1. ��Security & Fire Safety�Management of �High rise �Complexes :��BY�S.K. DHERI�
2. INCIDENTS 2001 – Attack on J&K Assembly, 35 Killed
2001 – Attack on Parliament of India,
2002 – Attack on Akshardham, Gujarat, 35 Killed
2003 – Car blast in Mumbai, 60 Killed
2005 – Blast in Sarojini Nagar Market, New Delhi, 65 Killed
2006 – Blast in Varanasi, 20 Killed
2006 – Blast in Mumbai, 180 Killed
2007 – Blast in Hyderabad, 45 Killed
2007 – Blast in Samjhauta Express
2008 – Blast in Jaipur, 65 Killed
2008 – Blast in Bangalore & in Ahmedabad, killed more than 50
2009 - Attack in Mumbai,186 killed
6. SECURITY MEASURES
Boom barrier
Tripod Turnstile
VMS
CCTV Systems
Access Cards
Dog Squad (Sniffer)
Bomb Blanket
Bomb Disposal Squad
7. ACCIDENT AN UNPLEASANT EVENT THAT HAPPENDS UNEXPECTEDLY AND CAUSES DAMAGE.
A FIRE ACCIDENT IS NECESSARIRLY AN UNPLEASANT EVENT THAT HAPPENS OR CAUSED THEREBY CAUSING LOSS OF LIFE OR DAMAGE TO PROPERTY OR BOTH.
8. �FIRE ACCIDENT – THE COST LOSS OF LIFE
DAMAGE TO PROPERTY
LOSS OF BUSINESS
LOSS OF GOODWILL
ENVIRONMENT POLLUTION
9. F I R E About 22,187 calls per year
On an average 447 deaths per
year
Huge property losses
About 69% fires are caused by electricity
ALL THIS CAN BE REDUCED
10. NUMBER OF FIRE INCIDENTS REPORTED YEARWISE
11. MAJOR CAUSES OF FIRES�(AVERAGE IN PAST TEN YEARS) ELECTRICAL 65 ? 5 %
DROP LIGHT 18 ? 3 %
NAKED FLAMES 03 ? 1.5 %
FIRE WORKS 1.5 ? 0.5 %
OTHERS 12.5 %
12. LOSSES DUE TO FIRE LOSS OF PROPERTY
Direct 40% (Damage due to fire)
Indirect 60% (Damage due to heat,
smoke, water & breakage
LOSS OF LIFE
Due to inhalation of toxic gases
Burning of body tissues
Nervous shock
13. FIRE FIGHTING AND FIRE SAFETY THE OBJECTIVE
LIFE SAFETY
PROPERTY PROTECTION
14. LIFE SAFETY Designing structures to withstand fire conditions.
Raising Alarm
Smoke Management
Adequate means of escape
Protection of escape routes.
15. DESIGNING OF STRUCTUTRES Fire resistance rating
Selection of materials
Horizontal
compartmentation
Vertical compartmentation
Planning of services
16. RAISING ALARM
EARLY DETECTION OF FIRE
Automatic
Manual
Alarming Devices
17. HIGH RISE BUILDING Building above 15m Height ( N.B.C.)
Building above 22m Height (T.A.C.)
Building above 24m Height ( B.M.A.)
A High-rise Building is one in which Emergency Evacuation is not practical and in which fires must be fought internally because of height.
18. PROBLEMS IN HIGHRISE BUILDINGS 3-D spreading of fire
Violation of fire safety norms
Delayed access to seat of fire
Total Evacuation
Limitation of the fire fighting equipment
Limitations posed by the fire fighters
People’s behavior
19. FIRE FIGHTING PROBLEMS DIFFICULT ACCESS
NO CIRCULATION SPACE
FALLING DEBRIS
POOR VISIBILITY
BLOCKED PASSAGES
LOCATION OF SEAT OF FIRE
3-D FIRE SPREADING
20. FIRE HAZARD Nature of materials
Rate of burning
Total fire load
Toxicity of materials
21. HAZARDS DUE TO FAULTY DESIGN Large compartments
Unsealed/Improperly sealed vertical shafts:
- Electrical rising mains
- Sanitary shafts
- Refuge chutes
Open staircases
Communicable false ceiling
Inadequate Drainage facilities
Improper/failure of ventilation system
22. SPREAD OF FIRE Compartment to compartment
Floor to floor
Unsealed service shafts
Ceiling voids
A.C. Ducts
Failure of door/windows
23. AREAS OF SPECIAL RISKS DUBBL - 1993 Car parking, Air handling plant rooms, Boiler rooms, Communication exchange rooms, Switchgear rooms, Transformer rooms, Standby generator plant, Lift shaft & Motor room, Escalator Machinery spaces, Refrigeration & Temperature control rooms, Incineration plants, Space between false ceiling and roof.
24. FIRE RISK MANAGEMENT Unfortunately in Today’s context Fire Risk Management is an after thought and hence the success is partial.
To have nearly complete success the process of Fire Risk Management must begin right from the conceptual
stage.
25. SETTING OBJECTIVES Reduce Fire incidents through
effective Fire Prevention.
Provide means for limiting
the size of fire.
Formulate operating procedures.
Use Insurance to safeguard against
large losses caused by natural
calamities.
26. FIRE PROTECTION OBJECTIVE
REDUCING POSSIBLE LOSSES DUE TO FIRE
PASSIVE PROTECTION
ACTIVE PROTECTION
PASSIVE PROTECTION
SELECTION OF MATERIAL
LIMITING THE FIRE LOAD
BREAKING THE CONTINUITY OF FUEL
FIRE RESISTANCE RATING
PRESSURE VENTING
27. CONSTRUCTION REQUIREMENTS STABILITY
Ability of building components maintaining their load bearing capacity for specified duration without fail during the conditions.
INTEGRITY
Ability of building elements to withstand fire conditions without cracking through which heat and smoke can pass through.
INSULATION
Ability of a building element to prevent transfer of heat from one side to another.
28. FIRE PROOF DOOR Properties:-
Stability, Integrity
Insulation
Types of doors:-
Sliding, Hinged, Rolling shutters
Construction:-
Steel, Armoured, Composite, Proprietary.
29. LIFE SAFETY DESIGNING STRUCTURES TO
WITHSTAND FIRE CONDITIONS
RAISING ALARM
SMOKE MANAGEMENT
ADEQUATE MEANS OF ESCAPE
PROTECTION OF ESCAPE
ROUTES
30. PROTECTION OF ESCAPE ROUTES COMPARTMENTATION
FIRE CHECK DOORS
VENTING/ PRESSURIZATION
NO COMBUSTIBLE MATERIALS
WATER CURTAIN
31. MEANS OF ESCAPE HORIZONTAL ESCAPE
TRAVEL WITHIN THE COMPARTMENT
PROTECTED HORIZONTAL ESCAPE ROUTES
TRAVEL DISTANCE TO VERTICAL ESCAPE
REFUGE AREA
VERTICAL ESCAPE
CONTINUITY
CAPACITY
ILLUMINATION
PROTECTION
32. SMOKE MANAGEMENT SELECTION OF MATERIALS
SMOKE VENTING
SMOKE BARRIERS
SMOKE EXTRACTION SYSTEM
POSITIVE PRESSURE VENTING
33. AUTOMATIC SPRINKLER SYSTEM DETECTION OF FIRE
SUPPRESSION OF FIRE
RAISE ALARM
34. AUTOMATIC SPRINKLER SYSTEM THE UTILITY CHANCES OF DIEING IN FIRE ARE CUT BY 1/3 TO 1/2.
PROPERTY LOSS IN FIRE IS CUT BY 1/2.
35. ACCIDENT PREVENTION Safety Audits
Routine Safety Inspection
Safe Working Practices
Performance Assessment
Interaction
Education & Training
Following Safety Standards
36. CONCLUSION Judicious compliance of fire safety norms
Good House Keeping
Maintenance of the Systems
Contingency plan
Periodical drills
Systematic training
Safety audit by third party
Conduct of mock exercises
37. �Sincere Thanks� For Your Kind Attention
