March 2, 2011
Ammonia leak from storage tank vent
It is good that the detector worked as intended. Many times, gas detectors are unreliable for detecting leaks. Some companies are now using computer modeling to determine the number of detectors and their required placement. How sure are you that your detectors will work as intended?
Read the article about the leak in this link.
March 1, 2011
Sulphuric acid tanker leak kills a woman
Read the article in this link.
Use of HF in refineries
"A hydrofluoric acid leak from an oil refinery in Ohio last week sent a worker to the hospital and required the use of a “water cannon” to disperse the poisonous gas, underscoring the potentially perilous nature of a chemical used at 50 refineries across the country.
HF is used as a catalyst to make high-octane gasoline, despite the existence of a safer alternative and warnings about the chemical’s extreme toxicity and its ability to travel long distances in a cloud. The Center for Public Integrity and ABC News reported last week that at least 16 million Americans live in the potential path of an HF release".
Read the full article in this link
Read the MSDS of HF in this link.
February 28, 2011
Know the chemicals you deal with
An incident took place when phosphoric acid was inadvertently unloaded into a storage tank containing 12.5% Sodium Hypochlorite solution. The resulting chemical reaction of the two caused a chlorine gas release which affected the field operator. In another incident, a chemical that could be thermally decomposed was inadvertently stored near a steam pipe. The resulting heat transfer from the steam pipe caused a thermal decomposition later caused a fire in the warehouse in which the chemical was stored. Many of us do not treat chemicals with the respect they deserve. MSDS need to be understood by the people who handle chemicals. It is not just a matter of pasting the MSDS in the place where the chemicals are stored. it is a matter of understanding them.
February 25, 2011
Accident to truck carrying hydrogen cylinders
The local news article link is attached.
February 24, 2011
Temporary solutions - permanent problems!
Read about a boiler explosion that occurred due to a temporary change in this link.
February 22, 2011
A Bhopal in the USA?
"Bhopal should have been a wake up call, but it is unclear whether chemical plants around the world are any safer a quarter century after the December 1984 disaster—during which some 40 tons of toxic methyl isocyanate gas leaked from a pesticide plant owned by Union Carbide (now part of Dow Chemical), killing 2,259 people immediately and causing lifelong health problems and premature death for tens of thousands more.
In the U.S., the Occupational Safety and Health Administration (OSHA) oversees chemical and other facilities that deal with hazardous materials, making sure various “process safety” routines are followed so as to “prevent or minimize the catastrophic injury or death that could result from an accidental or purposeful release of toxic, reactive, flammable or explosive chemicals.” Also, in the wake of the 9/11 attacks, the U.S. Department of Homeland Security instituted its own “Chemical Facility Anti-Terrorism Standards” (CFATS) that chemical and other hazardous materials facilities must follow or be shut down.
While this system has worked pretty well in the U.S. so far, some worry that a Bhopal-scale tragedy, whether due to an accident or terrorist attack, could still occur on American soil. For one, water treatment and port facilities are exempt from CFATS altogether, so some of the nation’s largest chemical facilities are not subject to as rigorous standards as they could be. A 2009 bill that passed the House of Representatives but failed to make it through the Senate addressed this and other issues. Supporters are optimistic that the bill in one form or another could resurface in future legislative sessions".
Read the article in this link
February 21, 2011
And the Flare goes "BOOM" at night!
For a good presentation on flare systems see this link
February 19, 2011
Read these process incidents
1. Combustible dust explosion in motorcycle rim manufacturing facility
2. Fire and explosion in LPG facility
3. Fire and explosion in LPG storage
4. Fire and explosion in biotechnology factory (static electricity)
5. Fire in bulk petroleum storage tanks
6. Fire and storage in LPG storage facility
7. Combustible dust explosion
February 17, 2011
The Buncefield Investigation - be prepared to see similar findings elsewhere
"Fundamental safety management failings were the root cause of Britain's most costly industrial disaster, a new publication reveals.
- Systems for managing the filling of industrial tanks of petrol were both deficient and not fully implemented
- An increase in the volume of fuel passing through the site put unsustainable pressure on those responsible for managing its receipt and storage, a task they lacked information about and struggled to monitor. The pressure was made worse by a lack of necessary engineering support and other expertise.
- A culture developed where keeping operations going was more important than safe processes, which did not get the attention, resources or priority status they required.
- Inadequate arrangements for containment of fuel and fire-water to protect the environment.
- There should be a clear understanding of major accident risks and the safety critical equipment and systems designed to control them.
- There should be systems and a culture in place to detect signals of failure in safety critical equipment and to respond to them quickly and effectively.
- Time and resources for process safety should be made available.
- Once all the above are in place, there should be effective auditing systems in place which test the quality of management systems and ensure that these systems are actually being used on the ground."
Read the HSE report in this link.
February 16, 2011
Hazards of low oxygen inside confined spaces
Today there are accidents that still continue to happen on the above lines. Learn from history. Do not allow more people to die.
February 14, 2011
Another natural gas explosion
February 13, 2011
Preventing fires in thermal fluid systems
"Fluid leaking from valves, gasketing,welds or instrument ports finds its way into porous insulation and wicks through. Remaining as hot as the system itself, the fluid comes into intimate contact with the air in the insulation's millions of pockets. As it enters each pocket, the fluid oxidizes and decomposes—in the process using up the existing air and creating heat. Confined within the insulation, the heat has little chance of escaping. The continued oxidation causes temperatures to rise. In some cases temperatures may exceed the autoignition point of the fluid. Should the insulation be opened up when the system is hot, fresh air will immediately enter. Coming into contact with the hot, partially oxidized fluid, fresh air can cause spontaneous ignition resulting in a smoldering fire, or a flash".
The paper also recommends precautions to be taken in component selection, installation and maintenance.
Read the paper in this link. Read another article on Prevent fires in thermal fluids
Disclaimer: I am not advocating any product and am sharing this information in the interest of process safety
February 12, 2011
CSB safety videos
Hydrogen gas detection in refineries
"There are several hazards associated with hydrogen, ranging from respiratory ailment, component failure, ignition, and burning. Although a combination of hazards occurs in most instances, the primary hazard with hydrogen is the production of a flammable mixture, which can lead to a fire or explosion. Because its minimum ignition energy in air at atmospheric pressure is about 0.2 mJ, hydrogen is easily ignited. In oil refineries, the first step in the escalation of fire and detonation is loss of containment of the gas. Hydrogen leaks are typically caused by defective seals or gaskets, valve misalignment, or failures of flanges or other equipment. Once released, hydrogen diffuses rapidly. If the leak takes place outdoors, the dispersion of the cloud is affected by wind speed and direction and can be influenced by atmospheric turbulence and nearby structures. With the gas dispersed in a plume, a detonation can occur if the hydrogen and air mixture is within its explosion range and an appropriate ignition source is available. Such flammable mixture can form at a considerable distance from the leak source.
In order to address the hazards posed by hydrogen, manufacturers of fire and gas detection systems work within the construct of layers of protection to reduce the incidence of hazard propagation. Under such a model, each layer acts as a safeguard, preventing the hazard from becoming more severe.The detection layers themselves encompass different detection techniques that either improve scenario coverage or increase the likelihood that a specific type of hazard is detected. Such fire and gas detection layers can consist of catalytic sensors, ultrasonic gas leak monitors, and fire detectors. Ultrasonic gas leak detectors can respond to high pressure releases of hydrogen, such as those that may occur in hydrocracking reactors or hydrogen separators. In turn, continuous hydrogen monitors like catalytic detectors can contribute to detecting small leaks, for example, due to a flange slowly deformed by use or failure of a vessel maintained at close to atmospheric pressure. To further protect a plant against fires, hydrogen-specific flame detectors can supervise entire process areas. Such wide coverage is necessary: Because of hydrogen cloud movement, a fire may be ignited at a considerable distance from the leak source".
Read the article in this link (pdf file -be patient)
Disclaimer: The reader is recommended to to do a survey before purchasing detectors.
February 10, 2011
Natural gas pipeline explosion and ethanol rail tankers derailing incidents
Another incident involved the derailment and catching fire of ethanol rail tankers near Ohio. The article mentions that "Twenty-six cars of a 62-car Norfolk Southern train jumped the tracks at about 2:20 a.m. in Cass Township, and the contents of those that ruptured in the impact caught fire. The denatured ethanol in other tank cars that were not breached immediately was heated by the flames until it boiled and the tanks could no longer withstand the pressure, causing explosions that sent fireballs bursting spectacularly into the sky".
Read the article in this link.
Students campaign - "Crackdown on cracking crackers"
February 9, 2011
Exothermic explosion causes serious injury
"An investigation by the HSE revealed that approximately five times too much hydrogen peroxide was added to the sodium cyanide pellets which resulted in an exothermic explosion".
Train your workers on the hazards of inadvertent reactions. Read the article in this link.
Read another article about the same incident in this link.
February 8, 2011
Another tragic confined space entry fatality - train your workers about the hazards
In another incident that occurred some time back, a young engineer in a fertiliser plant in India was killed when he slipped into a vessel under nitrogen atmosphere. He was trying to check the work done inside the vessel from outside when he reportedly slipped inside.
February 6, 2011
Buy the Practical Process Safety Management book and support the Bhopal Victims
Contact me at bkprism@gmail.com for details of purchasing the book. Thanks in advance!