MEC&F Expert Engineers : 11/11/17

Saturday, November 11, 2017

Drunk & reckless driver Keith Hayes, 28, charged with vehicular assault, reckless driving and DWI after he plowed into a construction site, and slammed into a worker on Staten Island breaking both of the worker legs









GRANT CITY, Staten Island (WABC) --

A car veered off the road, plowed into a construction site, and slammed into a worker on Staten Island early Saturday..

It happened at about 12:40 a.m. on Hylan Boulevard and Midland Avenue in the Grant City section.

The car, driven by a suspected drunk driver, went out of control and into a ditch. It landed on its side, under ground.

Equipment used by the workers to install water mains was used to lift the vehicle out of the ditch.

The 37-year-old worker who was struck suffered two broken legs and was taken to Staten Island University Hospital.

The driver, 28-year-old Keith Hayes, was not seriously injured and is in custody. He is charged with vehicular assault, reckless driving and DWI.

Hylan Boulevard was closed in both directions between Midland and Seaview Avenues for the police investigation.



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Drunken driver strikes construction worker in Staten Island, flips car into ditch



Police investigate the scene where a driver lost control of a vehicle in Staten Island and flipped into a ditch. (Danny Iudici for New York Daily News) 


BY Jessica Chia Thomas Tracy
NEW YORK DAILY NEWS

Updated: Saturday, November 11, 2017, 9:31 AM

Orange cones? What orange cones?

A drunken driver struck a construction worker in Staten Island then flipped his out-of-control car sideways into a trench early Saturday, cops said.

Keith Hayes, 28, was making a right turn from Midland Ave. onto Hylan Blvd. in Midland Beach when he blew past a series of construction cones and a flag man and barreled into a construction site about 12:50 a.m., police said.

Keith Hayes (Obtained by Daily News)

His black 2015 Nissan Altima struck a 37-year-old worker before falling sideways into a ditch where workers were repairing a water main.

 
Medics rushed the struck construction worker to Staten Island University Hospital with two broken legs.

The driver, whose blood alcohol content was 0.163, struck a construction worker, breaking both his legs, police said. (Danny Iudici for New York Daily News)

The wasted wheelman blew a 0.163 — twice the legal limit — on a Breathalyzer test at the scene, according to cops. Hayes, who lives in Fort Greene, Brooklyn, was charged with drunk driving, vehicular assault and reckless endangerment.


DIRTY DISNEY? 2 Disneyland cooling towers had elevated levels of Legionella bacteria in Orange County, California; a dozen cases of the bacterial illness were discovered about three weeks ago






ANAHEIM, Calif. --

Disneyland has shut down two cooling towers after people who visited the Anaheim theme park came down with Legionnaires' disease.

The Orange County Health Care Agency says a dozen cases of the bacterial illness were discovered about three weeks ago. All the patients lived or had spent time in Anaheim and nine had visited Disneyland in September.

One patient, who hadn't visited the park, has died.

The health agency says there haven't been any new cases reported.

Legionnaires' can cause severe pneumonia and is spread by mist from contaminated water.

In a statement, Dr. Pamela Hymel, chief medical officer for Walt Disney Parks and Resorts, said Disneyland learned about the Legionnaires' cases on Oct. 27.

"We conducted a review and learned that two cooling towers had elevated levels of Legionella bacteria," the statement said. "These towers were treated with chemicals that destroy the bacteria and are currently shut down. We have proactively shared this information with OCHCA and given our actions, they have indicated there is no longer any known risk associated with our facilities."

The towers will reopen after it's confirmed they are no longer contaminated.



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Orange County health experts are investigating 12 cases of Legionnaires’ disease among people who live in or visited the Anaheim area in September. Eight of the cases involve people visiting Disneyland and one person worked at the park.

One person, who had not visited Disneyland, has died, officials said Friday.

A Disneyland official said the resort voluntarily shut down two cooling towers in a backstage area of the theme park after it found the towers had elevated levels of a bacteria that causes Legionnaires’ disease.

Jessica Good, a spokeswoman for the Orange County Health Care Agency, said in an email Friday night the agency found 12 people, ages 52 to 94, were diagnosed with Legionnaires’ disease, a type of airborne disease that causes a severe form of pneumonia to most people 50 years or older or with a weak immune system.

One of those diagnosed was a cast member but where they worked at the park was not disclosed.

Of the 12, 10 have been hospitalized, and one person died. The person who died was described as having additional health problems and did not visit the theme park, Good said.

The health care agency is investigating all the cases, but has not yet identified a common exposure source for all of them, she said.

The illness, also known as legionellosis, is an infection with symptoms of serious pneumonia and can be deadly if not treated.

Legionnaires’ disease usually results from inhaling microscopic water droplets in mist or vapor. The bacterium Legionella living in freshwater rarely causes infections, but indoors it can multiply in water systems such as hot tubs and air conditioners, according to the Mayo Clinic.



It is not spread through person-to-person contact.

In a statement, Dr. Pamela Hymel, chief medical officer for Walt Disney Parks and Resorts, said Disney was informed Oct. 27 by the county agency of Disneyland’s possible role in the Legionnaires’ disease cases in Anaheim.

“We conducted a review and learned that two cooling towers had elevated levels of Legionella bacteria,” Hymel said in the statement. “These towers were treated with chemicals that destroy the bacteria and are currently shut down.”

Hymel added that Disney has worked with the county health care agency and that “there is no longer any known risk associated with our facilities.”

“(Disney) reported having performed subsequent testing and disinfection and brought the towers back into service (Sunday),” Good said.

While the towers, in a backstage area behind the New Orleans Square train station, were initially cleared, Disney on its own took them back out of service on Tuesday. Disney is working with health officials on the status of the towers.

Good said there have been no additional Legionella cases after September and no known ongoing risk associated with this outbreak.

In May, a community pool and spa in Foothill Ranch in South Orange County was closed after two cases of Legionnaires’ disease were reported. The disease sent two people to the hospital.



According to a New York Times Report, since the deadly outbreak of Legionnaires’ disease at the Opera House Hotel in the South Bronx was discovered in July, twenty of the more than 135 other cooling towers tested were found to be infected with the Legionella bacteria. This prompted the NYC Health Dept. to send a letter to every building in the city with a cooling tower ordering that they evaluate and disinfect their tower within two weeks of receiving the letter.

Following the actions of the NYC Health Dept. Mayor DeBlasio signed into law that cooling towers be regulated. The legislation requires the registration of all cooling towers, annual certification, quarterly inspection, and reporting of increased microbes to the Department of Health and Mental Hygiene. The legislation also mandates the disinfection of cooling towers with levels of microbes that pose potential health risks. Violations of registry, certification and inspection requirements are liable for civil penalties up to $10,000. Failure to disinfect towers with increased microbes are classified as misdemeanors, punishable up to $25,000.

The legislation takes effect immediately, and building owners were given 30 days to register their cooling towers. The DeBlasio administration, New York City Council, and Governor Cuomo collaborated closely on the policy to ensure consistency in regulation in New York City and across the state. NYC is the first major city in the US to regulate the use of cooling towers. This new legislation is a pre-emptive action to prevent future illness. The New York City Outbreak claimed 12 lives and sickened more than 120 others in the South Bronx, making this the worst Legionella outbreak in the city’s history. Legionella in cooling towers and other building systems (boilers, potable water, etc.) unfortunately isn’t new news, but has been a topic of robust discussion across the country and around the world for many years and in many countries around the world. In many countries including the UK and Australia, cooling towers must be registered and are closely regulated by Health and Safety officials; With the NYC outbreak occurring on the heels of ASHRAE releasing its ANSI/ASHRAE Standard 188-2015 Legionellosis: Risk Management for Building Water Systems. Air Solution Company foresees that there will be increasing regulations placed on the use of cooling towers across North America.
What Air Intake Filtration Can Do To Help in the Prevention of Legionella in Cooling Towers?

Legionella bacteria are found in groundwater, lakes, rivers, ponds and man-made water systems such as plumbing systems, boiler systems and cooling towers. Though not a problem in nature, legionella can become a problem in contained / looped systems when bacterial concentrations can increase to dangerous levels which can be harmful to human life. The ideal conditions required for legionella are those with a temperature range of 77 – 113 degrees Fahrenheit and which include organic matter as a nutrient source (leaves, bugs, sediment, sludge, rust and scale) – Cooling tower and evaporative condensers provide just that environment when effective maintenance practices aren’t deployed. Cooling towers that are well managed and treated with water treatment chemicals are at lower risk however, if regular maintenance isn’t carried out, the debris loads can increase beyond the chemical concentrations ability to provide control and when this happens the tipping point is reached and the cooling tower can silently become hazardous. So what is one to do?



Maintenance Strategies

The first step is to completely clean the tower, then deploy maintenance strategies that ensure a clean and unfavorable environment for bacterial growth – the New ANSI/ASHRAE Standard 188-215 is the best place to go for guidance. Secondly and consistent with the ASHRAE guideline for keeping debris out of the tower – is deploying the use of Air Intake Filter Screens (commonly called “Cottonwood Filter Screens”).

This highly effective device is proven to significantly reduce organic loading by stopping airborne debris at its point of entry where it can be easily removed using a broom, brush, shop vacuum or garden hose – rain can even help by rinsing them clean when fan motors are in the off cycle. In combination with an effective water management program, air intake filter screens significantly reduces organic debris which is the nutrient source that supports bacterial proliferation.

Further, this device is designed to increase laminar air flow which introduces more air to the entire face of the Fill Pack – this results in an increase in the evaporative capacity of the fill thus increasing tower efficiency and further reducing water temperatures at the basin – This translates into energy cost savings. Because most legionella infected towers are known to be dirty and loaded with organic matter, Air Solution Company recommends that companies seeking to improve their cooling tower water quality do the easy thing first and install intake filter screens that helps stop organic debris from getting into their cooling towers in the first place.





Wrong-way drunk driver and reality TV "star" Melissa Hancock, 25, has been charged with driving her 2011 Cadillac while intoxicated and maiming following the death of Petty Officer 2nd Class Daniel Dill, 29 inside his 2009 Mazda

Petty Officer 2nd Class Daniel Dill, 29, dead

Drunk driver and reality TV "star" Melissa Hancock, 25

Drunk driver and reality TV "star" Melissa Hancock, 25
A reality TV "star" killed a U.S. Coast Guard technician in a drunken wrong-way collision on a Virginia highway, authorities said.

Melissa Hancock, 25, has been charged with driving while intoxicated and maiming following the death of Petty Officer 2nd Class Daniel Dill, 29, news outlets reported.

Hancock appeared on Lifetime's "Little Women: Atlanta," a reality show that focuses on women of short stature.

Dill was a Logan Township, New Jersey, native who was stationed in Portsmouth as an information systems technician.

Virginia State Police said Hancock struck Dill head-on around 2 a.m. Nov. 4 on Interstate 264. He died of his injuries the next day.

Dill had been on his way to pick up his wife and her friends, who had been celebrating her birthday. Dill, who didn't drink, had offered to drive the group so no one had to worry about driving home after drinking.

Hancock told a state police trooper she drank two to four mixed drinks at a local nightclub about an hour before the crash, investigators said. Hancock's blood alcohol content tested at 0.112 percent two hours after the crash, exceeding the 0.08 legal limit, authorities said. Hancock is 4 feet (1.2 meters) tall and weighs 77 pounds (35 kilograms), according to a court summons.

"Everyone involved feels horrible about the tragic accident," said Hancock's attorney, Stephen Pfeiffer. "We are investigating the accident and the allegations against Miss Hancock."

Natalie Dill's father, Steven Rocha, told The Virginian-Pilot that his son-in-law was "the most compassionate guy you would ever meet."

"He was the best son-in-law a father could ever have. We loved him as if he were our son."

Dill will be buried with military honors on Saturday.


Most drunk-related accidents occur in the early a.m. hours like this one.  This freak of nature should rot in jail, but they always get away with relatively light sentences.  In our opinion, this is murder, she the life of a promising young man and she needs either life in prison or the death penalty.  This is the only way to reduce the number of drunk-related accidents.

This drunk driver will be doing plenty of hand cocks while in jail.








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VIRGINIA BEACH, VA

Natalie Dill planned to celebrate her 27th birthday by going out to dinner with her husband and family and then heading to the Oceanfront with friends.

Her husband, Daniel Dill, didn’t drink. He told her to go have a good time and offered to pick the group up later so they didn’t have to worry about driving home.

Dill was on his way to pick up his wife and her friends about 2 a.m. Saturday when he crossed paths with a drunken driver going the wrong way on Interstate 264, according to court documents.

A woman driving a 2011 Cadillac struck his 2009 Mazda head-on in the eastbound lane, just west of the Birdneck Road exit, according to a police summary of the incident.

Dill died just after midnight Sunday at Sentara Virginia Beach General Hospital. The 29-year-old had suffered a major spinal cord injury, his brain was severely swollen, and he had internal injuries and broken bones, according to his family. They made the decision to withdraw care once doctors explained his prognosis.

The Cadillac’s driver, Melissa Ann Hancock, was charged with DUI maiming immediately after the crash, but that charge may be upgraded, said Macie Allen, a spokeswoman for the commonwealth’s attorney.

Hancock, 25, who has been featured on the reality TV show ”Little Women: Atlanta,” told a state police trooper she had two to four mixed drinks at Peabody’s Nightclub at the Oceanfront about an hour before the crash, the police summary said. Her blood alcohol content tested at 0.112 two hours later, the summary said. Hancock is 4 feet tall and weighs 77 pounds, according to a court summons.

Hancock was granted a $15,000 bond during a court hearing Tuesday, and was ordered to wear a GPS device that also monitors alcohol use.

Prosecutors objected to the bond decision and have filed an appeal, Allen said.


Hancock works in insurance sales and has a prior marijuana conviction on her record, according to a bail determination sheet in her court file. The document said she has lived in Virginia Beach for four weeks and began working for GEICO three weeks ago.

“Everyone involved feels horrible about the tragic accident,” said Hancock’s attorney, Stephen Pfeiffer. “We are investigating the accident and the allegations against Miss Hancock.” Pfeiffer said he was aware that his client had been involved in a reality television show, but did not know which one.

Natalie Dill’s father, Steven Rocha, said his son-in-law was “the most compassionate guy you would ever meet.”

“He was the best son-in-law a father could ever have. We loved him as if he were our son.”

Dill was a petty officer 2nd class in the Coast Guard, and lived in Portsmouth with his wife and their two dogs. He joined the Coast Guard in 2006 after graduating from high school in Logan Township, N.J., following in the footsteps of his older brother. His younger brother would later join them.

“He was the most clean-cut guy,” Dill’s father, Chris Dill Sr., said. “He never drank or smoked, and you had to really push his buttons to get him to curse. There wasn’t a confrontational bone in his body.”

Steven Rocha said his daughter was devastated by her husband’s death. The couple met several years ago at a sushi restaurant in Suffolk where Natalie was waiting tables at the time. Dill had come in there with some Coast Guard buddies and soon became a regular.

“Dan didn’t even like seafood,” Rocha said. “He just kept going back to see her.”

The couple married after about a year of dating. They bought a house a couple of years ago, and were hoping to start a family soon, Chris Dill said.

“They were an awesome couple,” he said.




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VIRGINIA BEACH, Va. (WVEC) -- Virginia State Police say a man is dead following a crash that was caused by a wrong-way driver.

The crash happened just after 2 a.m. on November 4 west of Birdneck Road on I-264 in Virginia Beach.

Police say 25-year-old Melissa Hancock was traveling westbound on I-264 in the eastbound lanes when she struck a 2009 Mazda head-on.

The driver of the Mazda, Daniel Dill, was taken to Virginia Beach General Hospital and died of his injuries the following day.

Family members said Dill's injuries were too serious.

"There's no words to explain what we're going through," said Daniel's father-in-law, Steven Rocha. "This isn't something I'd wish on anyone."

Dill was a member of the Coast Guard for 11 years. He lived in Portsmouth with his two dogs and wife of seven years.

During the morning of the crash, Dill was a designated driver and headed to pick up his wife from a night out, Rocha explained.

"We want everybody to know what a good man Daniel Dill was and is. What a great son-in-law he was and how much joy he brought to our family," said Rocha.

Hancock, who was a member of a reality show called "Little Women: Atlanta" is charged with DUI/maiming and driving the wrong way.

Court documents revealed that the four-foot, 100-pound woman consumed two to four mixed drinks about an hour before the crash and had a BAC of .112. The legal limit in Virginia is .08.

Hancock was released from the Virginia Beach Jail on a $15,000 bond.

She is due back in court for a bond appeal hearing next Tuesday, according to Kristi Hopkins with the Commonweath Attorney's office.

The office is reviewing the case for additional charges.

Rocha told 13NewsNow that prosecutors told him they will pursue a DUI Manslaughter charge.

"She's just going to have to pay the consequences for that decision," said Rocha. "And unfortunately Daniel paid the consequence for that, too."

Sewer maintenance worker, 27, killed after inflatable sewer plug exploded on Pavarotti Terrace inside the Sun Valley East development in Boynto Beach, Florida










John Thomas Dillon, 27, was killed Nov. 10, 2017 after an explosion at Sun Valley East, west of Boynton Beach. (Handout: Clem Winke)  







‘Freak’ air bag rupture kills man working on sewer line west of Boynton

Alexandra Seltzer Palm Beach Post Staff Writer
Monday, Nov. 13, 2017 Southern Palm Beach County




 




John Thomas Dillon IV, 27, spent his days working at The Plumbing Experts in Delray Beach and his nights at school studying his trade.

This is what he wrote in his Facebook profile:

The 27-year-old had been with the company only two years when he was killed Friday afternoon in a “freak accident” at the Sun Valley East retirement community west of Boynton Beach, said the company’s owner, Clem Winke.

Dillon was one of four men working to repair a broken storm sewer line that had caused a small sinkhole. The crew tried plugging a pipe with an 18-inch air bag to stop water from the community lake from coming in to the 8-foot wide by 3-foot deep hole.

But the air bag exploded, killing him.


Three days later, Winke still doesn’t know what went wrong.


“I wasn’t there but I think once the air bag burst then the water behind it pushed the air bag out of the pipe and hit John,” said Winke, whose company has been in business for 42 years.


Winke said he spent Friday talking with investigators from the Occupational Safety and Health Administration and has met with Dillon’s family.


“We’ve been very open and transparent,” he said.


Winke said he’s never heard of this happening and has never had an employee injured in a major accident.


When reached by phone, Dillon’s mother, Lynda Scarberry Dillon, declined to comment.


“It’s a real tragic loss here at the company,” Winke said. “Everybody is very sad. A lot of people were crying. He was very well liked by everybody and a great guy.”


Dillon of Fort Lauderdale was in the plumbing apprenticeship program, which lasts four years. As part of that, he went to school two nights a week to learn the trade and worked during the day. He recently had been promoted to service plumber and had his own truck.


The explosion happened just before 2 p.m. Friday on Pavarotti Terrace just north of Boynton Beach Boulevard between Military Trail and Jog Road. Dillon died at the scene. Two other workers were treated for injuries but didn’t have to go to the hospital, said Palm Beach County Fire Rescue Capt. Albert Borroto.


Jean Manuel, 78, who lives in Sun Valley East, said she heard the explosion.


“I’m right in front of it,” she said. “They were standing in my yard.”


Manuel said there was a small caved-in part of the street where it wouldn’t be safe to drive so community leaders put cones around it. She said she hadn’t seen anyone work on the hole Monday morning.


Winke said the air bag procedure is standard and the only way to fix something that’s under water.


“You have to stop the water from coming in,” he said.


Winke said the crew was working with rented equipment and used the air bag to stop water from the lake from entering the pipe and filling the hole. They were also using a pump to get the water out but the ground water was coming in faster than the pump could pump it out. They turned to the air bag procedure to stop the water from coming in. Then the pump would be able to work.


“I don’t know why it burst,” he said.



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SUBURBAN BOYNTON BEACH, Fla. - One person died in a construction accident in suburban Boynton Beach Friday afternoon, according to Palm Beach County Fire Rescue.

The incident happened just before 2 p.m. on Pavarotti Terrace inside the Sun Valley East development, fire rescue said.

The location was in a construction drain area where an airbag was being used and it exploded, first responders said.

The name of the victim has not been released.

Two other workers were treated at the scene but did not require hospitalization, fire rescue said.

Some residents who live in the development said water leaks happen frequently so crews are often seen working on drainage problems.

"When you mention the word water around here everyone's like, 'don't mention the word water because we have leaks, everything leaks.' So now that it went to this extent it really worries me, it really does," said resident Patricia Flynn.

The Palm Beach County Medical Examiner was called to the scene and will determine the cause of the worker's death.


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BOYNTON BEACH, FL - 


A man died Friday afternoon in an industrial explosion at a retirement community west of Boynton Beach, the Palm Beach County Sheriff’s Office said.


A crew, possibly one of plumbers, was working in an 8-foot-wide, 3-foot-deep hole the Sun Valley East condominiums near Boynton Beach Boulevard and Military Trail when the explosion happened just before 2 p.m., sheriff’s spokeswoman Teri Barbera said.


The man — whose identity was not available Friday evening — had been working near a construction drain when an air bag exploded, said Capt. Albert Borroto, spokesman for Palm Beach County Fire Rescue.


Paramedics confirmed he was dead at the scene, in the 9700 block of Pavarotti Boulevard. Two additional workers were treated at the scene, Borroto said. A crew from the Palm Beach County Medical Examiner arrived at the community just before 3:30 p.m.


A 68-year-old woman, one of several out in the community in the explosion’s aftermath Friday afternoon, said she was putting things into her car in the community when she heard “a loud bang” clearly from about a block away.

“The next thing I know, the street was full” of emergency vehicles, she said.

Barbera said no roads outside Sun Valley East were blocked as authorities investigated the incident.



Sun Valley East is a 55-plus community of about 500 condominiums built in the mid-1980s.


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Explosion Kills Worker at Florida Retirement Community
Authorities say a man was killed in an explosion at a Florida work site.


November 10, 2017

Explosion Kills Worker at Florida Retirement Community


BOYNTON BEACH, Fla. (AP) — Authorities say a man was killed in an explosion at a Florida work site.


The Palm Beach Post reports that blast occurred Friday afternoon in a Boynton Beach retirement community.


The Palm Beach County Sheriff's Office says a crew had been working in an 8-foot-wide, 3-foot-deep hole at Sun Valley East. The victim had been near a construction drain when an air bag his crew was using exploded.


Besides the one fatality, two other workers received medical treatment at the scene. It wasn't immediately clear what the crew had been working on.




These inflatable drain plug explosion are not unusual, if the workers do not follow the proper safety procedures.  See a case study below and some recommendations on how to prevent such tragic accidents.

Sewer Worker Dies When Inflatable Sewer Plug Bursts in Washington, D.C.



SUMMARY

A sewer maintenance worker died while working inside a sewer gate chamber. An inflatable sewer plug downstream from the victim was overinflated and burst allowing sewage to flood the chamber. The worker was part of a 10-man sewer maintenance crew assigned to divert the flow of sewage in a branched, 6-foot diameter sewer main. The crew lowered an inflatable sewer plug into a diversion gate chamber and anchored it several feet into the right leg of the sewer main. An air line, connected to an air compressor at the surface, was attached to an air valve on the inflatable sewer plug. The victim, who was operating the compressor, left it running unattended and entered the gate chamber to inspect the sewer plug. Within a few minutes the plug burst, forcing water and air into the chamber, fatally injuring the worker. NIOSH investigators concluded that, in order to prevent future similar occurrences, employers should:
  • use slide gates instead of, or in conjunction with, inflatable sewer plugs
  • follow sewer plug manufacturers' recommendations and other safety precautions on the installation and use of inflatable sewer plugs
  • develop and implement specific confined space entry and work procedures.

INTRODUCTION

On November 29, 1989, a 45-year-old male municipal sewer maintenance worker died while working inside a 12-1/2-foot-deep sewer chamber when an inflatable sewer plug burst, allowing sewage to flood the chamber. On November 30, 1989, officials of the Water Pollution Control Federation (WPCF) notified the Division of Safety Research (DSR) of the death, and requested technical assistance. On December 14, 1989, a research industrial hygienist from DSR traveled to the incident site to conduct an investigation. The DSR investigator met with a representative for the municipality, and reviewed a report from the OSHA compliance officer assigned to this case. Photographs and diagrams of the incident site were obtained during the investigation.
The employer involved is a municipal utility with 1100 public works employees. Approximately 200 of the employees are sewer maintenance workers and wastewater treatment plant operators. The victim had been employed by the municipality for 23 years as a sewer maintenance worker. The public works department has a full-time safety and health manager and a full-time safety and health specialist. A safety policy exists but there are no confined space entry procedures for sewer maintenance workers. However, the victim and other sewer maintenance workers had participated in a 2-hour training session on confined space safety within the past year.

INVESTIGATION

A crew of 10 sewer maintenance workers (including the victim) was assigned the task of diverting the flow of sewage in a 6- foot- diameter sewer main branch in preparation for installing some adjustable weirs (weirs are flow diversion devices). Access into the sewer main was provided by a diversion gate chamber located below a concrete drive area in an underground parking garage for a large building. The gate chamber was 12½ feet deep and approximately 10 feet wide by 16 feet long and located on top of a sewer main diversion branch which formed a "Y" configuration (Figures 1 and 2). The chamber had a 2-foot by 4-foot hatch with hinged steel covers and steel rungs built into the side of the chamber for access. The bottom of the chamber consisted of a removable aluminum grating over the sewer main and a concrete floor between the branches of the "Y". The top of the grating in both branches was approximately 12 inches above the surface of the sewage, which normally flows at a height of 5 feet. The chamber housed a 3/8-inch-thick, 6-foot by 9½-foot aluminum slide gate in each branch of the sewer main (Figures 1 and 2). The purpose of the slide gates is to divert the flow of sewage for sewer maintenance purposes. Since the slide gates had not been operated for several years they had become stuck in the "open" position. Therefore, the crew used an inflatable sewer plug to block off the right branch of the sewer main, diverting all of the flow to the left branch of the sewer main (Figures 1 and 2). 

The workers installed the sewer plug by lowering the deflated plug into the gate chamber, floating it several feet downstream into the right branch of the sewer main and anchoring it in place with a tethering line. An air line connected to an air compressor (rated at 90 PSI) on the surface was attached to an air valve on the sewer plug. The victim, who was initially above ground, began operating the compressor to inflate the plug and checking a pressure gauge on the air line at the compressor to ensure that the pressure in the sewer plug did not exceed 7 PSI (according to the sewer plug manufacturer's recommendations). The foreman sent a sewer maintenance worker (co-worker) into the chamber to check on the plug. The foreman then walked about 30 feet away to examine a manhole. The victim left the compressor running unattended (for unknown reasons), entered the gate chamber, and began inspecting the installation of the sewer plug. By this time, the plug had expanded and closed off the right branch of the sewer main. 
The diverted sewage was flowing at its normal height of 5 feet into the left branch of the sewer main. The bottom edge of the slide gates were level with the surface of the sewage flow. The victim was standing on the grating between the plug and the right sewer branch slide gate, while the co-worker was standing on the grating in the left sewer branch on the opposite side of the right branch slide gate (Figures 1 and 2). A few minutes later (after the compressor had been running for approximately 20 minutes), the plug burst, forcing sewage and air into the chamber and out the access hatch. The force of the explosion broke and lifted the grating the victim was standing on, bulged out (approximately 6 inches) the 3/8-inch-thick aluminum slide gate in the right sewer branch, and broke a fluorescent light fixture on the ceiling of the parking garage 10 feet above the chamber access hatch. 

Evidence gathered after the incident suggests that the force of the explosion pushed the victim up against the concrete ceiling of the chamber. The victim then fell into the right branch of the sewer main and was washed downstream with the surge of sewage. The co-worker was not injured and was able to climb up the chamber rungs where he was helped out by the foreman. 

The rescue squad from the city emergency medical service (EMS) was notified and arrived at the site in 5 minutes. After a 40- minute search, EMS personnel discovered the body of the victim submerged under the sewage flow, against the bar screen of a sewage pumping station approximately 200 yards downstream from the gate chamber. EMS personnel noted that the victim was dead at the scene.

CAUSE OF DEATH

The coroner listed the causes of death as asphyxiation by aspiration of food bolus, and blunt force injuries.

RECOMMENDATIONS/DISCUSSION

Recommendation #1: Where worker entry into sewers is necessary, slide gates should be used instead of, or in conjunction with, inflatable sewer plugs. 

Discussion: Slide gates provide a more positive method for diverting/controlling the flow of sewage for maintenance purposes, and should be utilized where possible. In this incident, because the slide gates had not been used for quite some time, they had become inoperative. Slide gates of this type should be properly maintained and operated regularly to ensure their proper function. 

Recommendation #2: Employers should ensure that sewer workers follow all sewer plug manufacturer's safety recommendations and other safety precautions relevant to the safe installation and use of inflatable sewer plugs. 

Discussion: Although some of the plug manufacturer's recommendations were followed, an important precaution for the use of this type of sewer plug was not followed. The following precaution is stated on the first page of the sewer plug installation instructions: "Under no circumstances should anyone be in the pipe or manhole when the stopper (plug) is being inflated or deflated." The victim left the air compressor running unattended. He had been trained in the manufacturer's recommendations which stipulate that this size plug was to be inflated to only 7 PSI. 

The air pressure inside the plug may have exceeded the recommended pressure of 7 PSI, thus causing the plug to rupture. (The burst test pressure for this plug is 21 PSI.) Another safety recommendation given by the plug manufacturer (also stated on the first page of the sewer plug instructions) was not followed: "When working under submerged conditions, as a safety precaution, the stopper should be filled with water to its appropriate pressure." According to the manufacturer, filling the plug with water instead of air when the plug is submerged will greatly reduce the force of a rupture.
Recommendation #3: Employers of sewer maintenance workers should develop and implement a comprehensive confined space entry program as outlined in NIOSH publication 80-106, "Working in Confined Spaces," and 87-113, "A Guide to Safety in Confined Spaces." 

Discussion: Confined space entry procedures should address each type of confined space that sewer maintenance workers are required to enter (i.e., diversion chambers, wet wells, lift stations, utility vaults, sewer manholes, sewer mains, etc.). At a minimum, the following items should be addressed:
1. Is entry necessary? Can the assigned task be completed from the outside? For example, a sewer monitoring camera could be lowered into a sewer diversion gate chamber which would allow workers to perform inspections from the outside.
2. Is a confined space safe entry permit issued by the employer before each confined space is entered.
3. Are confined spaces posted with warning signs and are confined space procedures posted where they will be noticed by employees?
4. If entry is to be made, has the air quality in the confined space been tested for safety based on the following criteria:
  • Oxygen supply at least 19.5%
  • Flammable range less than 10% of the lower explosive limit
  • Absence of toxic air contaminants
5. Have employees and supervisors been trained in the selection and use of:
  • respiratory protection
  • lifelines
  • emergency rescue equipment
  • protective clothing
6. Have employees been trained for confined space entry?
7. Are confined space safe work practices discussed in safety meetings?
8. Have employees been trained in confined space rescue procedures?
9. Is ventilation equipment available and/or used?
10. Is the air quality tested when the ventilation system is operating?


The above items may not have had a direct bearing on preventing this fatality. However, the incident was a routine sewer maintenance procedure having the potential of several additional and more common types of confined space work hazards (i.e., oxygen-deficient atmosphere, toxic and flammable vapors, etc.). These hazards would be safely controlled by following established NIOSH recommendations on working in confined spaces.

REFERENCES

National Institute for Occupational Safety and Health, Criteria for a Recommended Standard ... Working in Confined Spaces. DHHS (NIOSH) publication number 80-106, December 1979.
National Institute for Occupational Safety and Health, A Guide to Safety in Confined Spaces. DHHS (NIOSH) publication number 87-113, 1987.
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Pipefitter/Project Foreman Died When Struck by Ruptured Sewer Pipe/Mechanical Plug

Michigan Case Report: 07MI024
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Summary

On March 30, 2007, a 53-year-old male pipefitter and project foreman for a mechanical contractor died when a storm sewer pipe and inflatable plug dislodged and struck him causing fatal injuries to his chest and abdomen. The three-person crew was in a county park's lift station to replace two pumps. The water was pumped down and the decedent and Coworker #1 went down to the bottom of the manhole to install a mechanical plug into a 26-inch diameter storm sewer pipe that drained into the lift station. The plug was inflated and the water stopped flowing into the station. Coworker #2 was at the top of the 10- x 10-foot manhole monitoring the situation. The decedent and Coworker #1 installed a pump base anchor in the floor directly in front of the mechanical plug they had installed in the sewer line. No blocking or bracing was installed in front of the plug. While the decedent and Coworker #1 were drilling anchor holes in the floor, the wall, sewer pipe and plug exploded into the manhole, striking both employees (Figure 1). The decedent was knocked unconscious and Coworker #1 was thrown across the lift station. Coworkers #1 and #2 lifted the decedent to the 2nd level of the lift station and started CPR. When emergency response arrived, they extricated the decedent from the 2nd level and transported him to a local hospital where he later died.

Pipe plug in broken sewer pipe at base of lift station
Figure 1. Pipe plug in broken sewer pipe at base of lift station
Recommendations:
  • Employers should ensure that workers follow all pneumatic pipe plug manufacturer's safety recommendations and other safety precautions relevant to the safe installation and use of pneumatic pipe plugs.
  • Employers should develop written confined space programs that contain specific procedures for all tasks to be performed and ensure employees follow the procedures.
  • Employers should institute a Health and Safety (H&S) committee as part of their health and safety program.
  • Employers should provide workers with training in the recognition and avoidance of unsafe conditions and the required safe work practices that apply to their work environments.


Introduction

On March 30, 2007, a 53-year-old male pipefitter/project foreman for a mechanical contractor died when storm sewer pipe and inflatable pneumatic plug ruptured and struck him in his chest and abdomen. On the same day as the fatal incident, MIFACE investigators were informed by the Michigan Occupational Safety and Health Administration (MIOSHA) personnel, who had received a report on their 24-hour-a-day hotline that this work-related fatal injury had occurred. On July 10, 2007, MIFACE interviewed the company owner at the company headquarters and was given a tour of the facility. During the course of writing this report, the police report and pictures, fire response report, medical examiner report, and the MIOSHA file and citations were reviewed. The pictures used in Figures 1 and 3 are courtesy of the company owner. Figures 2, 4, 5, and 6 are courtesy of the MIOSHA file.
The employer, a mechanical installation contractor for commercial, industrial, and institutional facilities had been in business for over 25 years. The firm employed 85 individuals, 12 of whom had the same job title as the decedent, project foreman. The decedent had been employed with this firm for 20 years and worked full time. Employees worked 9 hours per day, starting work at 6:00 a.m. and concluding at 4:00 p.m.
The employer had a written health and safety program, but no specific procedures for the task being performed. The company did not have a Health and Safety Committee. The firm participated in the National Associated Builders and Contractors Inc. 2007 Safety Training and Evaluation Process (STEP) program and had been awarded a "Gold Level Achievement Award." The company had a written progressive disciplinary procedure: 1st violation resulted in a verbal warning, the 2nd violation resulted in a written warning, and the 3rd violation resulted in possible termination.
The company's safety director was a health and safety consultant employed by a consulting firm. The safety director had many responsibilities, including conducting regular safety inspections of shop and field operations, as well as holding safety meetings with all employees and conducting safety training of supervisory personnel. The safety director visited company job sites two times per month and provided the company owner a written report on noted violations. Crew foremen were responsible for safety at the job site (instruct crew in proper and safe operation of tools, equipment and procedures for every job) and to correct all noted violations at the time of the consultant's site visit. The foreman was responsible for conducting adequate safety briefings and inspection of tools as well as equipment before any job was started. The crew foreman observed work in progress to ensure that safety precautions were taken at all times, and was required to take immediate steps to correct any unsafe procedure or hazardous condition. The employer, safety consultant, and crew foreman presented health and safety training and topics to company employees. Employees received health and safety training on an annual basis by the safety consultant. The crew foreman was responsible for presenting specific health and safety topics during monthly safety meetings and weekly toolbox talks, and for maintaining training documentation. Supervisors and foreman were responsible for determining if an employee needed retraining.
The company had a written confined space entry program. The decedent had been trained and authorized to use the confined space gas monitor in 1997. A confined space entry permit had been developed to monitor for oxygen, carbon monoxide, and LEL.
At the conclusion of their investigation, MIOSHA Construction Safety and Health Division issued the following Serious citations to the employer:
SERIOUS: ACT 154 ACT OF 1974, 408.1011(a)
An employer should furnish to each employee, employment and a place of employment which is free from recognized hazards that are causing, or are likely to cause, death or serious physical harm to the employee.

The employees engaged in mechanical activities failed to follow the manufacturer’s installation instruction of a Lansas® pneumatic pipe plug. The employees were exposed to serious injury/death when the sewer pipe and pneumatic pipe plug failed.
The employees failed to:

  1. Read the manufacturer’s installation instructions.
  2. Perform head/test pressure calculations.
  3. Install the pipe plug in a clean dry pipe.
  4. Install shoring/bracing in front of the pipe plug to prevent dislodgement.
  5. Check the calibration of the air pressure gauge.
  6. The employees were working in the danger zone.
Method of abatement would be to follow Lansas® manufacturer’s instructions for pneumatic pipe plugs.

SERIOUS: GENERAL RULES, PART 1, RULE 114(2)(g)
An accident prevention program shall, as a minimum, provide for the following: Instruction to each employee who is required to enter a confined space regarding all of the following:
  1. The hazards involved.
  2. The necessary precautions to be taken.
  3. The use of required personal protective equipment.
  4. Emergency equipment.
  5. The procedures to be followed in an emergency occurs.
Employees engaged in mechanical activities failed to address hazards associated with confined spaces. The employees failed to recognize engulfment hazards, wear a safety harness with a lifeline attached, and have the proper emergency equipment available. The employees were exposed to injury and drowning hazards when the sewer pipe and plug failed.
SERIOUS: TOOLS, PART 19, RULE 1931(1)(a)(b)
An employer shall do all of the following: (a) Ensure that an employee has been trained in the use of tools before authorizing their use and (b) maintain, or require to be maintained, tools free of defects that could cause injury to an employee. The employees engaged in mechanical work activities were not properly trained in the installation and use of a Lansas® inflatable pipe plug. The employees were exposed to serious injury/death when the sewer pipe and plug failed.
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Investigation

The company for whom the decedent (Company A) worked had been contracted by a county parks department to replace two old and failing pumps and a ladder at a park lift station. Company B was subcontracted to install the ladder. The park's storm water drains into the lift station and the lift station then lifts the water to a local river. The manhole had corrugated metal walls. The base of the lift station was 30 feet deep. There was a 2nd level, accessible by ladder approximately 15 feet down. The 2nd level had a 2-foot walk around. A ladder provided access to the base of the manhole where the work was to be performed.
On the day before the incident, Company A's field superintendent conducted an informal inspection of the lift station and found nothing out of the ordinary. The superintendent did find that the sewer pipe, which was installed in the 1920s, was larger than expected.
Company A usually used Cherne® Best Ball 18"-1 ½" mechanical plugs, installing them per manufacturer's instructions. Because Company A did not have the properly sized plug for the pipe, the field superintendent borrowed a Lansas® 24-48-inch pneumatic pipe plug from a local contractor. According to the MIOSHA file, no safety instructions were given to the Company A employee who picked up the Lansas® plug. The company from whom the plug was rented did not have records of gauge calibration. According to the MIOSHA file, if the gauges appeared to be faulty, they were discarded and replaced. The superintendent did not obtain any manufacturer's installation instructions from the local contractor. The decedent and Coworker #1 transported this larger plug to the lift station.
The decedent and Coworker #1 arrived at the company shop location at 5:45 a.m. They loaded a truck with a generator, air compressor, air line, safety harnesses, hoist block (chain fall), test equipment for air monitoring, and other miscellaneous tools. They arrived at the worksite at approximately 7:30 a.m. The weather was sunny and chilly.
The decedent and Coworker #1 began to unload the truck. They set up a 2-inch sump pump. After evaluating the air in the confined space, the decedent descended into the manhole as Coworker #1 lowered the sump pump into manhole. The decedent placed it in the rear corner of work area. They turned on the pump and water began to discharge through a hose onto the above ground street.
The decedent left the work site and traveled to another nearby project to pick up rubber thigh-high boots. Coworker #1 began to set up the chain fall, hooked up the test plug and began to lower it into the manhole, and set up the air compressor, generator, and tools. He also opened up the electrical cabinet.
At approximately 8:00 a.m., Coworker #2 arrived at the jobsite (Figure 2). Coworker #1 and Coworker #2 began to discuss the work plan. A representative from the county's park department arrived and asked "What are you doing today?" and "What is the game plan?" Coworkers #1 and #2 responded and then prepared for the confined space documentation and equipment. They went through the checklist, turned on the atmospheric testing equipment (sniffer) and lowered it down into the manhole. Coworker #2 checked the readings from the sniffer and verbalized the readings.

Lift station building
Figure 2. Lift station building
The decedent arrived with the boots as Coworkers #1 and #2 were finishing the confined space readings. The decedent and Coworker #2 put on the rubber boots. At approximately 9:00 a.m., the decedent and Coworker #2 entered the manhole while Coworker #1 stayed above ground at the open manhole to observe and listen. Coworker #1 released the hoist while lowering the plug.
With constant verbalization and teamwork between the three men, it took approximately 15 to 17 minutes to lower the test plug into the manhole and to place it into the sewer pipe. Coworker #2 used the shovel to clean the 26-inch cast iron sewer pipe. The decedent guided the plug into the sewer pipe while Coworker #2 used the wooden handle of the shovel to help insert the plug. After the pipe plug was positioned, they told Coworker #1 to turn on the air compressor to inflate the plug. Coworker #1 did so and monitored the air gauge. Employee statements provided to the MIFACE researcher stated that the plug was pumped per manufacturer's recommendations to eight pounds. Statements made to the MIOSHA compliance officer differed from the employee statements given to the MIFACE researcher. The employee statements given to the MIOSHA compliance officer at the time of the investigation indicated that the employees did not know the required plug inflation pressure or the plug's inflation pressure at the time of the incident. The decedent and Coworker #2 stayed in the bottom of the lift station and yelled up to Coworker #1 when the water stopped flowing from the sewer pipe. Coworker #1 communicated to the decedent and Coworker #2 that all systems were good. Coworker #1 then collected the necessary tools in a bucket, and while watching the air gauge, he lowered the bucket to the crew below.
Coworker #1 was at the top of the manhole monitoring the situation and the pump. The decedent and Coworker #2 then proceeded to install a pump base anchor in the floor directly in front of the mechanical plug they installed in the sewer line. No blocking or bracing was installed in front of the plug as required by the manufacturer to protect the workers in case of a plug failure
Coworker #2 used the shovel to clear six to eight inches of sand away from the working area to determine what kind of anchors were required. The 2-inch sump pump continued to keep the water level under control. They decided what anchors were needed and then headed back up out of the manhole.
Employees from Company B arrived at the pump house. Company B's employees entered the well house and descended to the second level to discuss the installation procedure for the new ladder. A Company B employee reviewed the ladder installation procedure with the decedent and then left the jobsite. The decedent left the jobsite to obtain materials needed for the anchor and ladder installation. Coworker #2 went back down into the manhole after discussing the game plan with the Company B. Coworker #2 chopped out the old ladder and it was pulled out and then the new one was dropped into the manhole. Coworker #2 exited the manhole and Company B employees entered and after determining that the ladder was properly set, left the manhole.
When the decedent arrived back at the jobsite, the decedent and Coworker #2 descended to the lower level of the manhole to install the anchors. They took a small drill with them. They discovered the drill had the wrong size bit. After discussing various options, the decedent and Coworker #2 still could not drill with the small drill. They yelled up to Coworker #1 to get the big drill, which was already loaded and ready to go. Coworker #1 lowered the drill down while continuing to monitor the air.

Manhole wall at location of pipe explosion
Figure 3. Manhole wall at location of pipe explosion
Within the next 60 seconds, they noticed the sump pump was not keeping up and water was coming in and had risen to their ankles. Water was leaking from the wall, not out of the pipe. The decedent knelt down to drill the second hole with the drill. Coworker #2 saw brownish water in the bottom corner near the plug. Coworker #2 told the decedent to move out of the way, he would take care of the anchor. He was on his knees 15 inches away from the decedent.
When Coworker #2 knelt down, he felt air by his face as the force of the explosion picked him up and blew him to the other side of the manhole (Figure 3). Coworker #2 was uncertain if he was knocked unconscious or if so, the length of time he was unconscious. He got up from a fetal position and water in the manhole was chest high. As he came to, he went to the decedent who was visibly injured. Coworker #2 looked up toward the top of the manhole, but it was "raining" air - the air was filled with white powder and dust particles. Coworker #1 could not see the two individuals in the manhole. Coworker #2 yelled to Coworker #1,"we're in trouble." He instructed Coworker #1 to call 911, and then to call the company office.
Coworker #2 had difficulty in pulling the decendent above the water because of the height of the water/mud/sand. Coworker #2 told Coworker #1 to turn the big pumps on; Coworker #1 complied. Coworker #2 asked Coworker #1 for a pipe strap so he could hoist the decedent. He lassoed the decedent under the arms to pull him up. Coworker #1 began hoisting the decedent out of the water while Coworker #2 yelled instructions from below. Coworker #2 ascended to the 2nd level and laid the decedent on two 2x10 boards. He asked Coworker #1 to come down to the 2nd level because he realized the decedent was not breathing. Coworker #2 held the decedent against his leg as Coworker #1 administered CPR. The decedent began to breathe.
The police arrived first. Then an EMT arrived and inquired if it was sewage in the hole. Coworker #2 responded that it was groundwater. When individuals from a local fire department technical rescue team arrived, they assumed command. After assessing the situation, they entered the manhole, assisted the EMT and asked Coworkers #1 and #2 to leave. The rescue workers moved the decedent from the boards to a stokes basket and the decedent was lifted from the manhole. EMT personnel transported the decedent by ambulance to a local hospital where he died several hours later.

Pipe and plug at base of manhole
Figure 4. Pipe and plug at base of manhole after water was pumped

pipe plug
Figure 5. Picture of pipe plug after it was removed from the manhole
The pipe plug was found laying on the floor of the manhole and recovered. When the water was pumped out, the plug in the pipe could be seen (Figure 4). Part of the concrete pipe was still attached to the plug. The plug was over eight feet long and had metal plugs on both ends (Figure 5). Pictures indicate that the concrete gave way causing the plug to shoot out due to water pressure (Figure 3). The plug had an approximately 16-inch cut that appeared to happen when the pipe broke. The cut looked as though it was done by a sharp object and not from blowing under pressure (Figure 6). The entire plug would have been inside of this pipe prior to it blowing out.

16-inch cut on pipe plug
Figure 6. 16-inch cut on pipe plug
The MIOSHA file documentation indicated that both surviving Company A employees had never used or installed this type of large inflatable plug before, had not read the manufacturer's instructions (including installation instructions), and had not received any formal training about this plug from their employer. They stated they had used the smaller pipe plugs that their company owned many times before and that they did not install this pipe plug any differently from their work practice in the past. Company A had the manufacturer's installation instruction for the pipe plugs usually used at the company's office.
The employees also indicated that they did not know if the pressure gauge on the rented pipe plug had been calibrated. The work crew had not made any back test pressure calculations or head pressure/back pressure calculations.
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Cause of Death

The cause of death as stated on the death certificate was multiple blunt injuries of chest and abdomen. Toxicology was negative for alcohol and illicit drugs.
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Recommendations/Discussion

Employers should ensure that workers follow all pneumatic pipe plug manufacturer's safety recommendations and other safety precautions relevant to the safe installation and use of pneumatic pipe plugs.
The employer usually used Cherne® pipe plugs, but for this worksite, they used a Lansas® pipe plug. The employer had the Cherne® safety literature at the company headquarters, but had not obtained any Lansas® pipe plug literature.
MIFACE conducted an Internet search and found safety information for both the Lansas® and Cherne® pipe plugs. The Lansas® Products website (http://www.lansas.com/index.htm) had both written safety instructions and viewable safety videos (in both English and Spanish). The Cherne® Safety Manual may be found at: http://www.cherneind.com/data/. (Link updated 3/26/2009) Click on Literature, and scroll down to Safety Information.
The company and the safety director should obtain and review the safety literature for any pipe plugs they use and ensure that the safety protocols are understood and followed. Safety precautions identified in the installation instructions for the Cherne® plugs and the Lansas® pipe plug used in the incident were strikingly similar. Table I highlights some of these precautions.
Table I
Cherne Pipe Plugs Lansas Pipe Plug
Death/bodily injury may result if plug failsSame
Read and understand installation instructions prior to useSame
Determine back-test pressuresSame
Always use calibrated gaugesRequired use of calibrated gauges
Insert plugs in clean dry pipesSame
Unclean pipes may affect holding capabilities of pipe plugsSame
Stay out of Danger ZoneSame
Never rely on pipe plugs as the only means to prevent injury. Bracing is required.Always block/brace to prevent movement of pipe plugs.
The crew stated to the MIOSHA compliance officer that they installed the Lansas® plug in the same manner as they would have installed the Cherne® plug (the plug they usually used). The "normal" manner was in violation of the Cherne® Safety Instruction manual. For example:
  • The decedent and his coworker were in the danger zone during plug installation. The danger zone is the area that exists in front of the plugged pipe opening in an area, which expands outwardly in a cone shape).
  • The employer did not consult a registered professional engineer for the design, construction, and maintenance of an operational backup system to safely stop a dislodged plug, and the pipeline media that will discharge upon plug failure, to protect employees while performing the pump/ladder replacement working in the danger zone. Blocking/bracing must be used to prevent the movement or complete dislodging of pipe plugs. Employers should consult the engineer on a case-by-case basis.
The employees indicated that no water was flowing from the pipe after the plug was inflated. This may have placed undue pressure on the pipe, potentially contributing to its failure. Although it is unknown if the plug was over inflated, over inflation will not provide a better seal and the plug may rupture catastrophically and dislodge at high velocity.
Employers should develop written confined space programs that contain specific procedures for all tasks to be performed and ensure employees follow the procedures.
A confined space means any space having a limited means of egress that is subject to the accumulation of toxic or flammable contaminants or has an oxygen deficient atmosphere. Confined or enclosed spaces include, but are not limited to, storage tanks, process vessels, bins, boilers, ventilation or exhaust ducts, sewers, underground utility vaults, tunnels, pipelines, and open top spaces more than four feet in depth such as pits, tubs, vaults, and vessels.
Some of the company's confined space protocols were followed, for example, evaluating the air prior to entry and having an employee available in the immediate vicinity to assist in rendering assistance. A hazard assessment of a job that requires working in a lift station manhole should identify possible engulfment if the plug or wall should fail. With this hazard identification, the confined space procedure should identify that safety harnesses be worn by each of the employees in the manhole. Although the wearing of the safety harnesses would not have prevented the fatality, the rescue of the injured worker would have proceeded more quickly and at less risk to the injured.

Employers should institute a Health and Safety (H&S) committee as part of their health and safety program.

An H&S Committee, comprised of both management and hourly employees provides a forum for management and employees to regularly discuss health and safety issues in the workplace. An H&S Committee is an important way for employees to help manage their own health and safety and assist the employer in providing a safer, healthier workplace. The formation of the Committee provides a process for open communication on health and safety issues and enhances the ability of employees and management to resolve safety and health concerns reasonably and cooperatively.
Much of the potential value of an H&S Committee can be lost without careful development of the purpose, functions and activities of the Committee. The Committee will function effectively only after the need for the committee is recognized and employees, supervisors and managers welcome its services. At their worst, Health and Safety Committees can be a "negative-minded" group confining their approach primarily to (after-the-fact) placing of blame. However, at their best, they can become an effective tool to help prevent unsafe practices and conditions, reduce the risk of injury and illnesses and to help motivate employees and supervisors to become actively involved.
MIOSHA has several resources that can be accessed for development of an effective Health and Safety Committee. The Good Safety and Health Programs are Built with Good Safety Committees brochure details the advantages of having an effective Health and Safety Committee (www.michigan.gov/documents/cis_wsh_cet0140_103132_7.pdf). (Link no longer available 4/21/2009) The MIOSHA Safety and Health Toolbox contains materials that focus on the major components of a health and safety system. Module 2 of the Toolbox focuses on employee involvement and contains several resources for Health and Safety Committee development (http://www.michigan.gov/lara/0,4601,7-154-61256_11407_15317-124535--,00.html) (Link updated 4/1/2013).
The State of Wisconsin "Guidelines for Developing an Effective Health and Safety Committee" (www.doa.state.wi.us/docs_view2.asp?docid=665) and the Canadian Centre for Occupational Health and Safety, Occupational Safety and Health Answers: Health and Safety Committees (www.ccohs.ca/oshanswers/hsprograms/hscommittees/) both provide valuable resources and a framework for selection of H&S Committee membership, purpose, function and activities.

Employers should provide workers with training in the recognition and avoidance of unsafe conditions and the required safe work practices that apply to their work environments.

Employers should ensure that all employees are trained to recognize and avoid hazardous work conditions. Employers should also ensure that the training in recognizing and avoiding hazards is coupled with employer assessment that workers are competent in the recognition of hazards and safe work practices.
Because jobsite conditions change on a daily basis, MIFACE recommends that employers discuss the day's work with the employees prior to the start of the work to discuss the day's work. This could be accomplished in daily and weekly "tailgate" talks, covering applicable health and safety issues, weather issues, equipment issues, etc.
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References

MIOSHA standards cited in this report may be found at and downloaded from the MIOSHA, Michigan Department of Labor and Economic Growth (DLEG) web site at: http://www.michigan.gov/mioshastandards. MIOSHA standards are available for a fee by writing to: Michigan Department of Labor and Economic Growth, MIOSHA Standards Section, P.O. Box 30643, Lansing, Michigan 48909-8143 or calling (517) 322-1845.
  • MIOSHA Construction Safety and Health Standard, Part 1, General Rules.
  • MIOSHA Construction Safety and Health Standard, Part 622. Control Measures For Hazardous Atmospheres In Confined Spaces For Construction.
  • NIOSH FACE REPORT #9017. Sewer Worker Dies When Inflatable Sewer Plug Bursts in Washington, D.C. Internet Address: https://www.cdc.gov/niosh/face/In-house/full9017.html
  • Cherne Industries. Internet Address: http://www.cherneind.com/ (Link updated 3/26/2009)
  • Lansas Products. Internet Address: http://www.lansas.com/