Feasibility Study of Rotorcraft Fire Fighting for High-Rise Buildings
Publication: Journal of Aerospace Engineering
Volume 23, Issue 3
Abstract
Fire risk in high-rise buildings is of special concern to the fire community, since it is crucial but still technically extremely challenging to significantly improve the current fire fighting capabilities when a calamity happens above the “seven story limit.” In fact, at the moment, there is a lack of effective means for fire fighting in this rare but potentially deadly and costly accidents. To address this problem, in this work we provide a preliminary exploration of a new concept for fire suppression: the use of rotorcraft vehicles for aerial fire fighting in high-rise buildings. If available, such system could effectively support fire fighting efforts conducted with conventional means; moreover, it could provide for one of the very few alternatives to classic systems in certain critical cases such as postearthquake fires. At first, we analyze the operative context with the help of a few reference realistic scenarios which allow for the estimation of some key physical parameters. Next, we evaluate two alternative fire extinguishing technologies, and we identify in the water impulse cannon the solution which seems to be the most effective and compatible with the use on-board a rotorcraft for the scopes considered in this work. The analysis leads us to the identification of a target vehicle as a possible candidate platform for the development of a fire fighting helicopter. Finally, we propose a preliminary design of the fire fighting kit, and we evaluate the handling qualities of the vehicle during operations with reference to the ADS-33 normative.
Get full access to this article
View all available purchase options and get full access to this article.
Acknowledgments
Erminio Zanenga gratefully acknowledges the Rotary Club Milano Nord, the Italian section of the International Fellowship of Flying Rotarians, and the IARD Foundation for supporting his work through the Malinverno fellowship.
References
Brooks, J., Berezovsky, J., and O’Dwyer, M. (2002). “Aerosol fire suppression for high-rise structural applications via aircraft distribution using MetalStorm technologies.” National Institute of Standards, NIST SP 984, Proc., HOTWC-2002, 12th Halon Options Technical Working Conf., Albuquerque, N.M.
Cooper, G. E., and Harper, R. P. (1969). “The use of pilot ratings in the evaluation of aircraft handling qualities.” NASA TM D-5133, Washington, D.C.
Federal Aviation Administration, DOT. (1999). Advisory circular 29-2C, certification of transport category rotorcraft, Washington, D.C.
Hall, J. R. (2005). High-rise building fires, National Fire Protection Association, Boston.
IFEX Gmbh. (2007). “Practical report of the testing of the IFEX 3000 impulse extinguishing technology.” Sittensen, Germany, ⟨http://www.ifex3000.de⟩ (Oct. 1, 2007).
Jagger, S., and O’Sullivan, S. (2004). Human vulnerability to thermal radiation offshore, Health and Safety Laboratory, Harpur Hill, Buxton, Derbyshire.
Karlsson, B., and Quintiere, J. G. (1999). Enclosure fire dynamics, CRC, Boca Raton, Fla.
National Fire Protection Association (NFPA). (2002). Special data information packages on high-rise fires, McGraw-Hill, New York.
National Fire Protection Association (NFPA). (2006). NFPA 101 life safety code, Quincy, Mass.
Prouty, R. W. (1990). Helicopter performance, stability, and control, R.E. Krieger Publishing Co., Malabar, India.
Pyrogen Pty. Ltd. (2000). Industrial fixed aerosol fire suppression system—Design, operation and maintenance manual, Mortdale, NSW, Australia.
U.S. Army AVSCOM. (1989). Aeronautical design standard (ADS) 33C—Handling qualities for military helicopters.
Wiebelt, J. A., and Ruo, S. Y. (1963). “Radiant-interchange configuration factors for finite right circular cylinder to rectangular plane.” Int. J. Heat Mass Transfer, 6(2), 143–146.
Wilson, R. (1962). T-I-M-E!: The yardstick of fire control, NFPA Firemen, Washington, D.C.
Zanenga, E. S. (2007). “Study of feasibility on the use of rotorcraft vehicles for fire extinction in high-rise buildings.” MS thesis, Politecnico di Milano, Milano, Italy.
Information & Authors
Information
Published In
Journal of Aerospace Engineering
Volume 23 • Issue 3 • July 2010
Pages: 166 - 175
Copyright
© 2010 ASCE.
History
Received: Dec 15, 2008
Accepted: Jun 10, 2009
Published online: Jun 13, 2009
Published in print: Jul 2010
Authors
Metrics & Citations
Metrics
Citations
Download citation
If you have the appropriate software installed, you can download article citation data to the citation manager of your choice. Simply select your manager software from the list below and click Download.