1975 New York Telephone exchange fire

Last updated
1975 New York Telephone Exchange Fire
Date27 February 1975
Time00:25 EST (5:25 UTC)
Location204 Second Avenue, New York, NY
Coordinates 40°43′53″N73°59′07″W / 40.7314°N 73.9852°W / 40.7314; -73.9852
CauseCable fire

On February 27, 1975, fire broke out at the New York Telephone Company switching center at 204 Second Avenue and Thirteenth Street in the East Village of Manhattan, New York City. At this time, the building contained central offices for connecting local customer telephone lines, as well as toll switching systems. The fire disrupted service for 175,000 customers, connected within the building through 105,000 service loops. It was the worst single service disaster suffered by any single Bell operating company in the 20th century.

Contents

The events relating to the fire make it notable for several reasons, including the extent of the disruption, the large scale and speed of the recovery efforts, which were completed in 23 days, [1] and the succeeding influence on adoption of fire safety rules for installation of low-voltage wiring inside buildings, especially in areas that can spread fire or toxic fumes. Decades later the polyvinyl chloride (PVC) combustion products produced by the fire were identified as a reason for elevated rates of cancer in the firefighters at the scene. [2]

History

New York Telephone (now Verizon) 204 Second Avenue building in November 2019. East Village 20191129 - 06 - Second btwn 12 & 13.jpg
New York Telephone (now Verizon) 204 Second Avenue building in November 2019.

The 204 Second Avenue building was erected in two stages: The first three floors were completed in 1923 and an additional eight stories were added in 1929-1930. [3] At that time telephone companies were using electromechanical panel switches and, later, crossbar switches. As demand for telephone service increased in later decades, older equipment remained in service and worked alongside new equipment installed for expanded service. [4] The building housed the main distribution frame and contained twelve exchanges and five toll switching machines. All of this equipment took up enormous space and by the time of the 1975 fire it was interconnected with tons of cable, much of it sheathed in PVC. The burning cables emitted hydrochloric acid, benzene, and vinyl chloride. During the blaze, accumulated gases caused an explosion powerful enough to knock down firefighters outside the building. [2]

By the mid-1970s, the Bell System was converting to newer electronic switching systems that required only a fraction of the former space and had a greater capacity than the electromechanical switches. Newer exchanges usually were equipped with the latest technology. [4] In replacing the destroyed equipment at Second Avenue, AT&T was able to divert equipment and supplies intended for other locations to the rebuilding of the Second Avenue central offices.

Fire progression

Just after midnight on February 27, 1975, a short circuit in the basement cable vault, where underground cables enter the building, started a fire. Fifteen employees were working in the building at the time. An internal alarm was sounded at 12:15 a.m. when smoke was discovered in the third-floor subscriber distribution frame. All employees safely evacuated the building but one reported that smoke was already filling the stairways. The maintenance man on duty was alerted to the fire and attempted to call the fire department, but the internal telephone lines were already disrupted. He had to use a street call box to alert the fire department, where the first alarm was sounded at 12:25 a.m. [5]

Upon arrival, firefighters found the entire building filled with smoke with the heaviest on the lower floors. It was difficult to pinpoint the source of the fire due to the smoke and difficulty in getting into the cable vault. [6] Windows were constructed with wire mesh glass and further shielded with plastic or metal screens to protect switching equipment. Dust shields of steel and wired glass presented obstacles. [5] The fire had spread to the first floor through a narrow slot that passed cable up to the distribution frame. The fire then progressed vertically through cable chases. Firefighters attempted to spray foam into the cable vault only to have the foam drain down into a sub-basement. [6] The incident escalated to five alarms. [5]

Fumes from the burning cables awakened and sickened residents on East 13th Street. Some dressed hastily and left their apartments to get further away from the fire. The nearby New York Eye and Ear Infirmary sent patients home or transferred them to other hospitals. Smoke poured from a fissure in the building and an adjacent structure was evacuated in fear that the telephone building might collapse. The fire was at first declared under control at 3:40 pm, but shortly after that flared up again. It was officially declared under control at 4:46 p.m. [7] The fire burned for over 19 hours before being completely extinguished.

Disruption and restoration of telephone service

The fire had destroyed 488 vault cables [5] and all equipment on the first and second floors. Smoke and corrosion damaged switching equipment all the way up to the top floor. [6] The fire cut off telephone service to a 300 block area of Manhattan that included three hospitals, three police stations, two universities and the main headquarters of ConEdison. [8]

The response to the emergency was quick with New York Telephone, parent company AT&T, research division Bell Laboratories and the equipment manufacturing arm Western Electric coordinating the restoration effort. Radio telephones and coin telephone trailers were brought in from three states and positioned throughout the affected area. A recently retired panel switch at the West 18th Street exchange was reactivated. A main distribution frame normally took six months to manufacture and install but one ready for shipment to another office was located at Western Electric and diverted to New York. [1] Remarkably, it only took them four days to install.[ citation needed ] Damaged switching equipment contacts were manually cleaned and millions of individual wires spliced by hand. [9] Five thousand employees collaborated to restore service. Twenty-three days later service was restored entirely. [10] AT&T commissioned a documentary filmmaker to record the recovery work which was released under the title Miracle on Second Avenue. [1]

Health risks

No firefighters were killed at the telephone building site during the fire, but many later developed cancer attributed to the chemical toxins that were released during the fire. [11] The burning toxins from the PVC insulated wiring that burned has shown heightened risks of cancer years after exposure. Approximately forty cases of cancer can be linked back to the fire. Dr. Steven Lin, a doctor at the Mt. Sinai School of Medicine, investigated the relationship between the toxins and the cancers developed by firefighters. He concluded that polyvinyl chloride, a chemical present during the fire, leads to various types of cancer. However, these cancers are developed twenty years after exposure.

During the fire, the Fire Department of New York did not document the medical records of the firefighters, making it nearly impossible to track their health progress. Instead, they put a red stamp on the firefighters' documents that said "Telephone Exchange Fire" to simply show they were there. In 1997, The Fire Department interviewed two hundred and thirty-nine firefighters involved in the fire and found eighteen had died. Seven of these eighteen deaths were from cancer and six of those deaths were from first responders. The average age of those deaths was fifty. By the 1990s the City of New York considered cancer in firefighters to be job-related and compensated by paying then a 75% pension rather than the standard 50% pension. However, if the cancer was diagnosed after retirement, there was no additional compensation. [2]

Impact on fire and building regulations

The fire originated from sparks in equipment in the basement cable vault igniting the plastic insulation of nearby cables that ran to all of the floors above. The combination of the flammable insulation and the method of penetrating each floor allowed the fire to spread rapidly, and emit toxic fumes that are alleged to have caused later deaths of over a dozen firefighters. [6] [12] Chief of Department James Leonard, whose father worked as a switch operator, said "I've never seen smoke like that, conditions were brutal. It tested the skills, training and ability of all members responding that day." [5]

The resulting fire safety regulations include various codes that relate to plenum cable:

Related Research Articles

<span class="mw-page-title-main">Rescue and recovery effort after the September 11 attacks on the World Trade Center</span>

The September 11 attacks on the World Trade Center elicited a large response of local emergency and rescue personnel to assist in the evacuation of the two towers, resulting in a large loss of the same personnel when the towers collapsed. After the attacks, the media termed the World Trade Center site "Ground Zero", while rescue personnel referred to it as "the Pile".

<span class="mw-page-title-main">Communication during the September 11 attacks</span>

Communication problems and successes played an important role during the September 11 attacks in 2001 and their aftermath. Systems were variously destroyed or overwhelmed by loads greater than they were designed to carry, or failed to operate as intended or desired.

<span class="mw-page-title-main">Firefighter</span> Rescuer trained to extinguish fires and save people

A firefighter is a first responder trained in firefighting, primarily to control and extinguish fires that threaten life and property, as well as to rescue persons from confinement or dangerous situations. Male firefighters are sometimes referred to as firemen.

<span class="mw-page-title-main">New York City Fire Department</span> Fire department in New York City

The New York City Fire Department, officially the Fire Department of the City of New York (FDNY) is the full-service fire department of New York City, serving all five boroughs. The FDNY is responsible for fire suppression and fire prevention, and is a major provider of EMS services in New York City. Beyond fire suppression and EMS, the FDNY is responsible for a broad range of services, including technical rescue, CBRN defense, and structural collapse response and analysis.

<span class="mw-page-title-main">Fire safety</span> Practices to reduce the results of fire

Fire safety is the set of practices intended to reduce destruction caused by fire. Fire safety measures include those that are intended to prevent the ignition of an uncontrolled fire and those that are used to limit the spread and impact of a fire.

<span class="mw-page-title-main">Electrical wiring</span> Electrical installation of cabling

Electrical wiring is an electrical installation of cabling and associated devices such as switches, distribution boards, sockets, and light fittings in a structure.

<span class="mw-page-title-main">PASS device</span> Device used to set off an alarm when a firefighter is in distress

A PASS device, also known as a distress signal unit (DSU) or ADSU, is a personal safety device used primarily by firefighters entering a hazardous or "immediately dangerous to life and health" (IDLH) environment such as a burning building. The PASS device sounds a loud (95 decibel) audible alert to notify others in the area that the firefighter is in distress. On a fireground, the sound of an activated PASS device indicates a true emergency and results in an immediate response to rescue the firefighters in distress. In the United States, the National Fire Protection Association sets standards for PASS devices in NFPA 1982.

<span class="mw-page-title-main">New York City Fire Museum</span> Museum in Manhattan, New York

The New York City Fire Museum is a museum dedicated to the New York City Fire Department (FDNY) in the Hudson Square neighborhood of Manhattan, New York City. It is housed in the former quarters of the FDNY's Engine Company No. 30, a renovated 1904 fire house at 278 Spring Street between Varick and Hudson Streets.

Verizon New York, Inc., formerly The New York Telephone Company (NYTel), was organized in 1896, taking over the New York City operations of the American Bell Telephone Company.

<span class="mw-page-title-main">Dropped ceiling</span> Secondary ceiling hung below a main ceiling

A dropped ceiling is a secondary ceiling, hung below the main (structural) ceiling. It may also be referred to as a drop ceiling, T-bar ceiling, false ceiling, suspended ceiling, grid ceiling, drop in ceiling, drop out ceiling, or ceiling tiles and is a staple of modern construction and architecture in both residential and commercial applications.

<span class="mw-page-title-main">Fire alarm system</span> A system, that works using multiple devices to warn of a fire or other types of emergencies

A fire alarm system is a building system designed to detect, alert occupants, and alert emergency forces of the presence of fire, smoke, carbon monoxide, or other fire-related emergencies. Fire alarm systems are required in most commercial buildings. They may include smoke detectors, heat detectors, and manual fire alarm activation devices. All components of a fire alarm system are connected to a fire alarm control panel. Fire alarm control panels are usually found in an electrical or panel room. Fire alarm systems generally use visual and audio signalization to warn the occupants of the building. Some fire alarm systems may also disable elevators, which are unsafe to use during a fire under most circumstances.

<span class="mw-page-title-main">Bunker gear</span> Personal protective equipment used by firefighters

Bunker gear is the personal protective equipment (PPE) used by firefighters. The term is derived from the fact that the trousers and boots are traditionally kept by the firefighters bunk at the fire station to be readily available for use.

<span class="mw-page-title-main">Detroit–Columbia Central Office Building</span> United States historic place

The Detroit–Columbia Central Office Building is a building located at 52 Selden Street in Midtown Detroit, Michigan. It is also known as the Michigan Bell Telephone Exchange. The building was listed on the National Register of Historic Places in 1997.

The 23rd Street Fire was an incident that took place in the Flatiron District neighborhood of Manhattan, New York City, on October 17, 1966. A group of firefighters from the New York City Fire Department responding to a fire at 7 East 22nd Street entered a building at 6 East 23rd Street as part of an effort to fight the fire. Twelve firefighters were killed after the floor collapsed, the largest loss of life in the department's history until the collapse of the World Trade Center in the September 11 attacks of 2001.

A managed facilities-based voice network (MFVN) is a communications network managed, operated, and maintained by a voice service provider that delivers traditional telephone service via a loop start analog telephone interface. MFVNs are interconnected with the public switched telephone network (PSTN) or other MFVNs and provide dialtone to end users. Historically, this was provided by equipment at Bell company central offices, however today's MFVNs can include a combination of access network, battery-backed customer premises equipment (CPE), network switches and routers, network management systems, voice call servers, and gateways to the broader PSTN.

Plenum cable is electrical cable that is laid in the plenum spaces of buildings. In the United States, plastics used in the construction of plenum cable are regulated under the National Fire Protection Association standard NFPA 90A: Standard for the Installation of Air Conditioning and Ventilating Systems. All materials intended for use on wire and cables to be placed in plenum spaces are designed to meet rigorous fire safety test standards in accordance with NFPA 262 and outlined in NFPA 90A.

<span class="mw-page-title-main">Firefighting in the United States</span> Firefighting

Firefighting in the United States dates back to the earliest European colonies in the Americas. Early firefighters were simply community members who would respond to neighborhood fires with buckets. The first dedicated volunteer fire brigade was established in 1736 in Philadelphia. These volunteer companies were often paid by insurance companies in return for protecting their clients.

Black Sunday has been used to describe January 23, 2005, when three firefighters of the New York City Fire Department (FDNY) died in two fires: two at a tenement fire in the Morris Heights section of the Bronx, with four others being seriously injured, and one at a house fire in the East New York section of Brooklyn. It was the deadliest day for the FDNY since the World Trade Center attack on September 11, 2001, and the first time since 1918 that firefighters had died at two separate incidents on the same day.

A Special operations firefighter, also known as Fire Service Special Operations, is a specialist firefighter who has been specially trained to execute tasks other than standard firefighting operations. The National Fire Protection Association's Standard for the Organization and Deployment of Fire Suppression Operations, Emergency Medical Operations, and Special Operations to the Public by Career Fire Departments defines special operations as "Those emergency incidents to which the fire department responds that require specific and advanced training and specialized tools and equipment". The NFPA 1710 further defined special operations as "Special operations include water rescue, extrication, hazardous materials, confined space entry, highangle rescue, aircraft rescue and fire fighting, and other operations requiring specialized training".

The 1975 World Trade Center fire was a case of arson at the 1 World Trade Center in Lower Manhattan, New York occurring on February 12, 1975. The initial fire was started, and spread from the 11th floor from between the 9th and 14th floors, but was quickly extinguished by firefighters. The arsonist was later caught three months later on May 20 and was identified to be Oswald Adorno, a custodian working at the WTC, whose motive was because he was "disgruntled with his employer," said by Fire Commissioner Stephen J. Murphy.

References

  1. 1 2 3 "Miracle on Second Avenue". AT&T Archives. Retrieved 31 October 2017.
  2. 1 2 3 Port, Bob (March 14, 2004). "Three Decades After an Infamous New York Telephone Co. Blaze, Cancer Ravages Heros". New York Daily News. Retrieved 31 October 2017.
  3. Apmann, Sarah Bean (September 28, 2015). "Art Deco in the Village". The Greenwich Village Society for Historic Preservation. Retrieved 1 November 2017.
  4. 1 2 Dampier, Phillip (June 15, 2015). "Big City Telecom Infrastructure is Often Ancient: Conduits 70+ Years Old, Wiring from 1960s-1980s". Stop the Cap!. Retrieved 1 November 2017.
  5. 1 2 3 4 5 "FDNY Marks 40th Anniversary of Telephone Company Fire". FireEngineering.com. 27 February 2015. Retrieved 5 May 2023.
  6. 1 2 3 4 "Telephone Exchange Fire, New York, NY February 27, 1975". Liberty Hose Company No. 2 (Lykens, PA). Retrieved November 2, 2017.
  7. Carmody, Deirdre (February 28, 1975). "Fire Silences 170,000 Telephones, Disrupting Life in 300-Block Area of Manhattan Below 23D Street". The New York Times. Retrieved 2 November 2017.
  8. "Miracle on Second Avenue: The Bell System's Response to a Major Service Disaster" (PDF). AT&T (May 1975). Retrieved 4 November 2017.
  9. Mcelheny, Victor K. (March 13, 1975). "Sunday is Target on Phone Service". New York Times. Retrieved 3 November 2017.
  10. Shepard, Steven (March 1, 2011). "From Telco Tragedy to Recovery in 28 Days". Connected Life Exchange. Cisco Systems Blogs. Archived from the original on 25 September 2015. Retrieved 2 November 2017.
  11. "FDNY Marks 40th Anniversary of Telephone Company Fire". FirefighterCloseCalls.com. Retrieved 4 November 2017.
  12. "Fire history: New York Telephone Exchange fire". Archived from the original on 25 September 2015. Retrieved 24 September 2015.
  13. "List of NFPA Codes and Standards". www.nfpa.org. Retrieved Jun 22, 2020.
  14. "A History of Plenum Cable Fire Safety Issues" . Retrieved 24 September 2015.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.