The document discusses electrical accidents in India, their causes, and measures to prevent them. It provides statistics showing that most accidents occur at the distribution level and are caused by accidental contact with live wires or equipment. Common issues contributing to accidents include lack of maintenance, unprotected equipment, and unauthorized construction near power lines. The text recommends safety measures like proper insulation, grounding, use of protective devices, maintaining clearance from lines, and increasing public education through sensitization workshops.
3. DOMINO EFFECT :
Electrical Accident Analysis – Issues & Challenges
EACH STANDING DOMINO REPRESENTS A SMALL AMOUNT
OF POTENTIAL ENERGY, THE MORE YOU LINE UP, THE
MORE POTENTIAL ENERGY YOU HAVE ACCUMULATED.
DOMINOES LINE UP ENOUGH AND, WITH A SIMPLE FLICK,
IT CAN START A CHAIN REACTION OF SURPRISING POWER.
WEIJERS DOMINO PRODUCTIONS PROVED IT.
WHEN ONE THING, THE RIGHT THING, IS SET IN MOTION, IT
CAN TOPPLE MANY BIGGER THINGS ALSO, THAT IS
ACTUALLY 50% LARGE
5. Content
Statistics of Electrical Accidents & its analysis
Inquiry of Electrical Accidents
Issues & Challenges in our country
Prevention of Electrical Accidents
Sensitization
Electrical Accident Analysis – Issues & Challenges
6. Statistics of Electrical Accidents
• CEA “Furnishing of Statistics, Returns and Information
Regulations, 2007” were framed u/s 177 of EA, 2003.
• These regulations specify the Formats, Frequency &
Target Dates for furnishing of the Statistics, Returns
and Information by:
• Licensees,
• Generating Companies,
• Person(s) generating electricity for own use &
• Other Entities
Electrical Accident Analysis – Issues & Challenges
7. Statistics of Electrical Accidents
• Statistics, Returns and Information related to the
“Electrical Accidents” are furnished in:
Format 19 – Statistics on
electrical accidents
Format 20 – Reasons for
electrical accidents
Electrical Accident Analysis – Issues & Challenges
8. Statistics of Electrical Accidents
Human & Animal [Fatal/Non-Fatal]
Electrical Accident Analysis – Issues & Challenges
12. Percentage distribution of electrical accidents
of Generation, Transmission & Distribution
| Electrical Accident Analysis – Issues & Challenges
13. Causes of electrical accidents occurred
during 2017-18
Electrical Accident Analysis – Issues & Challenges
14. Inferences
Electrical Accident Analysis – Issues & Challenges
• Most of the accidents occurs at distribution
level.
• Maximum number of accidents occurred due
to accidental contact with live electric wire or
equipment and snapping of conductor,
inadequate / lack of maintenance.
15. Electric safety, Why is it needed?
• On an average 16 persons died out of electrical accidents every
day in 2017-18 across the country.
• According to National Crime Records Bureau data on
Accidents for the year 2015, 13% cases of accidental fire
were due to Short circuit.
• According to National Crime Records Bureau data on
Accidents for the year 2015, 3% of total un-natural death is
due to Electrocution.
• Huge amount of money is being spent for compensation
and maintenance due to electrical accidents.
Electrical Accident Analysis – Issues & Challenges
16. Danger for human life- electrocution
10
0,1 0,2 0,5 1 2 5 10 20 50 100 200 500 1000 2000 5000 10000
20
50
100
200
500
1000
2000
5000
10000
ms
Effect of AC current on human body as per IS 8437/IEC 60479-1
Current flowing through the body
A B C 1 C 2 C 3
mA
1 2 3 4
30mA
Duration
of
current
flow
Risk of Ventricular fibrillation between
•C1 & C2 - App 5%
•C2 & C 3- Less than 50%
•Beyond C3- More than 50%
Unperceived
Perceived
Reversible effects
Possible irreversible effects
1
2
3
4
17. Effects of AC current across human body
Risks with electriity
Heart stopping
Severe injuries
heart fibrillation
Tissue burnings
breath paralysis
Muscle and lung contraction
no physiological damage
Discomfort
no actual danger
Perception threshold
no physical reaction
500 mA
80 mA
50 mA
30 mA
10 mA
0.5 mA
18. Intimation of Accidents :- Any electrical accidents related
to utilities shall be reported to the concerned Electrical
Inspector within 48 hours.
CEIG to inquire and report as to the cause of any accident
under its jurisdiction
Every Electrical Inspector or other person holding an
inquiry have all the powers of a civil court under the Code
of Civil Procedure
The prepared report may be given to the concerned
organizations for further actions and to the concerned law
enforcement agency.
Inquiry of Electrical Accidents
19. What are the Issues/challenges in our
country??
Electrical Accident Analysis – Issues & Challenges
• Inadequate and substandard quality use of Personal
Protective Equipments (PPEs)
• Electrocution in houses are frequent due to lack of proper
safety devices like Residual Current Device,
wiring/switches having poor IR
• Substandard quality of wire, no heed towards hazards and
taking it casually.
• Short Circuiting in building due to lack of maintenance
schedule
• Lack of proper earthing system
20. What are the issues/challenges in our
country??
Electrical Accident Analysis – Issues & Challenges
• Illegal construction of buildings in proximity to existing
lines
• Open DBs for service lines and lack of maintenance
• Ungaurded distribution transformers in crowded area.
• Unauthorised digging where underground cables are
buried
• Electrocution to animals and people due to non-
compliance of safe clearance and maintenance schedules
• Lack of maintenance of electric supply lines.
21. What are the issues/challenges in our
country??
Electrical Accident Analysis – Issues & Challenges
22. What are the issues/challenges in our
country??
Electrical Accident Analysis – Issues & Challenges
Transformer placed at easily accessible location
23. Prevention of Electrical Accidents
Minimum safety working clearances.
Electrical Accident Analysis – Issues & Challenges
Schedule-VII
Highest System Voltage
(kV)
Safety Working
Clearance (Metres)
12 2.6
36 2.8
72.5 3.1
145 3.7
245 4.3
420 6.4
800 10.3
[Sub-regulation (2)(iii) of regulation (44)]
24. Prevention of Electrical Accidents
Electrical Accident Analysis – Issues & Challenges
Safe Installation:
• IS/NEC to be followed
• Material/apparatus shall conform to IS/IEC International
Electro-technical Commission (where relevant IS is not
available)
• Affixing of Danger notice plate in Hindi or English and the
local language of the District, as per IS -2551 on every
motor, generator, transformer and equipment of voltage
exceeding 250 V & all supports of O/H lines of voltage
exceeding 650 V
25. Fencing to avoid accidental contact
Electrical Accident Analysis – Issues & Challenges
Regulation 49 (1) (ii) says:
Outdoor sub-stations except pole type sub-stations and outdoor
switching stations shall, unless the apparatus is completely
enclosed in a metal covering connected with earth, be
efficiently protected by fencing not less than 1.8 metres in
height or other means so as to prevent access to the electric
supply lines and apparatus therein by an undesignated person
and the fencing of such area shall be earthed efficiently.
26. Prevention of Electrical Accidents
Electrical Accident Analysis – Issues & Challenges
Safe Installation:
• Use of emergency tripping device for transformer/motors
• Neutral conductor shall be earthed by not less than two
separate and distinct connections with a minimum of two
different earth electrodes
• Earth electrode shall be tested for Earth Resistance on
dry day during the dry season at certain interval and
record of the same to be kept.
27. Prevention of Electrical Accidents
Electrical Accident Analysis – Issues & Challenges
Safe Installation:
• Frame of every generator, motor, transformers and apparatus,
of voltage exceeding 250 V shall be earthed by the owner by
two separate and distinct connections.
• All non-current carrying metal parts of Switchgear & Control
Panel shall be earthed and insulating mat conforming to IS-
15652: 2006, shall be provided in front of the panels.
• Providing adequate earthing for any metallic structure (in proximity
to electrical supply lines) in which induced voltage develops due to
EMI
• Live parts of electric equipment must be guarded against
accidental contact
28. Prevention of Electrical Accidents
Electrical Accident Analysis – Issues & Challenges
Safe Installation:
• Use of Residual Current Device
• Use of AB cables or covered conductors or
underground cables in urban or crowded
areas, forest areas.
• Maintaining safe electrical clearance for
electric supply lines
29. Prevention of Electrical Accidents
Electrical Accident Analysis – Issues & Challenges
Safe Installation:
• Insulation Resistance: IR value between each live wire
and earth:
IR Value Voltage for 1 min.
At least 1 Mega Ohm 500 V DC
(for installation & equipment upto 650 V)
At least 5 Mega Ohm 2.5 kV DC
(650 V<for installation & equipment<33 kV)
OR as per IS
30. STEP & TOUCH POTENTIAL
| Presentation title and date
31. Regular sensitization of utilities regarding electrical
safety are carried out through workshops and
seminars.
During the last two years, 12 numbers of sensitization
workshops were carried in collaboration with Public
and Private organizations.
Regional workshops on Electrical Safety are being
planned in collaboration with Public & Private entities
throughout the country for year 2019-20.
Electrical Accident Analysis – Issues & Challenges
Sensitization
32. Sensitization
Formation of a Sub-Committee from among the
nominated expert member from State
Electrical Inspectorates for delivering
lectures and spreading this message of
electrical safety through the awareness
program in the state.
Sensitization at district level, Panchayat level,
community level.
Thrust on lower strata sensitization .
Electrical Accident Analysis – Issues & Challenges
34. Few Examples of Sensitization
in your organisation
• Safety awareness campaign once in a month in
my Organisation.
• Contribution to the society, maybe nearby
colony/school/college/village & making them
aware of safety aspects – Corporate Social
Responsibility(CSR)
• Informing to Local Electrical Inspectorate about
your sensitization actions that in-turn inspires the
local authority.
VISAKHAPATNAM NOVEMBER 2019
35. Need to be more SACHET (सचेत)
Stick to Safety Standards
Adequate use of PPEs
Co-ordination at workplace
Hazards identification
Emergency action plan
Training to employees
Electrical Accident Analysis – Issues & Challenges