Transcript of Reducing Community Risk through a Residential Smoke Alarm ...
Reducing Community Risk through a Residential Smoke Alarm Testing
ProgramReducing Community Risk through a Residential Smoke Alarm
Testing Program
Leading Community Risk Reduction
BY: Kenneth S. Chudy Battalion Chief Muskegon Fire Department
Muskegon, Michigan
An applied research project submitted to the National Fire
Academy
as part of the Executive Fire Officer Program
December 2004
Certification Statement
I hereby certify that this paper constitutes my own product, that
where the language of others
is set forth, quotation marks so indicate, and that appropriate
credit is given where I have used
the language, ideas, expressions, or writings of another.
Signed____________________________________________
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Abstract
The problem was that Muskegon Fire Department personnel have
responded to a
considerable number of fire related incidents where smoke alarms
did not alert residents. The
purpose of this descriptive research project was to assess and
implement a residential smoke
alarm testing program administered by Muskegon Fire Department
personnel that would
decrease the number of times smoke alarms fail to alert residents.
The research questions were:
1. What are the national recommendations for residential smoke
alarm use?
2. What residential smoke alarm programs do other fire departments
use to help reduce
community risk?
3. What strategies should be adopted by the Muskegon Fire
Department (MFD) towards a
residential smoke alarm-testing program?
The procedures involved an extensive search of related literature
as well as a search of
historical records. Data from the Muskegon Fire Department Sun Pro
computer software
containing response records for the National Fire Reporting System
(NFIRS) was tabulated for
comparison. Research into fire prevention programs was performed
and interviews with local
fire department leaders from communities neighboring City of
Muskegon were conducted.
The results revealed that residents within the community are not
being warned in a timely
manner by smoke alarms which may be due to improper installation,
lack of maintenance, or
removal of batteries. The research identified ways the MFD could
introduce a smoke alarm
program aimed at reducing community risks.
The recommendation, based on this study, was to inform the MFD
Deputy Director, Public
Safety Director, city administrators, and city politicians of the
options available to them, begin a
“Push the Button” campaign, and better serve the citizens of the
community.
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TABLE OF CONTENTS
Page Abstract ………………………………………………………………………………… 3 Introduction
……………………………………………………………………………. 5 Background and Significance
………………………………………………………….. 5 Literature Review
………………………………………………………………………. 9 Procedures
………………………………………………………………………………. 18 Limitations
……………………………………………………………………………… 20 Definition of Terms
…………………………………………………………………….. 21 Results
………………………………………………………………………………….. 21 Discussion
……………………………………………………………………………… 34 Recommendation
……………………………………………………………………….. 40 References
………………………………………………………………………………. 42 Appendix A Question
form……………………………………………………………… 46
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Introduction
The problem is that Muskegon Fire Department personnel have
responded to a considerable
number of fire related incidents where residential smoke alarms did
not alert residents.
The purpose of this descriptive research project is to assess and
implement a residential
smoke alarm testing program, administered by Muskegon Fire
Department personnel that would
decrease the number of times smoke alarms fail to alert residents.
In order to do so, three
questions shall be addressed, these questions being:
1. What are the national recommendations for residential smoke
alarm use?
2. What residential smoke alarm programs do other fire departments
use to help reduce
community risk?
3. What strategies should be adopted by the Muskegon Fire
Department (MFD) towards a
residential smoke alarm-testing program?
Background and Significance
The City of Muskegon is located on the southwestern side of
Michigan within Muskegon
County and is bordered by Lake Michigan to the west and Muskegon
Lake to the north.
In 1873, the Muskegon Fire Department was established and continues
to be the largest
career department along the eastern shore of Lake Michigan. The
current department consists of
39 suppression personnel split between three shifts, a fire
marshal, a fire inspector, an executive
secretary, and a Deputy Director of Fire and Inspection Services. A
Public Safety Director
oversees the operations of police, fire, and inspections.
There are various industries, businesses, and housing complexes
within the borders of the
city. Heavy industries include that of a coal fired power facility,
a paper manufacturing plant,
and a steel fabrication foundry. The central area of the city has
county and city governmental
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offices as well as several high-rise structures that house limited
income individuals and the
elderly and is referred to as downtown [italics added]. Other
target hazards include three
hospitals, three prisons, a shopping mall, an industrial park,
several schools, two college
campuses, up scale condominiums, numerous apartment complexes,
private adult care facilities,
and several marinas. The shoreline of Muskegon Lake and Lake
Michigan that are within the
city limits and associated water activities further add to the
responsibility of the fire department.
Demographics indicate that the approximately 40,000 residents that
live inside its 19.5
square miles consist of:
48% rental properties and 52% owner occupied homes. The racial
composition is 65%
white, 30% Afro-American, 3% Hispanic, 1% Asian, and 1% American
Indian. The
average household income is $31,241.00. Family structure consists
of 35% single parent
and 45% two parents. Those 65 years of age or older make up 35% of
the population
while 23 % are children under the age of 14. (Muskegon Fire
Department [MFD], 2002,
p.1)
During the 1950's and 1960's, the department employed the highest
number of personnel
in its history which consisted of 86 fire suppression personnel,
two inspection personnel, a
departmental secretary, and the chief. Classes on fire prevention
activities were given by fire
personnel and the department was regarded as a leader in reducing
fire risks to the community.
This leadership was recognized in April 1965 when the National Fire
Protection Association
(NFPA) awarded the MFD top honors in the State of Michigan and
second best in the nation for
cities its’ size for fire prevention and safety activities
presented by the department. The number
one ranking was determined by the Chamber of Commerce of the United
States and presented in
Washington D.C. at the 42nd annual National Inter-Chamber Fire
Safety Contest banquet. At that
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time the success of the MFD was “unprecedented, inasmuch as the
Muskegon program won the
top Class V award in 1958 and again in 1960, and has been an honor
award winner as a runnerup
every year since it was first entered in the program many years
back” (Woodruff, 1965, p.25).
The focus of the competition was to “recognize coordinating local
community efforts to achieve
a maximum for fire safety and prevention effort” (Woodruff, 1965,
p.25).
The national recession that began in the 1970’s affected the
budget, services of the
city, and ultimately the operation of the fire department. Like
other city departments, the MFD
was not able to fill empty staff positions created by retirements,
fire prevention programs were
reduced, and the remaining staff had to do more with less. In 1980,
a municipal income tax was
proposed that would generate up to 1.5 million dollars a year for
city services. However, citing
“distrust in city government” (Reindl, 1980, p.1) voters rejected
the proposal on September 31,
1980. Then city manager, William Gleason met the setback with quick
action and stated, "the
city is set to reduce its police force to 53 and its fire
department to 41” (Reindl, 1980, p.1). The
layoffs of personnel and the closing of two stations in December of
1980, was addressed by the
Muskegon Fire Fighters Union that “issued a ‘statement of concern’
because…they were
concerned about the safety of the citizens and their property and
said the city had a policy of
undermanning the department” (McCourt, 1976). It also caused a
change of fire fighting
methods and fire prevention activities by the MFD that still exist
to the present day.
Staffing continued to be reduced during the late 1980’s and early
1990’s until MFD had
only a total of 33 suppression personnel, one fire inspector, a
secretary, and the chief. Fire safety
programs were held only in conjunction with the designated national
fire protection program
period and any extra programs were eliminated. In April of 1993,
another municipal income tax
was proposed and narrowly passed by voters that allowed hiring of
additional police and fire
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personnel. With the additional tax revenue, staffing of the MFD
increased to 14 suppression
personnel per shift, a fire marshal, a fire inspector, an
administrative secretary, and the chief.
Fire prevention activities were again held throughout the year with
a result of increased public
contact.
Presently, with revenue sharing reduced from the State of Michigan,
the city has again
the begun the process of cutting services to its citizens as
previously happened in the 1970’s,
1980’s, and early 1990’s. Empty staff positions throughout all city
departments, created by
retirements or resignations of personnel are reviewed by the city
manager and other leaders as to
the necessity of refilling the position left vacant. Duties of
positions not refilled are distributed
to the remaining staff thus increasing the workload of the
individuals.
Staffing for the MFD has been reduced to 13 per shift, a fire
marshal, a fire inspector, and
a departmental secretary. The position of fire chief has been
eliminated and leadership now
comes from a deputy director in charge of the fire and inspection
services. That position is
overseen by a public safety director in charge of the police, fire,
and inspection departments of
the city. Reduced fire staffing has resulted in limited personnel
available for fire prevention
programs that were established before the budget cuts and still
held during the national fire
prevention time period.
This research is important for the City of Muskegon for three
reasons. First, it will
review the national standards that govern residential smoke alarm
use. Although there are other
alarm classifications including protected premises and supervised
station fire alarm systems, the
focus of the research is directed towards residential smoke alarms.
Second, it will evaluate what
other departments are doing to help reduce risks in the community.
Finally, it will recognize the
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strategies that should be adopted by the Muskegon Fire Department
(MFD) towards a smoke
alarm testing program.
This Applied Research Project (ARP) is relevant to the Leading
Community Risk
Reduction course taught at the National Fire Academy (NFA). The
recommendations may help
reduce community risks by decreasing the number of times smoke
alarms fail to operate and
warn citizens. It adheres to the course goal set in the
Introduction of the Leading Community
Risk Reduction Student Manual to “develop leaders in comprehensive
multihazard community
risk reduction” (National Fire Academy [NFA], 2003, p. sm. 0-15).
By providing a program that
would increase the effectiveness of smoke alarm operation within
the community, it will relate to
the United States Fire Administration (USFA) operational objective
“to promote within
communities a comprehensive, multi-hazard risk reduction plan led
by the fire service
organization” (NFA, 2002, p. II-2).
Literature Review
In order to decrease the number of times smoke alarms fail to alert
residents, three key
questions are addressed to help identify options that would assess
and implement a smoke alarm
testing program administered by Muskegon Fire Department personnel.
The first question
relates to national recommendations for residential smoke alarm
use. The second question
reviews what residential smoke alarm programs other fire
departments use to help reduce
community risk. Finally, strategies are explored that should be
adopted by the Muskegon Fire
Department (MFD) towards a residential smoke alarm-testing
program.
First, what are the national recommendations for residential smoke
alarm use?
The fire service, cities, and other businesses follow standards set
by the National Fire
Protection Association (NFPA) in day to day operations through a
blend of requirements that are
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used “world wide to deal with life safety issues on many fronts”
(Bokman, 2003, p.1).
Numerous corporations or agencies such as the Insurance Services
Office Inc. (ISO), National
Institute of Standards and Technology (NIST), United States
Consumer Product Safety
Commission (CPSC), and insurance companies like that of State Farm,
make safety
recommendations to businesses and homeowners based on NFPA
standards. States and cities
form and adopt codes for private builders, contractors, and
residents following NFPA standards
in an effort to build safer structures, increase personal safety,
and reduce fire related risks.
In 1993, the NFPA combined identical or similar standards of alarm
codes into NFPA 72,
National Fire Alarm Code. Those consolidated standards of guides
included NFPA 71, Standard
for the Installation, Maintenance, and Use in Signaling Systems for
Central Station Service,
NFPA 72, Standard for the Installation, Maintenance, and Use of
Protective Signaling Systems,
NFPA 72E, Standard for Automatic Fire Detectors, NFPA 72G, Guide
for the Installation,
Maintenance , and Use of Notification Appliances for Protective
Signaling Systems, NFPA 72H,
Guide for Testing Procedures for Local, Auxiliary, Remote Station,
and Proprietary Protective
Signaling Systems, and NFPA 74, Standard for the Installation,
Maintenance, and Use of
Household Fire Warning Equipment. Updates to the NFPA 72 standard
are done on a three year
cycle with the last recommended changes taking place in 2002.
The purpose of NFPA 72 was to “define the means of signal
initiation, transmission,
notification, and annunciation; the levels of performance; and the
reliability of the various types
of alarms” (National Fire Protection Association [NFPA], 1999, p.
72-13). NFPA 72 set the
standard for the fundamentals of fire alarm systems, initiating
devices, protected premises fire
alarm systems, notification appliances for fire alarm systems,
supervising station fire alarm
systems, public fire alarm reporting systems, fire warning
equipment for dwelling units,
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inspection, testing, and maintenance. Those buildings built before
the enactment of NFPA 72
were not affected by the requirements unless a “distinct hazard to
life or property” (NFPA, 1999,
p. 72-13) was determined by the local authorities having
jurisdiction. Although NFPA standards
are only recommendations “the failure to adopt and comply … could
expose municipalities to
significant potential liability clams and lawsuits (“Proposed NFPA
Standards”, 2001).
NFPA 72 includes language concerning the definition, placement, and
types of smoke
alarms for residences or commercial use. By definition a smoke
alarm is “a single or multiple
station alarm responsive to smoke” (NFPA, 1999, p. 72-19). When
properly installed, smoke
alarms provide reliable early warning smoke detection systems for
the protection of life and
property. The importance of this type of detection system was
discussed for the International
Association of Electrical Inspectors (IAEI) by Mark Campbell (2001)
who at the time was the
vice president of engineering for Global Fire and Safety, an
installation design and consulting
fire-alarm Company. He stated:
“Fire codes have been written with the blood of people’s lives!”
These ten simple words
hold a truism I hope becomes a part of our daily thought
processes….Smoke detectors are
designed and installed to provide reliable early warning smoke
detection systems for the
protection of life and property.
An organization that does not set mandatory national standards for
fire departments or
other businesses, but sets “a useful benchmark that helps fire
departments and other public
officials measure the effectiveness of their efforts and plan for
improvement” (“ISO’s PPC
program”, 1996) is the ISO. Homeowner policy rates are based a
numerical grading call the
Public Protection Classification (PPC) which is developed using the
Fire Suppression Rating
Schedule (FSRS). This “schedule measures the major elements of a
community’s fire-
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suppression system” (“Fire Suppression”, 1996) which consists of
three elements: fire alarm and
communication systems, water supply, and fire department
operations. Fire alarm systems
account for 10% of the overall grade, water supply makes up 40% of
the grading, and fire
department operations comprise 50% of the grading according. After
the data is collected, a
numerical grading is issued called the Public Protection
Classification (PPC) that incorporates
“nationally recognized standards developed by the National Fire
Protection Association” (“ISO’s
PPC program”, 1996). Insurance companies then are able to
“establish fair premiums for fire
insurance – generally offering lower premiums in communities with
better protection” (“Fire”,
1996).
Insurance companies also help foster the idea of reducing risks in
the community. The
mission of State Farm is similar to other insurance companies,
which is to “help people manage
the risks of everyday life, recover from the unexpected and realize
their dreams” (“Our mission”,
2002). “That’s why, for almost a century, U.S. property insurance
companies have funded key
initiatives aimed at fire prevention and fire mitigation” (“Fire”,
1996). In regards to fire safety,
this is accomplished through the publication of fire prevention
material suggesting alarm
selection, proper installation procedures, maintenance of smoke
alarms, and preparation in case
of a fire. Although community home fire rates are based on the PPC
of the ISO, discounts to
policy holders are also given if the homeowner follows the
suggestions made by the insurance
company towards fire prevention preparedness.
Since 1901, the mission of the NIST has been “to develop and
promote measurement,
standards, and technology to enhance productivity, facilitate
trade, and improve the quality of
life (“Technology administration”, 2004). NIST uses four
cooperative programs to fulfill its
mission. First, NIST laboratories provide measurements and
standards for industries in the
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Baldridge National Quality Program. Third, technical and business
assistance is provided to
small manufacturers by the Manufacturing Extension Program.
Finally, the NIST partners with
private sector developers of broad based technologies through the
Advance Technology
Program. These cooperative programs along with continuous testing
and rating upgrades of
safety equipment are aimed at providing lower risks to the
community.
The CPSC “is charged with protecting the public from unreasonable
risks of severe injury
or death from more than 15,000 types of consumer products” (“Test
all smoke alarms”, 2004).
It is estimated that consumer product incidents resulting in death,
injury, or property damage cost
those in the United States billions of dollars per year. In 2003,
fires alone “caused an estimated
loss of $12.3 billion” (Badger, 2004) as fire departments in the
United States responded to
1,584,500 fire related calls. “Many of them were small with little
or no property damage
reported” (Badger, 2004).
The smoke alarm recommendations of the CPSC are only part of a
process that help
reduce community risks caused by fire, electrical, chemical, or
mechanical failures from
products used throughout the United States.
Second, what smoke alarm programs do other fire departments use to
help reduce
community risk?
The fire service, whether on an international, national, or local
scale is perceived as being
the leader in reducing fire related loss. The effectiveness of a
department’s fire prevention
program is determined by the backing of their community or country.
In a 1999 report for Injury
Prevention magazine, an observation was made concerning support for
fire prevention programs
suggesting “that governments and legislators take seriously their
responsibility to protect the
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public from hazards of residential fires….The implementation of
effective smoke detector
legislation has the potential to make a substantial contribution to
reducing fire deaths” (Iscaip
Smoke Detector Legislation Collaborators, 1999).
International examples include that of the fire departments in
England, Australia, and
Canada. In 1997, London, England developed a smoke alarm give away
program in an effort to
help prevent residential fires and fire related injuries. The
objective was to “quantify the
effectiveness and cost-effectiveness of the door-to-door
distribution of free smoke alarms to
prevent residential fires and fire-related injuries” (“Project: ICH
smoke”, 2003). This program
was set in the most under privileged area of inner London that had
an estimated 23,500 homes
without alarms and had the greatest risk of fire and fire related
danger.
Due to the low number of residential smoke alarms, the Australian
New South Wales Fire
Brigades (NSWFB) initiated a program in 1994 known as the Smoke
Alarm and Battery
Replacement for the Elderly (SABRE) where residents invite fire
fighters into their home for
safety tips and installation of smoke alarms. Follow up maintenance
by the fire brigades help
make sure that the smoke alarms work.
The Canadian fire prevention programs are overseen by the Fire
Marshal’s Public Fire
Safety Council of Ontario. Citizens are reminded through public
safety messages and over the
Internet that smoke alarms are not only a good idea but are
required by law and must have the
Underwriters Laboratories of Canada (ULC) label affixed to the
alarm. The Windsor Fire and
Rescue Service (WFRS) located in Ontario, helps residents to comply
with Canadian law by
installing smoke alarms free of charge to homes if the owner cannot
afford one.
Smoke alarm programs in the United States are generally associated
with local fire
departments efforts to help their community and reduce fire related
loss. The Winter Park Fire
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Department of Florida announced the initiation a smoke alarm
program in 2004, because they
wanted those in the community “to be prepared in case of a fire in
your home. Seconds can mean
the difference between life and death” (“Smoke alarm program”,
2004). Their program provides
smoke alarms for any resident that does not currently own one.
Residents viewed the program as
“indicative of one of the things that is provided by the city of
Winter Park to ensure that we not
only live in a beautiful but also a safe place” (“Smoke alarm
program”, 2004).
After 24 fire related deaths between 1994 and 1999, the Louisville
Fire & Rescue
Department (LFRD) developed a plan and had legislation passed at
the city level targeting the
removal of batteries from smoke alarms by residents. Businesses
such as Lowe’s Home
Improvement Center became involved with the effort established by
the LFRD and assisted fire
personnel with the goal to install alarms and inform residents of
alarm programs. A
representative from Lowe’s stated, “We are pleased to have joined
efforts in meeting the
department's ultimate goal of ‘zero’ fire fatalities in the first
year of the new millennium and
hope to do so into the future” (Bowman, 2002). The program also
attempted to decrease the
amount of time between visits by the suppression force to replace
or install smoke alarms which
could be accomplished using a ten year non-removable lithium
battery.
Since 1993, the Lacey Fire District Three located in Lacey,
Washington and the Lacey
Sunsetters Kiwanis Club have teamed up for a door-to-door campaign
of checking for smoke
alarms. Each year, they identify a geographical area encompassing
300 to 350 residences and
notify the residents in the area when the survey will take place.
The teams consisting of
Kiwanians and fire personnel make personal visits for smoke alarm
checks. The alarms are
inspected, batteries are replaced if needed, or alarms are replaced
if they are over 10 years old.
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Literature on smoke alarm placement and cleaning is also
distributed. Data on the program is
compared to the previous years of the program to track their
success.
Locally, the MFD and neighboring fire departments have banded
together and established
a fire prevention night held once a year at a local mall in order
to showcase their equipment and
present fire protection programs. Chief Dave Glotzbach of the
Muskegon Township Fire
Department (MTFD) stated, “Although there are fire education
programs within the county and
they are doing a good job, it needs to be expanded to more than
once a year” (personal
communication, September 29, 2004). Each department also has an
open house within their
community usually during fire prevention month. These various
actives have raised fire
prevention awareness to the citizens, increased public relations
with the communities, and have
caused a reduction of fire related injuries over the past five
years.
Finally, what strategies should be adopted by the Muskegon Fire
Department (MFD)
towards a smoke alarm-testing program?
Basic fire fighter training includes the knowledge that “Effective
fire prevention and
public education programs are the best way to minimize the hazards
of fire in the community”
(International Fire Service Training Association [IFSTA], 1993, p.
519). However, individuals
entering the fire service generally only think of fire suppression
as the main activity. This
attitude was discussed by author Jim Crawford (2004a) when he
stated “Firefighters signed on to
fight fire. They don’t really have too much fun being the
cheerleading squad for prevention
activities”.
article for Fire Engineering by Mark Chubb (1999). He stated:
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Fire safety strategies, like fire ground strategies, are achieved
by deciding on and
implementing an appropriate suite of tactics. Understanding and
implementing the five
‘I’s’ of safety tactics will lead to strategic success in the three
‘E’s’: engineering,
education, and enforcement. The five ‘I’s’ are as follows:
• Develop and use information.
• Foster innovation
• Leverage resources through integration
• Promote commitment through involvement.
Following this advice, the MFD set a goal to “reduce fire incidents
attributed to the target
group by 10% annually each year for the next five years, then to
maintain this benchmark”
(MFD, 2002). An application was submitted to the Federal Emergency
Management Agency
(FEMA) grant program targeting the delivery of fire prevention
activities to children under 14
and senior over 65 years of age. The strategy was to reduce the
fire incidents through the use of
computerized programs that were accessible via the Internet,
combining with other area
departments in providing fire prevention activities, a smoke alarm
give away program, and using
fire education programs that targeted young children and the
elderly. Having proper funding
enabled MFD personnel to continue the strategy set in the grant
throughout the year, increase
public contact, personnel morale, and public support.
In summary, based on this review, fire services, communities, and
corporations have
adopted standards in order to reduce community risk. After NFPA 72
was constructed by
combining different NFPA standards, the fire service, business
corporations, and communities
were given a standard by which there could be an increase of public
safety within the
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community. Although some standards are challenged or disregarded,
there is still a
responsibility to comply. The smoke alarm requirements provided in
NFPA 72 have been
accepted for two reasons, the effectiveness shown in reducing fire
related risks and cost of an
alarm. A review into the various ways agencies, corporations, or
cities promote smoke alarm use
has also shown a relationship to fire related risks. Finally, it is
encouraging that the bordering
fire departments and the MFD have recognized that fire prevention
programs are important to the
community and should be expanded to a continuing basis and not just
during fire prevention
month.
Procedures
Procedures for this research focused on three areas. First,
standards that apply to
residential smoke alarms were examined. Second, programs that other
fire departments provide
towards a residential smoke alarm program were reviewed. Finally,
the strategies that the MFD
has adopted towards a residential smoke alarm program were
inspected as to how the MFD is
providing a safer community.
Research for this project was begun at the Learning Resource Center
(LRC) located at the
National Fire Academy in Emmitsburg, Maryland. Information was
gathered from publications
such as the NFPA standards, FEMA research, USFA reports, and U.S.
Consumer Product Safety
Commission reports. Other Executive Fire Officer (EFO) research
papers with similar subject
matter were reviewed and their references noted as to where
additional information could be
obtained. Various Internet web sites and search engines, such as
www.google.com, were used to
gather articles and reports relating to the authors’ subject
matter. Access to some website like
that of Firehouse.com., was accomplished using the MFD password and
may not be available to
those that do not have a membership to that website.
Local fire chiefs or leaders of departments that are neighbors to
the City of Muskegon
were interviewed using a questionnaire form (see Appendix A for
question form) developed by
the author and used as a reference to provide consistency. All were
responsive and cooperative
when interviewed. Replies to the questions helped establish insight
into neighboring
department’s fire prevention activities and community risks. The
interviewed fire chiefs or
leaders were: Michael Healy, Captain of the Norton Shores Fire
Department (NSFD), Rick Lifer,
Captain of the Fruitport Township Fire Department (FTFD), David
Glotzbach, Chief of the
Muskegon Township Fire Department (MTFD), David Alves, Acting Chief
and Lieutenant of the
Muskegon Heights Fire Department (MHFD), and Robert Phillips, Chief
of the White Lake Fire
Department (WLFD).
The NFIRS data on the MFD responses for the years 2001, 2002, 2003,
and part of 2004
was compiled using the MFD computers that have the Sun Pro software
for fire reports.
Customized data was defined after extracting the information using
an advanced query builder
and exporting it to the Microsoft Excell program. Custom output
fields were used in the
following manner: under the heading table, the word incident was
used, under the heading field,
detector operation was used, under the heading comparison, the
equal sign was used for three
areas. Those areas were that the detector did alert, the detector
did not alert, or unknown.
Generalized data was obtained in the following manner: under the
heading of reports, incidents
were used, then incident type count report, then date range, then
incident type response by
station, and then incident type. Under incident type the number one
was used to gather fire
related reports. Only those responses to the inside of residential
structures where a smoke alarm
would be present were used for the count. Other incidents such as
grass fires, car fires, or
rubbish fires were not used in the data.
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Review of the MFD FEMA application was done to acquire the
strategies of the
department concerning fire prevention. Ordinances that guide
construction within the city limits
were obtained from the fire marshals’ office and reviewed.
Information on past and present fire
prevention activities of the MFD and other area fire departments
were examined at the research
area of the Hackley Public Library located in Muskegon and the
limited library of the MFD.
Limitations
There were several limitations on records needed for this report.
Prior to 2001,
information on responses was recorded written forms and did not
include information on smoke
alarms. In 2001, a computer program from the Sun Pro System was
purchased and used to
organize fire department data, providing a more efficient reporting
system. However, failure to
establish data entry guidelines by the fire department leaders,
resistance to computer usage by
some personnel, and not completing the entire run report created
problems in data gathering
efforts for comparison purposes. In 2002, additional guidelines of
entering data were
implemented rendering a more accurate picture of conditions of a
home upon arrival by MFD
units.
The NFIRS program used by the MFD has data entry limitations on
functioning alarms.
The three choices of the MFD NFIRS program being used are: detector
did alert residents,
detector did not alert residents, and unknown. This differs from
the six listed by the USFA
which are; in room, operated; not in room, operated; in room, did
not operate; not in room, did
not operate, fire to small to activate, no alarms present. Having
all six titles in the MFD NFIRS
program and following the examples used by the USFA would have
provided a more accurate
picture of detector operation than the limited ones now being used.
If for instance, the resident
was not home at the time of a fire it would be listed as did not
alert by MFD standards instead of
21
not in room, operated. Another failure is the unknown wording used
in the MFD NFIRS data.
An alarm could have functioned but because it was not heard or
damaged in a fire, it is listed as
having an unknown operation. Not having the choices used by the
USFA may skew the data of
alarm operation.
Results
This author found that NFPA 72 which includes smoke alarm
requirements, is one NFPA
standard that was been readily accepted by the public and fire
service. Internationally,
nationally, or locally, it has been viewed as a step towards
decreasing fire related risks and
improving survivability. Inclusion of this particular standard can
be found in numerous reports,
summaries, codes, and articles like that from the CPSC, ISO, NIST,
and insurance corporations.
Literature with written suggestions encouraging compliance to the
smoke alarm requirements
distributed by these organizations indicates the importance to
those industries.
Research also indicated that acceptance of NFPA standards has not
always been easy. A
few standards have been challenged for various reasons while others
such as NFPA 1710 have
been disregarded by city leaders claiming they are too costly to
implement. An example of an
objection to standards and their authority came from the Texas
Municipal League (TML) in a
legislative update to its’ members regarding NFPA 1710, Standard
for the organization and
development of fire suppression operations, emergency medical
operations, and special
operations to the public by career fire departments. They
stated:
NFPA is not a governmental agency, nor is it empowered to impose
any standards or
regulations on any fire department in the State of Texas. It is an
association only, just as
22
the Texas Municipal League or Future Farmers of America is an
association…. these
proposed standards are, in many instances, impossible to achieve or
prohibitively
expensive, given all the other demands on municipal revenue (“What
city officials”,
2002).
The National League of Cities (NLC), whose purpose is “to
strengthen and promote cities
as centers of opportunity, leadership, and governance” (“Proposed
NFPA Standards”, 2001),
responded to a question concerning the liability of a city if NFPA
standards are not met by
stating, “failure to adopt and comply…could expose municipalities
to significant potential
liability clams and lawsuits…cities will face financial exposure in
labor contract negotiations and
arbitration judgments if they do not adopt the NFPA standards”
(“Proposed NFPA Standards”,
2001).
An instance involving a death of a rookie fire fighter, injury of
two others, and the
training officer being charged with negligent homicide at a live
fire drill in the State of New
York, added verification to what could happen if NFPA standards are
not followed. According to
the report:
The prosecutor cited NFPA Standard #1403 Standard on Live Fire
Training Evolutions
as the model that should have been followed when conducting the
drill. The training
officer’s defense was that he didn’t know about the standard and
that it hasn’t been
adopted in the state of New York as a law. He was convicted of a
lesser charge of
criminally negligent manslaughter and received a suspended sentence
and probation.
This marked the first time in the U.S. history that a fire fighter
was convicted in criminal
court with an NFPA standard that had not been adopted as law,
setting a precedent.
(Dunn, 2003).
23
“Cost and effectiveness of operation are key issues when promoting
the installation and
use of smoke alarms” (“Smoke alarms”, 2004) when encouraging
homeowners to follow smoke
alarms requirements set in NFPA 72. The effectiveness can be seen
in the statistics provided by
groups such as the United States Fire Administration (USFA), NFPA,
and U.S. Consumer
Product Safety Commission as to the reduction in fire related
deaths, injuries, and property
damage. According to statistics, since the introduction of
residential smoke alarms that began in
the 1970’s, fire deaths in the United States have been reduced by
50 percent. “Smoke detector
use in residential housing increased from 5% in 1970 to 67% in
1982” (“Interventions to
increase”, 2000) and is presently at 95%. Fire department
prevention programs, insurance
carriers, building code updates, and legislation have all played a
factor in the increased use of
smoke alarms. After reviewing a deadly house fire in Florida in
which six people were killed,
United States Fire Administrator R. David Paulson referred to the
importance of having
residential smoke alarms stating:
Data collected by USFA shows clearly there can be deadly
consequences when fires
occur at night in houses without functioning smoke alarm….Smoke
alarms are
inexpensive and easy to install, and easy to check and keep
operational. They are the
closest thing to having a firefighter on duty in your home 24 hours
a day. (“FEMA review
of deadly”, 2004).
A five-year operational objective established in 2000 by the United
States Fire
Administration (USFA) was to, “reduce the loss of life from fire by
15 percent through targeted
reductions of 25 percent for high-risk populations: children under
14 years and below, adults 65
years and above, and firefighters” (“H.R. 2692”, 2003).
Additionally, the USFA was to “develop
a comprehensive multi-hazard risk-reduction plan for 2,500
communities, led by or including the
24
local fire service” (NFA, 2003, p. sm 0-5). This was to be
accomplished through programs such
as the Assistance to Firefighters Grant Program which awards grants
to fire departments to
supplement their needs and the USFA’s National Fire Data Center
which gathers and analyzes
data from fire departments to identify problems for prevention
strategies. Following the posting
of the operational objectives, the USFA issued a report in December
2001 stating:
• Smoke alarms save lives and money.
• 38% of residences had an operable alarm during a fire, but these
fires accounted
for only 8% of total property loss.
• Only 6% of U.S. homes are not equipped with smoke alarms, yet 40%
of
residences with fire had no installed alarm.
• Alarms operate with more frequency in apartments than those in
one- and two-
family homes. The reason may be that professional property managers
are
generally responsible for maintaining the alarms, not the apartment
dwellers.
• Multiple-fatality fire are less likely to have working smoke
alarms. (“Smoke
alarm performance”, 2001).
The percentage of homes having smoke alarms cited by the USFA
report has shown an
increase from the International Association of Fire Chiefs and the
American Burn Association
1991 report which pointed out that 80 percent of American homes had
only one smoke alarm.
This report is also in sharp contrast to the 1970’s in which only
five percent of homes had smoke
alarms and the 1960’s when the alarms did not exist.
In a 2003 study by the NFPA, the statistics and recommendations on
smoke alarms
almost mirror that of the USFA 2001 report. The information
indicates that:
• 19 of every 20 homes (95%) in the U.S. have at least one smoke
alarm.
25
• More that half of home fire deaths result from fires in the 5% of
homes with no
smoke alarms.
• Homes with smoke alarms (whether or not that are operational)
typically have a
death rate that is 40-50% less that the rate for home without
alarms
• In one-quarter of the reported fires in homes equipped with smoke
alarms, the
devices did not work. Households with non-working smoke alarms
now
outnumber those with no smoke alarms.
• Why do smoke alarms fail? Most often because of missing, dead or
disconnected
batteries. (“Smoke alarms make”, 2004, p. 1).
The NFPA also encourages having a home escape plan and practicing
that plan with
emphasis placed on children or older adults who fail to be awakened
when a smoke alarm is
activated. To help those individuals it is suggested to assign
someone in the household to make
sure that those persons are warned and get out safely.
The CPSC considers the best protection and least expensive way to
prevent injury from a
fire is the installation and maintenance of smoke alarms. In 2002,
the CPSC reported that,
Fire is the second leading cause of unintentional death in the
home. Each year nearly
3,200 people die in residential fires, and there are more than
390,000 residential fires
serious enough to be reported to fire departments….However, a CPSC
survey found that’
smoke alarms in 20 percent of those households…were not working,
mostly because of
the battery was dead or missing. (“CPSC warns”, 2000).
Like other organizations, the CPSC recommends that detectors are
tested at least once a
month, battery replacement is done at least once a year, all alarms
have Underwriters Laboratory
Inc. (UL) approval, and alarms are completely replaced after 10
years. Research results showed
26
that the active participation of the CPSC in regards to safety and
reducing risks has resulted in a
decrease of 30 percent in the rate of deaths and injuries over the
last 30 years.
Since the passage of NFPA 72 in 1993, revisions have been made
every three years in an
effort to upgrade to the new advances in building construction and
technology. These changes
include the increasing the recommended number of smoke alarms in
the home from the
previously recommended one alarm installed per floor. Approved
changes to the standard
regarding smoke alarms now include an alarm in all sleeping rooms
of one and two family
dwellings, outside of each separate sleeping area, and on each
level of the dwelling unit,
including basements. The fire alarm system must also be able to be
heard in all areas of the
house and when one alarm activates, all alarms activate. Power
source must be from household
electrical current with a battery backup and alarms should be hard
wired with a battery backup
that is able to operate the alarm for 24 hours under normal
conditions. For those with hearing
impairments it is recommended that a strobe light is
activated.
The International Organization of Standardization is the world’s
largest developer of
technical standards that have important social and economic
effects. A current requirement
under development by this organization known as ISO 8201,
emphasizes the need for the same
audible emergency evacuation signal to be used for all smoke
alarms. This will enable those
who hear the alarm signal to recognize it as a smoke alarm no
matter where it is heard. This
organization also sets the standardization on how smoke alarms are
supposed to function, their
test methods, their performance, and manufacturer’s instruction
that is to be included with all
smoke alarms. Their requirements for fire detection and fire alarm
systems, “provides
manufacturers with a common set of functions - along with
requirements, test methods,
performance criteria and manufacturer's instructions – that are
provided on all smoke alarms”
27
(“New website for kids”, 2004). Having the same set of common
functions on all alarms has
enabled manufacturers the ability to reduce costs to
customers.
Insurance companies establish the premiums they charge to
homeowners based on the
Public Protection Classification (PPC) of the ISO and the
homeowner’s personal preparation.
“By offering substantial economic benefits to communities that earn
better Public Protection
Classification, the program encourages improvements and helps fire
departments plan for,
budget, and justify expenditures that reduce property damage from
fires” (“When a community”,
2004). Generally, insurance costs in a community with a good PPC
are lower that a community
with a poor PPC. Insurance premiums are also reduced up to 10% if
homeowners install smoke
alarms or other safety devices in the homes. State Farm and other
insurance organizations echo
the guidelines set in the NFPA standard of one per room, one per
level of the house, and outside
of sleeping areas. Although the ISO evaluates the fire department,
water supply, and fire
dispatch of a community, insurance companies hold the view that
“the ISO’s PPC program
provides a significant incentive for communities…as an effective
way of improving safety and
reducing fire losses” (“90% of fire chiefs”, 2001).
Following its mission to test and upgrade safety equipment, the
National Institute of
Standards and Technology (NIST) reported in 2004 that residents of
houses had an average of
three minutes to exit a building after activation of a smoke alarm.
The time allotted is an
upgrade from a NIST study done in 1970 that gave a window of 17
minutes to exit a building.
The main reason for the reduction of time according to the report
is that “fires today seem to
burn faster and kill quicker because the contents of modern homes
(such as furnishings) can burn
faster and more intensely” (“Commerce’s NIST”, 2004). The research
also concluded that, “even
28
with a three-minute warning, smoke alarms still offer enough time
to save your life”
(“Commerce’s NIST”, 2004).
Cost of an alarm is the second reason for the increased smoke alarm
installation.
Development of smoke alarms began in the early 1960’s and in 1969
the first battery powered
smoke alarms designed by BRK Electronics received UL approval.
Continued development in
the 1970’s “produced a series of high quality, affordable, battery
and AC powered and system
smoke alarms” (“Invention facts”, 2002). The popularity of smoke
alarms increased after 1974
when Sears, Roebuck and Company began to sell the BRK electronic
battery powered alarms
and caused other manufacturers to enter the residential smoke alarm
market. When smoke
alarms were first introduced in the 1970’s, the cost to
professionally install alarms, according to
standards, for a three bedroom house was approximately $1,000.00.
As development and
standardization of alarms increased the price decreased. Most smoke
alarms now cost
approximately $10.00 with many fire departments and cities having
give-away programs that
provide an alarm at no cost.
Internationally, nationally, or locally, fire departments have had
great success in reducing
fire related losses through fire prevention activities, especially
when fire departments installed
the alarms and followed with a check of the alarm. The results of
the smoke alarm give-away
program in England in which alarms were just handed out to the
public found that it “did not
increase the number of installed or functioning alarms, nor did it
reduce fire-related injuries.
This was most likely because installation was left to the residents
and was often not carried out”
(“Project: ICH”, 2003).
In contrast, the Australian prevention program not only provided
free smoke alarms but
established the SABRE program to install them, provide a follow up
check, and furnish fire
29
prevention tips. Since 1994, all new homes built in New South Wales
have installed
electronically wired smoke alarms and in 1996, the NSWFB Department
of Housing commenced
a program to install alarms in all its housing. “Consequently,
installation of smoke alarms has
increased substantially from 24 % in 1994 to 64% in 1998…in 2002,
72.9 per cent of NSW
residents reported that they had a smoke alarm or detector
installed in their home” (“Report of
the New South”, 2004). Of those with smoke alarms in the home, less
than four percent had an
activation from a fire and almost 76 % of the fires were
extinguished without calling for
emergency help.
Before the Windsor Fire and Rescue Service of Canada began its
smoke alarm program
in 1995, numerous fire deaths were reported especially in the
city’s west end. After the program
began, “fire loss in that area dropped by 70% and there were no
fire fatalities” (“Smoke alarms”,
2004). The program has been so successful that fire vehicles now
carry smoke alarm on them so
they can be installed in homes of people in need when
requested.
A study conducted by the LFRD found that the city’s current smoke
alarm program,
enacted in 1977, was inadequate. Recommendations to upgrade the
program began with Fire
Marshal Donald D. Cummins’ report to Chief Gregory W. Frederick and
support from
Louisville's Mayor David L. Armstrong. Smoke alarm legislation at
the city council level was
changed and became effective October 1, 2000. The changes required
smoke alarms with 10-
year tamperproof lithium batteries in single-family dwellings. A
Mayor's Neighborhood
Enhancement Team (MNET) was created with the goal of smoke alarm
installation in all
residences and providing residents with fire prevention tips. The
team consisted of members of
the department's Fire Prevention Bureau and suppression forces
working in partnership with
other city agencies. The success of the program resulted in the
installation of approximately
30
1,700 of the 10-year tamperproof lithium battery smoke detectors in
the five targeted
neighborhoods consisting of 5,000 homes. An effect of the program
also resulted in the
recognition by the citizens that fire prevention is not just the
work of the LFRD but that of the
entire community.
Since 1993, the Smoke Detector Check-up Campaign made available by
the Lacey Fire
District Three and Kiwanis Club has provided nearly 3,500 residents
with a smoke alarms.
Using compiled data from previous years and measured with that of
state and national statistics,
the community showed an increase in working smoke alarms. As the
partnership continues, their
goal is to increase, “by 5 percent each year the number of homes
protected by working
alarms….providing alarms to people with low incomes, and older
adults…also focus on
distributing alarms with strobe lights for people with hearing
impairments” (“NFPA Honors
Lacey”, 2003).
Results from interviews with local fire department leaders, found
that all departments had
prevention programs and offered some type of smoke alarm give away
program. As of
September 29, 2004, the distribution of smoke alarms by departments
has ranged from low of 30
to a high of over 1000. Five of six departments provide
installation but only the MTFD has a
smoke alarm check program scheduled six months after the alarm is
installed. Interview results
indicated that when the NSFD responds to a residence, a smoke alarm
check is made with
permission of the owner, thus providing an additional service. Five
of the six departments
present fire prevention activities that continue throughout the
year targeting the young at schools,
elderly in senior housing, and business, with FTFD the only one
that does not. The NSFD has
established a relationship with the Home Depot building supplies
store by having a static display
of equipment and fire prevention information available at various
time of the year. A positive
31
gain to the prevention programs is that most departments have found
a decrease in fire related
damage, injuries, or death within their community. However, two
deaths were attributed to a
non-working smoke alarm by those department leaders that were
interviewed. Finally, all
leaders agreed that a more proactive approach must be undertaken to
reduce community risks
which can be done using a “more aggressive fire education program
and more aggressive smoke
alarm program” (personal communication, Mike Healy, September 29,
2004).
Finally, what strategies should be adopted by the Muskegon Fire
Department (MFD)
towards a smoke alarm-testing program?
The mission statement of the MFD states in part that it “is charged
with fire suppression,
fire prevention, public education.…through a balanced program of
customer awareness,
personnel training, and service delivery….in the most effective and
efficient manner possible”
(MFD, 1997). This part of the mission statement was aided in 2003
when the MFD was
awarded a Federal Emergency Management Act (FEMA) grant to be used
for the delivery of fire
prevention activities that would help reduce fire incidents,
deaths, and injuries to the citizens
within the city and neighboring communities.
There were four strategies included in the application of the
grant. The first was to use
the State of Michigan’s “Safe Home” and the National Fire
Protection Association’s
“Remembering When” programs that targeted school age children and
the elderly. Using these
programs fire personnel held fire prevention classes at high rise
buildings housing the elderly and
conducted school visits during the year. This combination helped
reduce calls for assistance and
decreased emergency responses to fire related calls in the home.
(see Table 1) The second
strategy was to use digital technology, public service
announcements, and other electronic media
to help prepare and produce custom fire safety programs. After
receiving the grant, interactive
32
computer generated programs were made with the cooperation of the
Information Technology
(IT) department of the city and the MFD fire prevention bureau. A
national server was
contracted that would broadcast the website by the IT department.
During fire prevention talks
at schools this website address was distributed so that the
children could continue to receive fire
prevention information at home.
Table 1.
Incident Type Response Summary
____________________________________________________________ Year
TDI TFRI TFRIB
____________________________________________________________ 2001
3817 277 174 2002 3889 313 190 2003 3653 275 153 2004* 3116 204 157
___________________________________________________________________________
Note. TDI = Total of Department Incidents; TFRI = Total of Fire
Related Incidents; TFRIB= Total of Fire Related Incidents in a
Building; * = Data Is From January1, 2004 to September 30,
2004
The third strategy was a smoke alarm give-away program which
provides free smoke
alarms to city residents upon request. Approximately 1000 free
alarms have been handed out as
of September 30, 2004. However, installation was not provided nor a
check up program initiated
in order to verify that the alarms were installed correctly or that
the alarms went to the residences
that were stated on the application. Despite the failure to have a
smoke alarm installation and
check program, the strategy adopted by the MFD proved to be
successful. NFIRS data (see
Table 2) clearly shows that there was an increase of residents
being alerted to smoky conditions
in 2003 after the program began. Although not complete, the current
statistics for 2004 reflect
the same. Yet, data also shows there are incidents of alarms not
alerting residents, which may be
33
a result of residents not following the recommendations of changing
the batteries, checking the
smoke alarm itself, or the failure of the MFD to have an existing
smoke alarm installation and
check program.
Table 2.
Smoke Alarm Activation
____________________________________________________________ Year
DAR DNAR UNK
____________________________________________________________ 2001
26 17 37 2002 41 65 86 2003 51 50 54 2004* 68 41 48
___________________________________________________________________________
Note. DAR = Did Alert Residents; DNAR = Did Not Alert Residents;
UNK= Unknown; * = Data Is From January1, 2004 to October 30,
2004
Establishing whether or not an existing residence in the city has a
working smoke alarm
can prove to be difficult. In an interview with the MFD Fire
Inspector, Scott Hemmelsbach,
concerning existing ordinances, he stated:
The only way that smoke alarms are assured to be in the homes is if
there is new
construction that needs to be checked or if residents pull a permit
for construction during
remolding, otherwise it is not known if smoke alarms are present in
the homes (personnel
communication, September 9, 2004).
The final strategy that was to use MFD personnel along with the
fire prevention bureau
and neighboring fire department personnel to increase fire
prevention program contacts was and
continues to be successful. The cooperation has resulted in the
development of an annual county
wide fire prevention night held at a local mall attracting numerous
citizens of nearby
34
communities and providing them with fire prevention material,
exposure to fire fighting
equipment, and a smoke house [italics added] trailer owned by the
MFD which continues to be
used during the year by other area departments. The goal is to
“focus the public’s attention on
fire safety and leave a lasting impression” (Medendorp, 2000)
Research has indicated that due to continued MFD budget cuts, staff
and services to the
citizens of the community have been reduced, including some of the
programs that were started
during or before the time of the FEMA grant. For instance, the
computerized programs were
eliminated when the city could not pay the fee being charged by the
server to present the
computer programs. Classes for the elderly and young children have
been reduced and are now
generally conducted by the fire inspector or fire marshal who
already have increased duties due
to budget cuts. Finally, free smoke alarms are still being
distributed to residents that have
resulted in an increase of alarms warning residents. However, alarm
installation and follow up
checks are still not provided, jeopardizing the MFD goal to reduce
fire incidents and then
maintain that rate.
Discussion
“The mission of the fire service must be to prevent harm in the
community” (NFA, 2003,
p. sm 0-17). The importance of reducing community risks and prevent
harm should never be
forgotten by fire service members even though most sign on with the
anticipation of fighting fire.
This author agrees “Effective fire prevention and public education
programs are the best way to
minimize the hazards of fire in the community” (IFSTA, 1993, p.
519).
The national standards and programs that have been developed and
then adopted by
communities or fire departments impact community risk reduction.
However, “a standard only
becomes mandatory if a government entity adopts it” (Bokman, 2003,
p. 2). The International
35
City/County Management Association (ICMA) who “believe that the
standards assume a defacto
‘one-size-fits-all for fire departments’” (Firey, 2001) have
challenged the standards. Yet, as it
was shown New York State, noncompliance to standards has had
serious consequences even
though they are not laws.
Standards set by NFPA 72 have provided the basics of fire safety
within a community
while fire services continue fire prevention efforts based on the
standard. The acceptance of
NFPA 72 and the smoke alarms requirement allows the “local
government to gain influence in
the community by demonstrating its proactive commitment to the
safety and well being of its
citizens” (FEMA, 2003a).
Development of residential smoke alarms “has been one of the most
important life safety
advances to date” (Corbett, 1995, p. 991). These simple devices
that were introduced in the early
1970’s provide a continuous tool against the effects of smoke and
fire if they are installed and
maintained properly. The “smoke detector give away programs have
proven successful when
high risk areas are targeted….successful programs have had one
specific goal, installation of
working smoke detectors” (“Smoke detector”, 2004). Studies and
reports from government or
private organizations are in agreement that prevention programs and
smoke alarms have reduced
fire related deaths, injuries, and property damage by over 50%
since the inception of smoke
alarms. Yet fires continue to happen worldwide and statistics
indicate that smoke alarms have
failed to work largely due to batteries being removed or improper
maintenance.
Since the inception and promotion of smoke alarms, various studies
and reports all relate
to the success these simple devices have had in reducing fire
related deaths and injuries. Smoke
alarms have benefited residents by affording a window of
opportunity which has decreased due
to the usage modern furnishings. The cost for smoke alarms has
continued to decrease to a point
36
that they are sometimes provided for free by local fire
departments. Further development of
these early warning systems includes strobe lights for those with
hearing impairments and in the
future may incorporate other means of detection, activation, and
notification for those with
physical handicaps.
Although homeowner insurance policies are based on the PPC set by
the ISO which
measures how well the community is prepared to mitigate fire loss,
insurance organizations such
as State Farm, provide homeowners with rate discounts if smoke
alarms are installed. Using the
PPC, fire chiefs and city administrators prepare budgets affecting
the performance of a fire
department. Reducing fire losses not only can be accomplished by
the preparation the fire
departments make to put out the fire, but also the effort to reduce
risk or prevent fire. Second
thoughts should also be given to the cutting of the budget for fire
prevention activities which
affect the mission of a fire department or the fire service.
Internationally, nationally, or locally, the success of a fire
prevention smoke alarm
program established by a fire service or a community seems to be
tied to whether or not there is
an installation and a follow up program in place. Providing smoke
alarms without providing
installation and a follow up check program could mimic the results
of London where no
appreciable increase in smoke alarm effectiveness resulted.
Successful programs that include
installation and check programs like that of Louisville, Kentucky
or Lacey, Washington, provide
a reduction of community risk while increasing a positive
perception of the fire department.
These programs are viewed as low risk, high return to community and
fire service leaders.
Fire prevention education to the public is a basic duty of the fire
fighter that is introduced
to a new firefighter at the beginning stages of training. The Fire
Fighter Essentials handbook
points out that, “Firefighters must direct their efforts at
reducing known hazardous conditions or
37
preventing dangerous acts before tragedy strikes” (IFSTA, 1998, p.
655). Acceptance of fire
prevention delivery programs by fire service members in the United
States is unlike that of other
countries. In the United Kingdom, “most members of the fire service
are now expected to be
involved in the delivery of public fire prevention” (North American
Coalition for Fire and Life
Safety Education, 1999, p.17). This is in contrast to the United
States where few resources and
personnel are allotted for public education efforts. As a result of
staffing and budget cuts, greater
demands now placed on the fire service, producing the necessity to
increase participation in fire
prevention and education activities in order to reduce fires and
fire related injuries.
Understanding what has happened in the past will enable fire
departments to be better prepared
for the future. Crawford (2004b) stresses that:
Many firefighters need to be convinced that having a role in
prevention won’t take away
their job security. And it will help improve public safety. This is
true for three simple
reasons. First, we will never prevent all the fire from occurring.
Second, the firefighters
are in the best position to meet people right where they live. And
third, they are the most
credible source for prevention information the fire service
has.
The banding together of neighboring departments in presenting fire
education programs
for local citizens has resulted in the decrease of fire related
incidents. With fewer personnel and
budget cuts this group effort has enabled those who participate in
presenting programs the ability
to reach out to a greater number of citizens.
. “Fire safety programs have been designed, implemented, and
evaluated by a select few
individuals within the fire prevention bureau. Involving the whole
department in the effort to
reduce the frequency and consequences of fire is the first step to
obtaining the support and
commitment of the entire community to fire safety” (Chubb, 1999, p.
4). Although the MFD has
38
adopted a strategy for reduce community risks, this author feels
that more must be done. Within
the Leading Community Risk Reduction Process presented by FEMA, a
five step process is
established in which community or fire department leaders can
follow towards risk reduction.
Not only is there importance placed on community involvement but
change of attitude and
commitment of fire department members as well. In the Learning
Community Risk Reduction
student manual provided by the National Fire Academy (2003) states
“An EFO is assumed to be
a champion of fire safety within the community. It is a challenge,
then, to become a ‘champion’
of community risk reduction” (sm.p.1-88). In order to accomplish
this, the use of the steps that
have been developed by FEMA as a community risk reduction model
should be utilized. Those
steps are:
Step I, Getting Ready…a clear understanding of the community risk
reduction philosophy
and process; its benefits and challenges to the community….
Step II, Assessing Community Risk…a list of the most common risk
issues in the
community….
Step III, Identifying Intervention Strategies…a series of
strategies designed to eliminate
hazards or reduce their impacts to the community and its citizens,
OR, decrease the
community’s vulnerability to the hazards….
Step IV, Taking Action…a comprehensive list of resources required
to implement
intervention strategies….
Step V, Evaluating the Program… information on how well each risk
reduction objective
has been achieved, and the impact made in the community.
(2003b).
Using this guide, a clear path is set for methods to overcome the
challenges to implement
risk reduction not only for an EFO student but a fire department or
community as well. “By
39
building relationships with their neighbors and engaging in
cooperative enterprises that benefit
the whole community, fire officers can foster opportunities to
forge fire safety conditions”
(Chubb, 1999, p.3).
Education, enforcement, and engineering are the three E’s of fire
prevention and should
be included in risk reduction. A fire smoke alarm installation
program with follow up checks not
only can reduce the size and amount of fires but this free service
should enhance the relationship
between the MFD, leaders of the city, and the residents of the
community. An indirect effect
could be the support of the public towards the fire department’s
budget, recruitment, and
retention of personnel. If the department has a positive image
within the community it may help
acquire the funds necessary for the department to operate
effectively and efficiently.
The mission statement of the MFD is an important path that the fire
department must
embark upon. It gives guidelines that should be followed by the
members, while emphasizing to
the leaders the need to address the issue of reducing community
risks. As budget cuts continue,
the MFD may be faced with additional reduction in staffing and a
cut in program activities
including fire prevention. “When a fire department has been
suffering through cutbacks for a
year or two and has been offering less service that the
firefighters know that they are capable of
providing, serious erosion of morale and motivation may occur”
(Lewis, 2002, p.15). Taking
this into account “The fire department should strive to provide
superior customer service and to
surprise the public with the amount and quality of the service that
they receive” (Lewis, 2002,
p.52). Current involvement with the community by all personnel has
been compromised by the
reduction staffing and decreasing budget. In order to decrease risk
reduction, MFD leaders and
fire suppression personnel must take part in fire prevention
activities on continuous basis and not
just once a year during fire prevention week or month. Since laws,
regulations, and ordinances
40
cannot provide installation of smoke alarms in homes, an effort
should be made by MFD
members to provide this service.
Recommendations
In order to reduce the amount of times smoke alarms fail to warn
the citizens of
Muskegon and alert them to fire related dangers, several steps
should be taken.
First, set a goal to increase by 50 % over the next five years the
number of times
residential smoke alarms properly function and alert
residents.
Second, follow the guidelines established by FEMA in the Leading
Community Risk
Reduction Manual. This program, if followed, provides communities,
fire department leaders,
and EFO students a blueprint to reduce community risk.
Third, meet with the leadership of the fire department to convince
them of the benefits to
initiate a program aimed a reducing community risk, gaining better
public perception of the fire
department, and fulfilling the mission of the department.
Fourth, inform and convince the union leadership and membership
that taking part in
program that reduces community risk will not jeopardize their
employment but enhance it and
that risk reduction is the primary goal of the department and
members.
Fifth, introduce a Push the Button campaign conducted during the
entire year targeting all
households in the city of Muskegon and sponsored by the MFD. This
campaign can be modeled
after the Lacey or Louisville Fire Departments and become part of a
five year plan to improve
community relationships. Fire suppression personnel would test the
alarms in the targeted area if
they are allowed to enter the residence. Batteries or alarms would
be replaced, if necessary, with
new ones. This low risk-high return five year program would enable
the fire fighters to be more
visible to the community and follow the recommendations made by
Lewis.
41
Sixth, communicate with city leadership on the benefits of the
“Push the Button”
campaign to gain their support and involvement. This may help with
the perception of the
department members and enhance the credibility of the program with
city leaders.
Seventh, communicate the new campaign to the public through the
local newspaper or
public service announcements, including how they can help and what
the members of the MFD
hope to accomplish.
Finally, while the existing supply of smoke alarms is being
depleted, search and apply for
grants to help pay for the smoke alarms with 10 year non-removable
lithium batteries or find a
sponsor that would provide smoke alarms or batteries at no
cost.
42
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Appendix A
Question form
1. Did your fire department or does your fire department
participate in a smoke alarm give away program?
2. What were the requirements to received a smoke alarm? 3. How
many smoke alarms have been distributed during the program?
4. Does your department have a smoke alarm check program? If so,
how does it work?
5. Does your department install smoke alarms in residences? If so,
how is it done?
6. Has you department experienced an increase or decrease in
residential fires over the last fire years?
7. Does your department provide fire prevention education
activities throughout the year to
your community, not including fire prevention week? If so, what are
they?
8. Were there any fire related deaths or injuries in your community
related to the lack of a working smoke alarm?
9. In you opinion, how can the fire departments in the county
lessen community risks?
Abstract
Introduction