physiological
effects but remember Ohm’s Law
Nov2024 AKD-NIT-SHG- 6
Elect Resistance of the Human Body
Rtotal = Rskin(in) + Rinternal + Rskin(out)
Rtotal = 300 ꭥ Approx
Rskin usually between 1000 – 100,000 ꭥ
depending on factors like contact area, moisture,
condition of skin etc.
Rskin approx. 99% of Rtotal
Rskin of dry, thickened palm (epidermis) may be
>100,000 ꭥ
Cuts, abrasions, wetness or in water Rskin
Rskin also subject to changing voltage as in AC

Nov2024 AKD-NIT-SHG- 7
 Ways to Control Electrical Hazards

Hazard Control
Physical Switching
controls devices
Grounding & Over-current
bonding devices
Procedures

Nov2024 AKD-NIT-SHG- 8
 Types of Injuries (1/3)
Burns: by heat generated as electricity flows
through body tissues.
✔ Most common nonfatal electrical injury
✔ Typically occurs on the hands
High-voltage fatalities result from
electro-thermal burns.
Involuntary muscle contractions can prevent
a victim from releasing a live conductor.
Nervous system effects
✔ Breathing can stop at 30 mA AC at 60Hz
✔ Falls
Nov2024 AKD-NIT-SHG- 9
 Types of Injuries (2/3)
Ventricular fibrillation (irregular heartbeat);
Heart muscles quiver but fail to pump blood.
Can occur at 75-100 mA & 50 Hz.
May be caused even by low voltage
May be fatal
Cardiac Arrest may result from paralysis of the
nerve centers that regulate heart rhythm.

Nov2024 AKD-NIT-SHG- 10
 Types of Injuries (3/3)
Pulmonary Arrest (inability to breathe) is
caused by paralysis of the nerve centers in
the brain which control breathing.
Heart stops O2 supply to the
pumping brain stops &
blood death is almost
or
certain to occur
Lungs stop within 4 to 6
moving air minutes.

Nov2024 AKD-NIT-SHG- 11
 Factors for Severity of Injuries
Current through body
Area of body contact
Physical size, condition, age of person
Circuit path
Duration of current
Body resistance
Wet and/or damp locations
PPE used
Circuit Voltage AKD-NIT-SHG-
Nov2024 12
 Risk Factors
Dose-Duration response
– 500mA for 0.5s may be fatal
– 100 mA for 2 secs through an adult human
body can cause death by electrocution
– 3 mA painful shock.
Shock PathSkin 1.5 - 2 K-ohms
Heart Cycle 750ms (fibrillation)
Frequency HF can cause serious internal
burns

Nov2024 AKD-NIT-SHG- 13
 Dose / Response
Response
Cardiac &
Breathing
Arrest

Ventricular
Fibrillation
Let go
threshold

Threshold
of perception
Dose
0.5 mA 10 mA 500 mA

Nov2024 AKD-NIT-SHG- 14
 Recognising a Casualty

Asphyxia
No discernible pulse
Pallid blue colour
Muscular contraction
Contact burns
May have been thrown by shock

Nov2024 AKD-NIT-SHG- 15
 First Aid
Isolate from power source
✔ Low voltages may be turned off, or,
✔ Dislodge injured person from power supply
with non-conducting ‘prop’
Never attempt to rescue casualty from high
voltage supply unless power has been
turned off by supply authority

Nov2024 AKD-NIT-SHG- 16
 Electrical Safety Devices
Residual Current-Operated Circuit Breakers
(RCCBs) - 30, 100, 300 mA
Delayed tripping RCCBs (200 mS)

Arc Fault Current Interrupters (AFCIs)

Glowing Connection Detector (GCDs)

Infra-Red Hotspot Detection Tool

Thermography Surveys

Ground Fault Circuit Interruptors (GFCI) or
Earth Leakage Circuit
Nov2024
Breakers (ELCB) - 5
AKD-NIT-SHG- 17
 ELCB /GFCI
Fast acting, detects leakage currents &
breaks off circuit before it becomes a
personal hazard.
GFCI detects fault currents as low as 2mA &
trips open within 0.02s of detecting a current
imbalance.
GFCI are not Grounded Fault Protection
(GFP) devices & will not protect against
line-to-line contact that results from touching
both the hot & neutral wire simultaneously.

Nov2024 AKD-NIT-SHG- 18
 Isolation,
Lockout / Tagout (LOTO)
 Energized

Connected to an energy source OR
Containing residual or stored energy

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 Energy source
Any source of:
– Electrical,
– Mechanical,
– Hydraulic,
– Pneumatic,
What kind of energy
– Chemical, did the rock have?
– Thermal,
– Water under pressure (or steam)
– Gravity
– Potential
– Any other energy
Nov2024 AKD-NIT-SHG- 21
 Energy isolating device
A mechanical device that physically prevents
the transmission or release or energy
Circuit breakers included
NOT push buttons
NOT selector switches
NOT control circuits

Nov2024 AKD-NIT-SHG- 22
 Scope
Why use lockout/tagout?
– Protects maintenance personnel from
power being re-applied by mistake
Covers servicing & maintenance of machines
and equipment in which
– Unexpected energization or start up or
– Release of stored energy could cause
injury to employees

ADOSHE-2024-25 ADE22102-Module2 23
 Exceptions
Does not apply to cord & plug connected
equipment for which
✔ Exposure to hazard is controlled by
unplugging &
✔ Plug under control of employee doing
service or maintenance
Minor adjustments and servicing activities
during normal production if
✔ Routine, Repetitive, Integral to production
Provided that alternative measures provide
effective protection
ADOSHE-2024-25 ADE22102-Module2 24
 Tagout
Placement of tagout device
– on an energy isolating device, as per an
established procedure,
– to indicate that energy
isolating device and
equipment being controlled
may not be operated until
tagout device is removed

Nov2024 AKD-NIT-SHG- 25
 lockout/tag-out equipment
must be provided

use only approved locks and tags
when performing lockout/tag-out
Nov2024 AKD-NIT-SHG- 26
 Hazardous Area Classification

Helps
identify extent of areas where explosive
atmosphere may exist under normal and
expected conditions.
select electrical apparatus / instruments
for such areas
locate other equipment like heaters, boilers

Nov2024 AKD-NIT-SHG- 27
 Procedure for classifying locations

Step 4
Select electrical equipment

Step 3
Assess extent of classified area
Step 2
Can flammable atmosphere be created
under normal/abnormal conditions

Step 1
Can flammable vapours be present in the area?

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 Equipment for Hazardous Areas
If explosive atmosphere cannot be prevented

Measures to avoid source of ignition

For electrical equipment
special construction
and / or
special erection standards may apply.

Nov2024 AKD-NIT-SHG- 29
 Primary methods of protection

Methods of
Lowering
Ignition hazard
Explosion
Intrinsic Contain the proof &
safety Limit sealing
result of
Energy
ignition

Restrict
Eliminate air temperature
of components
Oil immersion,
hermetically seal,
encapsulate
NPTI-IV-30122017 akhilkdas 30
 Electrical Area Classification

Basis

Nature of Likelihood
Hazard of Hazard
(e.g. gas, vapour, (e.g. normal,
dust etc.) abnormal

NPTI-IV-30122017 akhilkdas 31
 Electrical Area Classification

National
Electrical
Code
(NEC)

Division Class

Normal Gas

Abnormal Dust

NPTI-IV-30122017 akhilkdas 32
 Electrical Area Classification

International
Electro-technical
Commission
(IEC)

Zone 0 Zone 20

Zone 1 Zone 21

Zone 2 Zone 22

Gases &
Vapours Dusts

NPTI-IV-30122017 akhilkdas 33
 Gas Groups (for Class I areas)

North America CENELEC /IEC
Gas CEC Section 18, NEC CENELEC.EN50014
Article 500 IEC 79-0
Acetylene A IIC
Hydrogen B IIC
Ethylene C IIB
Propane D IIA
Group D
Methane I
(Gaseous mines)

Nov2024 AKD-NIT-SHG- 34
 Grouping Gases, Vapors, & Dusts
Grouping of gases
based primarily on

Maximum Minimum
Experimental Ignition
Safe Gap (MESG) Current (MIC)

Nov2024 AKD-NIT-SHG- 35
 Labelling
Certified to CENELEC standards

Explosion Protection
Protection method
Apparatus Group (Gas Group)

Temperature Class

E Ex ia IIC T4

Nov2024 AKD-NIT-SHG- 36
 Codes and References

Indian Standards
IEC (International Electrotechnical Com’sion)
API-RP-500A
IP Model Code of Safety
CENELEC / ATEX
UL / FM / BASEEFA – for eqpmt. certification

NPTI-IV-30122017 akhilkdas 37
 Zone
Zone Description Example
0 Explosive gas-air mixture
Vapour space of
is continuously present or
process vessel or
present for long periods.
storage tank
(≥ 1000 hrs)
1 Explosive gas-air mixture
may occur in normal Sampling point
operation. (10 - 1000 hrs)
2 Explosive gas air mixture
is not likely &, if it occurs, Process plant
will exist only for a short areas
time. (0.1 -10 hrs)

NPTI-IV-30122017 akhilkdas 38
 Explosion-proof enclosure
An enclosure that will
1. withstand pressure of an internal
explosion &
2. not cause ignition of external gas or vapor.
(Hot gases are cooled as only cooled
gases escape. Minimum 5 full threads)

NPTI-IV-30122017 akhilkdas 39
 Max surface temperature codes

Temp ( C ) Class
450 T1
300 T2
200 T3
135 T4
100 T5
85 T6

NPTI-IV-30122017 akhilkdas 40
 Grounding vs. Bonding
+++ Unequal charge
+ between 2 bodies
+++
+

Bonding equalises
+++ +++
charge between 2
+ + bodies

Grounding
removes charge

Nov2024 AKD-NIT-SHG- 41
 Conditions for Static Ignition

1. Presence of flammable atmosphere
2. Generation of static
3. Accumulation of static
4. Spark
5. Spark of sufficient energy

Nov2024 AKD-NIT-SHG- 42
 Static generation Static control
Flow of light hydrocarbons Control flow rate
Check use of filters
Residence time
Anti-static additives
Passage of dry powder Bonding / earthing
material (sulphur)
Charging of Anti-static PPE
non-conductive clothing
Loading and unloading of Avoid splash filling
liquid hydrocarbons Bonding / earthing
Check use of filters
Spray painting Bonding / earthing

Nov2024 AKD-NIT-SHG- 43
Fire Science
Fire ravages Shillong Bar Association building
Shillong, Feb 24, 2024: A fire has ravaged the 111-year-old
Shillong Bar Association building on Saturday night.
The incident took place after 10 pm and the cause of fire which
damaged furnitures and several documents will be ascertained
only after a probe.
Chief Minister Conrad Sangma, who visited the site, said
electrical issues may be the reason for the fire but the actual
cause is yet to be known.
Deputy Chief Minister Sniawbhalang Dhar, Chief Secretary DP Wahlang, Deputy Commissioner
RM Kurbah and several officials accompanied the chief minister.
Several fire tenders rushed to the spot to douse the fire.
The Shillong Bar Association was formed in 1913 and its centenary event was held in 2013.
The Assam Public Service Commission had used the Assam-type
building and later it has been housing the Shillong Bar
Association members.
Among others, the adjacent buildings are sessions court and
deputy commissioner’s office.
Nov2024 AKD-NIT-SHG- 45
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 Fuel
Material being oxidized in combustion
process (Reducing agent)
– Inorganic or Organic (Hydrocarbon-based
or Cellulose-based

Key factors influencing combustion process
– Physical state of fuel (solid, liquid, gas)
– Distribution or orientation of fuel

Nov2024 AKD-NIT-SHG- 50
 Combustion — Modes

Flaming Non-flaming
Oxidation involves Some solid fuels can
fuel in gas phase undergo oxidation at
Requires liquid/solid the surface of the
fuel
fuels to be converted
to gas or vaporized e.g., Burning
charcoal or
When heated,
smoldering fabric
liquid/solid fuels give
off vapors that burn

51
 Solid Fuel

May react differently when exposed to heat
Melting & vaporisation
Pyrolysis (decompose) giving off
combustible vapours
Sublimation
Surface-to-mass ratio
Proximity/orientation of solid fuel relative to
source of heat

Nov2024 AKD-NIT-SHG- 52
 What’s in a flame?

Flames are regions of reacting gases,
releasing chemical energy. Being lighter than
their surroundings, they at first accelerate
upwards, but then slow down as they get
diluted by entrained air.

Nov2024 AKD-NIT-SHG- 53
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 What’s in a flame?

Bunsen Burner Flame

Candle Flame

Nov2024 AKD-NIT-SHG- 55
 Liquid Fuel Characteristics

Flash point
Fire point
Surface area
Solubility
Fire fighting considerations

Nov2024 AKD-NIT-SHG- 3–56
 Upper explosive
limit (UEL)

100% Air 0%
Too
lean Too rich

0% Fuel 100%

Lower explosive
limit (LEL)

Nov2024 AKD-NIT-SHG- 57
Too lean LFL Flammable or UFL Too rich
or Explosive Range or
LEL (Volume % in air) UEL

3 Acetylene (C2H2) 92
5 Hydrogen (H2) 75
2.2 Propane (C3H8) 9.5
1.2 Benzene (C6H6) 7.8
4 Hydrogen sulphide (H2S) 44
12.5 Carbon monoxide (CO) 74

LEL/LFL: Lower explosive / flammability limit
UEL/UFL: Upper explosive / flammability limit
8/25/2010
Nov2024 FireAKD-NIT-SHG-
Protection - AKD 58
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 Flash Point (CC) Ignition Point
Deg C Deg C
Hydrogen - 520
Acetylene - 305
Propane - 450
Gasoline - 43 280 - 471
Kerosene 38 - 72 210
Methanol 11 385
Fuel Oil 38 - 132 200 - 240
H 2S - 260

Richer oxygen levels, lower ignition temperature.
Nov2024 AKD-NIT-SHG- 60
 Vapour Density
Ratio of the mass of a volume of vapor to
the mass of an equal volume of air.

Approx. molecular weight of air
21 % Oxygen 0.21 X 32 = 6.72
79 % Nitrogen 0.79 X 28 = 22.12
28.84 (approx. 29)

Vapor density = Mol weight of gas (or vapour)
29

Nov2024 AKD-NIT-SHG- 61
 Heat – Positive Thermal Feedback
Heat lost to
the surroundings

Heat
generated

feedback
Thermal

Heat input

Nov2024 AKD-NIT-SHG- 62
 Oxygen

At normal ambient temperatures, materials can
ignite/burn at 14 - 15 % O2.
For limited O2 , flaming may diminish; burning
may continue on surface (smoldering).
Fires in O2-enriched atmospheres are difficult
to extinguish - potential safety hazard.
At high ambient temperatures, flaming
combustion may continue at much lower O2
concentrations.

Nov2024 AKD-NIT-SHG- 63
 How do fires start?

All fires start with ignition and for which, the
following must exist simultaneously:

Sufficient heat to provide the required energy
for the chemical reaction to start

Enough fuel vapour in the air - neither too
much nor too little

Sufficient air (combustion supporting media)

Nov2024 AKD-NIT-SHG- 64
 Fire Development in a Compartment

Nov2024 AKD-NIT-SHG- 65
 Fuel Type
Impacts both heat released and time over
which combustion occurs
Mass and surface area are basic fuel
characteristics influencing fire development
Factors that influence
– Configuration of building
– Contents
– Construction
– Location of fire in relation to uninvolved fuel

Nov2024 AKD-NIT-SHG- 66
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 Typical steps in a dust explosion

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Potential Major Explosion Scenarios

Vapour Cloud Explosion
Boiling Liquid Expanding Vapour Explosion

Nov2024 AKD-NIT-SHG- 70
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 Classification of Fires

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 Fixed Fire Protection
Passive Fire Protection
Detectors
Alarms
Water-based systems
Specialised systems

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 HazMat
Hazard:
A characteristic of the system/plant/process
that represents a potential for an accident.
Hazardous substance:
Any substance or preparation which by
reason of its chemical properties or handling
is liable to cause harm to human beings,
other living creatures, plants,
micro-organism, property or the
environment.

Nov2024 AKD-NIT-SHG- 83
 Types of Hazardous Materials

ADOSHE-2022-23 ADE22104-Module1 84
ADOSHE-2022-23 ADE22104-Module1 85
 Acute Immediate & direct
threat to life; high
exposure over short time.
Chronic
Repeated exposure
over months or years; low
exposure over long time.

Toxic effects
Cause damage at point of
contact like skin, eyes,
nose, throat, lungs
Local
Enter body & travel
thro bloodstream to internal
Systemic organs & other areas
akhilkdas-180306 s-05 86
 Toxic tolerance limits

Threshold
Limit
Values (TLV)

Short term
Time
exposure
Weighted Ceiling ©
limit
Average (TWA)
(STEL)

Immediately dangerous to life & health (IDLH)

ADOSHE-2022-23 ADE22104-Module1 87
 NFPA Hazid Labeling (NFC 704)
A quick identification of hazardous
materials in which the 3 categories
of hazard considered are

Health (0 – 4)

Flammability (0 – 4)

0 – No Special hazard
to Reactivity (or Stability) (0 – 4)
4 – Severe
ADOSHE-2022-23 ADE22104-Module1 88
 Emergency Information Panel

ADOSHE-2022-23 ADE22104-Module1 89
 http://www.hrdp-idrm.in/e5783/e17327/e17819/e28097/
ADOSHE-2022-23 ADE22104-Module1 90
Ludhiana gas: Toxic leak kills 11
1 May 2023

workers are trying to determine the source of the leak
At least 11 people have died following a gas leak in northern India.
Women and children are among those who died in the city of Ludhiana in Punjab state. Several
people were found unconscious in their homes. The area was sealed off and residents were
evacuated after many reported breathing difficulties. Four are being treated in hospital. The
source of the leak has not been officially confirmed so far.
An official statement from the district administration said that high levels of hydrogen sulphide gas
were detected in the area. Earlier, an official had suggested that gas may have spread from
manholes.
PTI news agency quoted Ludhiana Deputy Commissioner Surabhi Malik as saying: "We are
going to collect samples from manholes. It is quite likely that some chemical reacted with
methane in manholes."
Rajinder Pal Kaur Chhina, a local legislator, told Reuters news agency that the incident had
happened near a milk shop. "People who came to buy milk in the morning, fell unconscious
outside," she said.
A team from the National Disaster Response Force has been sent to the site, in the Giaspura
area of Ludhiana. There are factories nearby.

Industrial gas leaks are not rare in India.
Three years ago a gas leak at a chemical plant killed least 12 people in the city of
Visakhapatnam, in the state of Andhra Pradesh.
In 1984 a chemical leak in a pesticide plant at the central city of Bhopal killed thousands of
people, in what is acknowledged to be the world's worst industrial disaster.
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Tragedy struck Mohdinagar locality in Bhagalpur district
when three members of a family succumbed to
asphyxiation inside a septic tank. Punit Yadav, while trying
to retrieve a tool, fell into the tank and his wife, Sakho Devi,
and relative, Dinesh Yadav, met the same fate attempting to
rescue him

Nov2024 AKD-NIT-SHG- 97
UN Classification of Hazardous Substances

Class
1 Explosives 6 divs
2 Gases 3 divs
3 Flammable liquids
4 Flammable solids 3 divs
5 Oxidisers 2 divs
6 Toxic substances 2 divs
7 Radioactive
8 Corrosive
9 Miscellaneous dang goods

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 E O
Explosive Oxidizing

F Highly Extremely F+
flammable flammable
T T+
Toxic Very toxic

Xn Xi
Harmful Irritant

Dangerous
C N
Corrosive for
environment
Nov2024 AKD-NIT-SHG- 100
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 Role of the SDS in the GHS

▪ The SDS should provide comprehensive
information about a chemical substance or
mixture.
▪ Primary Use: The Workplace
▪ Employers and workers use the SDS as a
source of information about hazards and
to obtain advice on safety precautions.

Nov2024 AKD-NIT-SHG- 102
 SDS Format: 16 headings
1. Identification
2. Hazard(s) identification
3. Composition/information on ingredients
4. First-aid measures
5. Fire-fighting measures
6. Accidental release measures
7. Handling and storage
8. Exposure control/personal protection

Nov2024 AKD-NIT-SHG- 103
 Format: 16 headings (cont.)

9. Physical and chemical properties
10. Stability and reactivity
11. Toxicological information
12. Ecological information
13. Disposal considerations
14. Transport information
15. Regulatory information
16. Other information

Nov2024 AKD-NIT-SHG- 104
 Routes of Entry for
Harmful Substances
Respiratory tract
Digestive tract
Contact
Openings such as cuts and other wounds
Absorption such as by tears

Nov2024 AKD-NIT-SHG- 105
 Routes of Entry

Inhalation Ingestion Contact

Through eyes Injection Through cuts

Nov2024 AKD-NIT-SHG- 106
 Measures of Toxicity
Threshold Limit Value (TLV) – ACGIH
✔ TLV-TWA
✔ TLV-STEL
✔ TLV-C
Immediate Danger to Life & Health (IDLH)
Permissible Exposure Limit (PEL) - OSHA, USA
Lethal Concentration (LC), Lethal Dose (LD)

Nov2024 AKD-NIT-SHG- 107
 Inert Gases
Respiratory tract
Digestive tract
Contact
Openings such as cuts and other wounds
Absorption such as by tears

Nov2024 AKD-NIT-SHG- 108
 Five steps for safety

Elimination or Substitution
Engineering
Warnings
Training and Procedures
Personal Protective Equipment
Nov2024 AKD-NIT-SHG- 109
 Risk Control

Likelihood Severity
control Control
Software

Control Permit to Directed Emergency
Instruments Work Relief Preparedness

Hardware
Nov2024 AKD-NIT-SHG- 110
 Safe Working Procedures
SOPs
Permit to work (OISD 105)
Cold Work Permit
Hot Work Permit
Confined space entry
Inert entry
Risk assessment
Job Safety Analysis
Pre-work safety talk
Management of Change
BBS

Nov2024 AKD-NIT-SHG- 111
 Scope of Coverage – Module IV

✔ Safety in Construction industry
✔ Underground / Overground / Under-water
work
✔ Movement of men & materials
✔ Personal Protective Equipment
✔ Selection and Classification of PPE
✔ Statutory provisions to ensure safety at
work
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 Safety starts at the surface
Remove/support surface features/materials that
create hazards
Barricade or cover wells, pits, shafts
Use appropriate PPE. Warning vests near traffic
Employees trained to operate heavy
equipment; helpers/guides available
Stay away from loads being handled by
lifting/digging equipment
Stay away from vehicles being loaded/
unloaded

Nov2024 AKD-NIT-SHG- 116
6a
 Safety considerations
Excavation is one of the most hazardous
activities in the construction industry
Accidents result from inadequate planning
Build safety into pre-bid planning
Plan safety into the job. Consider:
✔ Traffic
✔ Nearness, conditions of structures
Soil Surface and ground water
✔ Water table
✔ Overhead/underground utilities
✔ Weather
Nov2024 AKD-NIT-SHG- 117
3a
Class 10 Student Drowns While Bathing In Water-Filled
Excavation
TPratidin Time
A student
Updated on: of class 10 tragically drowned in Guwahati’s Garaliya
07 Nov 2024, 8:58 am
region on Thursday morning. The deceased, identified as Vishal,
was a student of Betkuchi High School and lived with his family
in Lokhra.
According to reports, Vishal and three of his friends had gone to
the large, water-filled excavation site in Garaliya to cool off and
bathe. These excavations, which formed large pond-like pits,
were the result of recent land clearing and usage for the
expansion of the national highway.
Moreover, the pits, deep and often unpredictable, have been a
concern for local residents due to the risks they pose, especially
for children and teenagers who frequent the area.
While attempting to bathe in one of these pits, Vishal allegedly
drowned. His friends, unable to save him, immediately raised the
alarm.
Vishal's
Nov2024
lifeless body was later recovered from the water and118
AKD-NIT-SHG-
sent to a nearby hospital for a post-mortem examination.
Nov2024 AKD-NIT-SHG- 119
Nov2024 AKD-NIT-SHG- 120
 Employee access/egress on site
Ramp design by a competent person
Ramps structurally sound; not tripping hazard
Surface treatments on ramps to prevent
slipping
Trenches > 1.2m deep need a safe means of
egress (Stairway / Ladder / Ramps)
Means of egress must be fixed and secure;
within 7m travel
Ladders must extend 3m (min) above landing
Use metal ladders; caution around utilities

Nov2024 AKD-NIT-SHG- 121
8a
 Hazards of excavation work
Cave-ins
Underground utilities
Materials/equipment falling
into excavation sites
Struck-by accidents
Asphyxiation
Explosions
Falls
Electrocution
Drowning

Nov2024 AKD-NIT-SHG- 122
2a
 Hazardous atmospheres
Operations inside an excavation can
introduce hazardous atmosphere
Test the air of excavation sites more than
1.2m deep before entering
Take extra precautions when atmosphere
has:
– < 19.5 percent, or > 23.5 percent O2
– Combustible gas conc > 20% LFL
– concentrations of hazardous substances
that exceed TLVs
Wear respiratory equipment when required

Nov2024 AKD-NIT-SHG- 123
9c
 Water accumulation hazards

Methods for controlling standing water
include:
– special support/shield systems
– water removal equipment
– safety harnesses and lifelines

Nov2024 AKD-NIT-SHG- 124
11b
 Protect structures near excavation
Use support systems to keep nearby
buildings, walls stable
– Shoring
– Bracing
– Underpinning
Excavation below the base of a footing or
retaining wall must have support system
Excavations under pavements must have
support system

Nov2024 AKD-NIT-SHG- 125
12a
 Loose rock and soil as hazards

Prevent loose rock/soil from falling onto
employees in excavation sites
Use barricades to contain material Keep
surface materials at least 2 feet from the
edge of excavation sites
Keep employees off of sloped
surfaces at levels above other
employees

Nov2024 AKD-NIT-SHG- 126
13b
 Sloping and benching
Slope sides to a safe angle
Slope angle not be steeper than 1.5
horizontal to 1 (max) vertical is safe
Soil classification may not be needed if
sloped to this angle
Other slopes may be used for other soil
types
Benching creates horizontal levels or steps
with vertical or near-vertical surfaces
between levels

Nov2024 AKD-NIT-SHG- 127
16a
 Protective systems
Where there is potential for cave-ins:
– sloping or benching
– support systems
– shield systems
– other protective
systems

Nov2024 AKD-NIT-SHG- 128
14a
 Protective systems
Consider soil type
May not be needed if
the excavation is:
– in stable rock
– < 1.5m deep
Choose the most
appropriate &
practicable design
Protective systems
must be able to resist
all types of loads

Nov2024 AKD-NIT-SHG- 129
14b
Support, shield &protective systems
Shoring systems support the
sides of the excavation with:
– timber
– aluminum
– hydraulic, pneumatic, or
mechanical systems
Shoring systems are made up of
cross braces, wales & uprights
Selection and design involves
using tabulated data

Nov2024 AKD-NIT-SHG- 130
17b
 Trench failure
The following can cause immediate change:
– bulldozers coming too close to the trench
– sudden heavy rain
– broken underground utility
Tension cracks can cause sliding, sluffing, or
toppling
Unsupported excavation can cause bulging in
the vertical face
Downward pressure can cause bottom heaving
or squeezing
Upward water flow can cause boiling in the
bottom of the excavation
Nov2024 AKD-NIT-SHG- 131
20c
 Elements of Emergency Planning
Identify hazards
Assess likely scenarios (models)
Time scale
On-site / Off-site
Mitigation measures
EM teams
Drills – Desk-top exercise, Dry drills, Mock
drills (Idea is that in case of real eventuality,
actions come naturally)

Nov2024 AKD-NIT-SHG- 132
 Emergency equipment

Keep emergency rescue equipment ready In
case of potential hazardous atmosphere
Respirators must be suitable for the type of
exposure
Independent lifelines must be provided when
appropriate

Nov2024 AKD-NIT-SHG- 133
10a
 Personal & Collective Protective
Equipment & Systems

Nov2024 AKD-NIT-SHG- 134
Nov2024 AKD-NIT-SHG- 135
Nov2024 AKD-NIT-SHG- 136
Nov2024 AKD-NIT-SHG- 137
Nov2024 AKD-NIT-SHG- 138
 PPE

Activity
Respiratory Body Part
specific e.g.
Protection Protection
Fall Protection

Air
Purifying

Supplied
Air

Nov2024 AKD-NIT-SHG- 139
 Codes, Standards, Laws …….

Basic intent – uniformity, clarity, safety

Standards for items (specification)

Standards for activity (CoP, RP, WI, PTW)

Made by different groups of people

ADOSHE-2022-23 ADE22101-Module 2 140
 HSE Statutes & Standards
The Factories Act 1948 / 1987
The State Factories Rules
The Petroleum Act 1934 / Rules 2002
The Explosives Act 1884 / Rules 2008
The Static & Mobile Pressure Vessels
(Unfired) Rules 1981
The Gas Cylinder Rules 2004
Inflammable Substances Act, 1952
Calcium Carbide Rules, 1987
Nov2024 AKD-NIT-SHG- 141
 HSE Statutes & Standards
The Environment Protection Act 1986 / Rules
1986
Manufacture, Storage & Import of Hazardous
Chemicals Rules 1989 (Am 2000)
The Chemical Accidents (Emergency Planning,
Preparedness And Response) Rules, 1996
Contract Labour (Regulation & Abolition) Act
1970 / Rules1971
The Indian Electricity Act 2003, Rules 1956, 2005
The Central Motor Vehicles Act 1988 / Rules 1989

Nov2024 AKD-NIT-SHG- 142
 HSE Statutes & Standards
Public Liability Insurance Act 1991 / Rules
1991
Plastic Waste Management Rules 2016
e-waste (Management) Rules, 2016
Bio-Medical Waste Management Rules,2016
Construction and Demolition Waste
Management Rules, 2016
Hazardous and Other Wastes (Management
and Transboundary Movement) Rules, 2016
Solid Waste Management Rules, 2016

Nov2024 AKD-NIT-SHG- 143
 A final word
Codes set the minimum criteria. Stricter
requirements at any time.
Not always perfectly clear. When 2
requirements are similar, go with the stricter
requirement
Not all of them will apply to every situation.
Work with code officials to resolve
discrepancy / ambiguity

Nov2024 AKD-NIT-SHG- 144
ADOSHE-2022-23 ADE22101-Module 2 145
ADOSHE-2022-23 ADE22101-Module 2 146
ADOSHE-2022-23 ADE22101-Module 2 147
ADOSHE-2022-23 ADE22101-Module 2 148
 Electricity Act &
Indian Electricity Rules

ADOSHE-2022-23 ADE22101-Module 2 149
 The Electricity Act sets out the regulatory
framework for the supply of electricity and
the electricity industry, and for regulation
and control of electrical workers. It covers:
powers and duties of electricity operators
and other owners of electricity works.

ADOSHE-2022-23 ADE22101-Module 2 150
Section 177 of the Electricity Act, 2003

Central Electricity Authority (Measures relating to
Safety and Electric Supply) Regulations, 2010
Rule 5: All suppliers of electricity including
generating companies, transmission companies and
distribution companies shall designate and
Electrical Safety Officer …..
Rule 6: Safety measures for operation and
maintenance of electric plants
Rule 7: Safety measures for operation and
maintenance of transmission, distribution systems
Rule 12: General safety requirements pertaining to
construction, installation, protection, operation and
maintenance of electric supply lines and apparatus

ADOSHE-2022-23 ADE22101-Module 2 151
 IE Rules
42. Accidental charge
43. Provisions applicable to protective equipment
44. Instructions for restoration of persons
suffering from electric shock
44A. Intimation of Accident
45. Precautions to be adopted by consumers,
owner’s occupiers, electrical contractors,
electrical workmen and suppliers
46. Periodical inspection and testing of
consumer’s installation

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 PESO
Dept of Commerce & Industry, Govt of India
Department For Promotion Of Industry And Internal Trade

ADOSHE-2022-23 ADE22101-Module 2 153
PESO is a nodal agency for regulating safety of
hazardous substances such as explosives,
compressed gases and petroleum. Its major work
is to administer the responsibilities delegated
under the Explosives Act 1884 and Petroleum Act
1934 and the Rules made there under with the
motto "Safety First"

ADOSHE-2022-23 ADE22101-Module 2 154
 PESO

Explosives Act, Inflammable
Petroleum Act, 1934 Substances Act,
1884
1952

Explosives Rules, 2008
Petroleum Rules,
2002 Static & Mobile Pressure
Vessel (Unfired) Rules,1981
Calcium Carbide
Rules, 1987 Gas Cylinder Rules, 2004
No.GSR 625(E)

ADOSHE-2022-23 ADE22101-Module 2 155
108. Earthing and bonding. –
(1) All electrical systems and equipments and all
structures, plants and other non-current-carrying
metallic parts of major electric apparatus or any major
metallic object in any place where petroleum is
refined, blended, stored, loaded or unloaded shall be
efficiently earthed; the resistance value of and
earthing system to the general mass of the earth, shall
not be more than-
(a) 4 Ω in the case of electrical systems & equipment or a
value that ensures the operation of the protective
device in the electrical circuit, whichever is lower, and
(b) 10 ohms in the case of all non-current carrying
metallic parts of major electric apparatus or any major
metallic object.

ADOSHE-2022-23 ADE22101-Module 2 156
108. Earthing and bonding. –
(2) All joints in pipelines, valves, plants,
storage tanks and associated facilities and
equipments for petroleum shall be made
electrically continuous by bonding or
otherwise; the resistance value between each
joint shall not exceed 1ohm.
(3) A piping which is not in electrical contact
with the associated tank or vessel shall be
efficiently connected to such tank or vessel
by a flexible conductor and earthed.

ADOSHE-2022-23 ADE22101-Module 2 157
109. Cathodic protection. –
(1) Cathodic protection system where
employed shall be designed and installed in
accordance with the current recognized
practice and so maintained as -
(a) not to affect adversely metallic bodies in the
zone of protection; and
(b) to eliminate the danger of sparking in a
hazardous area.

ADOSHE-2022-23 ADE22101-Module 2 158
109. Cathodic protection. –
(2) The metallic structures, pipelines, valves,
plants and associated equipment under
cathodic protection shall not be broken for
repair or maintenance unless a heavy gauge
conducting cable is clamped to each side of
the intended break for establishing between
them an electrical bond and the cable shall
remain clamped until repair or maintenance
work is completed and the break rejoined.

ADOSHE-2022-23 ADE22101-Module 2 159
110. Protection against stray current. –
(1) Where high values of stray currents are likely to
exist, both the rails of spur lines shall be
insulated from a railway siding which is used for
the loading or unloading of tank wagons.
(2) On electrified railway systems, live-contact rails
and overhead electric lines shall be terminated
outside the area where tank wagons are loaded
or unloaded, such rails or overhead lines shall
not be allowed with in a refinery or an
installation.
(3) No joint in a pipeline or associated equipments
shall be broken save as provided in sub-rule (2)
of rule 109.

ADOSHE-2022-23 ADE22101-Module 2 160
111. Portable electric apparatus.-
(1) No person shall install or use in a
hazardous area any portable electric lamp or
apparatus other than a portable lamp or
apparatus of a type approved by the Chief
Controller after such examination and test
and for such application as he may specify.
(2)

ADOSHE-2022-23 ADE22101-Module 2 161
111. Portable electric apparatus.-
(2) No mains operated portable lamp shall be
operated at … exceeding 25 volts above the
earth : …. Chief Controller may, at his
discretion, allow higher operating voltage not
exceeding 55 volts above earth.
(3) All portable lamps or apparatus other than a
self-contained lamp or apparatus shall be
connected to the mains in such a manner
and used under such conditions as the Chief
Controller may specify.

ADOSHE-2022-23 ADE22101-Module 2 162
 OISD

ADOSHE-2022-23 ADE22101-Module 2 163