1 supporting the following conferences – fire conference 2004 - total fire safety concept, hong...
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Supporting the following conferences– Fire Conference 2004 - Total fire safety concept, Hong
Kong December 6-7, 2004, organized by Professor W.K. Chow, Director, Research Centre for Fire Engineering, The Hong Kong Polytechnic University, President, Society of Fire Protection Engineers, Hong Kong Chapter
– 2005 Asia-Pacific Conference on Risk Management and Safety, Hong Kong, 1-2 December 2005, organized by: The Hong Kong Association of Risk Management & Safety
– 7th Asia-Oceania Symposium Fire Science & Technology, 20-22 September 2007, Hong Kong
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Offered in collaboration with
Research Centre for Fire Engineering, Areas of Strength: Fire Safety Engineering
University of Science and Technology of China
China Public Security
Over 160 attended
1½ day Conference
½ day Open Forum
1 day Education Symposium on Fire Engineering
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2005 Asia-Pacific Conference on Risk Management and Safety A compliment was sent to
the organizer for inclusion in the proceedings.
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International Symposium, 7th AOSFST
We just finished successfully!
We thank you for your support!
Some encouraging information:
450 attendees, where 15 -HKFSD & 31-BDHK.
Participants over the world such as Hong Kong, China, Taiwan, Japan, Korea, Singapore, India, France, US, Canada, UK, Russian, Australia, Netherland.
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12. Engineering Approach : A Brief Introduction Construction industry in the Hong Kong Special
Administrative Region (HKSAR) is developing rapidly.
There are new design features such as atrium buildings which were built and found in large scale development projects including shopping centres.
Green/Sustainable Buildings with glass façade, super tall buildings are examples.
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Many highrise buildings packed together
EastWeek, 4 August 2004, pp. 76-77
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Fire safety features must be designed to the satisfaction of the local authorities as it is a key area to be considered seriously.
This topic has drawn public attention as a consequence to serious accidental fires occurred recently.
People started to aware of the hidden problem on fire safety and ask the question:
Whether they are sufficiently protected while staying inside a building ?
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The Big Garley Building Fire 1996
Accidental fire
Bus Fire: Burnt completely within 10 minutes
Solar heat cannot enter.
But in an accidental fire, heat generated by the fire would be trapped inside and time to flashover would be shortened.
Very big fire would be resulted in burning almost all combustibles.
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Arson fire – MTR train vehicleEastWeek, 4 August 2004
Arson fire : Quite high frequency of occurrence?
Bank Arson 1994
Karaoke 1998
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FSI CodesFRC Codes
MoE Codes MoA Codes
may not be sufficient for providing fire safety in some buildings with special designs.
The prescriptive codes, basically on
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How can those codes apply to ultra highrise building?
Might be OK for these !
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From Next Magazine, Taiwan, 10 July, 2003
Ultra Highrise Buildings / Super Tall Buildings
What to do?
508 m Taipei, Taiwan
452 m 442 m 421 m 415 m 391 mKL,
MalaysiaChicago,
USAShanghai,
ChinaHKSAR
Canton, China
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FSI design following FSI
code
Submissionto FSD
Proceed to installation
Evaluation by fire consultant
Considered by FSC, BD
New project
Approved ?
PBC design following MoE,
MoA, FRC codes
Submissionto BD
Approved ?FEA ?
Design rejected Design rejected
Proceed to construction
N NY Y
NN YY Opportunities for revision ?
N Y
Opportunities for revision ?
Y
N
FEA
N
Opportunities for revision ?
Approved ?
Designrejected
Design revisedDesign revised
Figure 1: Process for approving fire safety designs
There is no engineering performance-based fire codes (EPBFC) yet.
The authorities (i.e. BD) accepted that “engineering approach” for passive fire safety design since 1998.
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An Example: A shopping mall
Shan
Tung
Street
Entry
Argyle
Street
Entry
Discussed in more details later in a Cross-fertilizing meeting of SFPE Chapters in Asia-Oceanic Region.
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Long-throw sprinkler
– No smoke reservoir
– IR-detector
– Water coverage
Atrium hot smoke test in site
– 11 m smoke layer interface height
– 2 MW design fire
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137,000 m3 in volume
Exceeding 60 m Height
Fire safety provisions to comply with FSD/BD’s requirements
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Long throw sprinklers
Infra red flame detectors
Smoke curtain
Fire shutters
Smoke extraction system/Auto open make up air windows
Aspirating smoke detection system (VESDA)
Fully addressable digital automatic fire alarm system
Fire rated structural elements
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Open Type Sprinkler
Long Throw Sprinkler
Sprinkler System
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Long Throw Sprinkler Design Long throw sprinklers distributed in 24 zones
Arranged in parallel, 30o or 45o for each pair of long throw sprinklers
Mounted at 3 m height
Actuated by infra red flame detectors
Long Throw Sprinkler Head
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Long Throw Sprinklers
Infra Red Flame Detector
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