All posts by Ralph Stuart

A Quick Overview of Classroom Flammable Liquid Hazards

Tragic, preventable incidents continue to occur during K-12 science demonstrations involving flammable materials. 

Despite communication efforts and safety alerts sent out by the American Chemical Society, the US Chemical Safety BoardNational Fire Protection Association, and National Science Teachers Association, tragic and preventable incidents are occurring during science demonstrations involving flammable materials.  Most recently, another incident “Four students injured in science experiment gone wrong at Bronx school” occurred on November 22, 2017 at an high school academy in New York City.

A dangerous approach: Uncontained flammable liquids burning in dishes with excess fuel nearby and inadequate ventilation.. Much safer: Soaking wooden splints in salts and viewing the colors produced by burning the splint.

Since 2006, over 90 children have been burned in these incidents, some as young as 3 yrs old. For links to articles and dates of these incidents are available upon request.

Calais Weber was burned on over 40% of her body in 2006 at Western Reserve Academy in Ohio. (Source US Chemial Safety Board) Dane Neuberger, a ninth grader in Minnesota who was one of four students burned in a science demonstration involving methanol. “My face was actually on fire,” he told local media.
(Photograph: Richard Tsong Taatarii/Minneapolis Star Tribune)

Why Does This Keep Happening?

In many of the cases where injuries have occurred, the demonstrator has tried to sustain the flame by adding additional fuel to a hot evaporating dish or a dish where the methanol flame has not gone out, but is not visible. When a 1- or 4- liter container is used by the demonstrator, a phenomenon known as “flame-jetting” can occur.  A NFPA Sep/Oct 2017 article explains flame jetting with images from the Bureau of Alcohol, Tobacco, Firearms and Explosives (ATF) testing at the Fire Research Lab (FRL).

The ATF FRL testing found that flame jetting:

  • Occurred in all 49 tests using ethyl alcohol in various types and sizes of containers, including glass and plastic containers in one-liter and one-gallon sizes, the sizes used in the rainbow demonstration incidents.
  • Flame jets in excess of 15 feet occurred during testing. This is consistent with witness statements and fire damage in the classrooms.
  • The entire jetting event lasted less than one second, with no observable warning signs prior to the phenomenon. When jetting did occur, there was no evidence of thermal or pressure damage to the container.
  • Some flammable liquids such as fresh gasoline are able to release flammable vapors readily enough that the headspace never drops below the upper flammable limit and therefore does not support flame propagation within the container. Weathered gasoline, by comparison, is slower to release vapors and can support flame propagation inside the container, leading to flame jetting.

Similar incidents have occurred with portable plastic gas cans that lack flame arresters, resulting in over 11 deaths and 1200 emergency room visits.

Flame jetting is most likely to happen when:

  • The temperature of the fuel is room temperature or lower, so vapors collect in the container, instead of evaporating out of it and only move when poured out.
  • The pouring angle allows vapors to travel out and flash back inside the container. when the container is upright, the head space above the liquid is too fuel-rich and above the upper flammability limit, meaning that combustion is not supported within the container. As the container is tilted and vapors begin to pour from the open mouth, however, air is entrained into the head space and the fuel-rich mixture eventually falls within the flammable limits; if an ignition source is present and combustion occurs, the flame propagation condition inside the container can lead to flame jetting.
  • There is little fuel left in the can, making it easier for flashback to get through the bottle opening.



Figure from http://www.notyourturntoburn.com/flame-arresters/

What Can Be Done?

Flame arresters have been shown in testing to prevent flame jetting from portable flammable liquid containers that would otherwise produce jets in certain conditions.

The organization Not your turn to burn, which has been organized by mothers of burn victims, has extensive information about the mechanisms behind flame jetting and advocates for flame arresters in The Portable Fuel Container Safety Act of 2017, currently in committee, would require flame arresters on portable flammable liquid containers. Fire prevention advocates say that adding a flame arrester to the opening of a container costs when the container is manufactured will cost less than 50 cents on most portable fuel containers.

This phenomenon is not unknown to the ethanol industry and some manufacturers routinely install flash arresters such the grates on alcoholic beverages such as this Bacardi 151, as manufacturers are aware of flaming drinks.

Flame arresters are required by OSHA for workplace use but not by Consumer Product Safety Commission (CPSC); many feel that making a packaging option on bottles of common alcohols similar to those on alcoholic beverages could prevent more household tragedies.

Action Items:

  1. Please share the following resources and reminders with your local schools districts and teachers to try to spread the word regarding the dangers of these types of experiments and safer alternatives.
  2. Encourage your congressional representatives to support H.R.919: Portable Fuel Container Safety Act of 2017. It has 31 co-sponsors and is currently in the House Energy and Commerce committee. Letter templates available at http://www.notyourturntoburn.com/letters-articles/
  3. Share with everyone to NEVER add flammable liquids to an open flame. This can lead to FLAME jetting, Use containers with flash arresters.
  4. Petition container manufacturers to sell flame arrester liners compatible with common caps of flammable liquid containers.
  5. Petition chemical manufacturers to add flame arresters to bottles of flammable liquids, similar to the Safety-pour technology provided on bottles available from Lumina Products (https://youtu.be/AS5WDA7mAvw)

Resources

National Science Teachers Association resources

National Fire Protection Association

Template for writing local school officials on this issue

Superintendent
School District
Address

Dear Dr. Superintendent:
As a parent of a current student/ scientist/ concerned community member/ member of the American Chemical Society’s (ACS) Division of Chemical Health and Safety- I’m writing to you today to ensure that you were aware of recent accidents involving unsafe scientific demonstrations and that your district has policies in place for ensuring the safety of scientific demonstrations in your schools. In addition, I would like to make you aware of information that ACS produced specifically related to the safe handling of chemicals for educational purposes.
The driving force behind my correspondence today was the recent report of several students being injured during a “chemistry experiment gone wrong”. Details on this specific event are still slim, but unfortunately seem to be consistent with several recent events in which students have been injured during demonstrations involving flammable materials. One such experiment, the ‘rainbow demonstration’ has been the cause of numerous accidents resulting in severe student and teacher injuries. In spite of many news reports and multi-million-dollar settlements- these accidents continue to happen.
So we are reaching out directly to our local school districts and teachers to try to spread the word regarding the dangers of these types of experiments and safer alternatives. The ACS, National Fire Protection Agency, and the US Chemical Safety Board have all created documents highlighting these dangers and guidelines for providing safe and educational demonstration. I’ve included several links to these (free) resources below and would be glad to discuss this more with you if desired.
Sincerely,
Your Name,
Address and Phone

JCHAS Editor’s Spotlight: Comparison between active and passive workplace sampling

The Editor’s Spotlight for the November / December 2017 issue of the Journal of Chemical Health and Safety is shining on:

A comparison study between passive and active workplace personal air monitoring techniques for airborne isopropyl alcohol concentrations
by
Austin K.Simons, Rodney G.Handy, Darrah K.Sleeth, Leon F.Pahler and Matthew S.Thiese

The abridged abstract is:
This research project involved a comparison between the performance of active and passive sampling methods used to collect isopropyl alcohol vapor in an industrial setting. This field experiment was conducted in a real-world industry setting with workers exposed to isopropyl alcohol. Based on the strong correlation values and the trend of passive samplers reporting higher results than the active samplers, occupational health specialists could reliably use the passive samplers in this study to demonstrate compliance to isopropyl alcohol exposure limits.

This article and the rest of the issue can be found at
http://www.sciencedirect.com/journal/journal-of-chemical-health-and-safety/vol/24/issue/6

Also included in this issue of JCHAS are:

Editorial: What a year!
Harry J. Elston

Safety and ethics in ACS and major scientific and engineering societies: A gap analysis
Daniel R. Kuespert

Response letter from CEPA to “Safety and Ethics in ACS and Major Scientific and Engineering Societies: A Gap Analysis”
The ACS Committee on Economic and Professional Affairs

Safety and health risk perceptions: A cross-sectional study of New Jersey hair and nail salon clients
Lindsey J. Milich, Derek G. Shendell, Judith M. Graber

UN-GHS — Physical hazard classifications of chemicals: A critical review of combinations of hazard classes
Cordula Wilrich, Elisabeth Brandes, Heike Michael-Schulz, Volkmar Schröder, Klaus-Dieter Wehrstedt

A comparison of occupational exposure limits and their relationship to reactive oxide species
Original research article
Tracy Zontek, Burton R. Ogle, Scott Hollenbeck, John T. Jankovic

“Improving Chemical Safety in Schools” Workshop at SERMACS

Sammye Sigmann presented a workshop on laboratory safety resources from the American Chemical Society and other organizations for the teaching environment at the secondary and undergraduate level. Topics addressed include:

  • Conceptual overview  of teacher liability relative to lab safety
  • The ins and outs of the Globally Harmonized System and Safety Data Sheets
  • Risk Assessment models for common teaching demonstrations
  • Evaluation of on line videos demonstrating chemistry

PDF versions of her materials for this workshop are linked to below below.

SERMACS Lab Safety Stories Symposium

 

Learning Laboratory Safety Through Storytelling

The story of chemical safety in the 20th (and 21st) century. R. Stuart

How does an EHS professional engage their audience?. M.B. Koza

Using learning points to create a sound safety baseline. K.W. Kretchman

A series of unfortunate events: A personal story. S.B. Sigmann

Stories of laboratory incidents teach us lessons about safety. R.H. Hill

 

Safety Guidelines for the Chemistry Professional

Over the course of 2016 and 2017, representatives of the American Chemical Society’s Committee on Chemical Safety and Division of Chemical Health and Safety developed an ACS policy statement on chemical safety as well as document describing Safety Guidelines for the Chemistry Professional. These are designed to support chemists as they perform their daily work in safe and environmentally responsible way.

Webinar on Strategies for Chemical Threat Reduction

Avoiding the Next Chemical Catastrophe: Strategies for Chemical Threat Reduction

Co-sponsored by

October 19, 2017 @ 2:00pm ET

Every lab has chemicals that are vital to research and experimentation but these same chemicals whether you are in industry or academia, can be stolen and used by non-state actors for malevolent acts. Join Andrew Nelson of Sandia National Laboratories as he introduces strategies to mitigate the risks that small labs and universities face with theft of chemicals for chemical weapons, explosives, and illicit drug production.

Register at https://www.acs.org/content/acs/en/acs-webinars/popular-chemistry/threat.html

What You Will Learn

  • Why chemical security is important to all labs with current examples of incidents
  • What considerations must be made in a security risk management system
  • How chemical security is a teachable skill and what resources are available to you today

Webinar Details

  • Date: Thursday, October 19, 2017 @ 2-3pm ET
  • Fee: Free to Attend
  • Download slides after presentation

 

Pistoia Alliance Chemical Safety Library CSL Datathon

Pistoia Alliance
Chemical Safety Library CSLDatathon

To increase the valuable content in the free Chemical Safety Library (CSL), we are hosting a 2-week datathon in October to promote submissions to the CSL. Participants will be encouraged to submit incidents from the literature, in internal files or from personal experience.

You could win a $100 gift card.

Please help us spread the word:
Download the CSL Datathon Flyer and share it widely!

Thank you for your support and help!

csladmin@pistoiaalliance.org

Watch out for #CSLDatathon and #CSLHackathon on twitter coming soon!

 

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Catching up with Runaway Hot Plates

Attached to this link is a PDF version of the poster below on Runaway Hot Plates. This poster was part of the DCHAS collection at the 2017 SciMix sessions in Washington, DC. Questions about the poster should be directed to the authors:

  • Kimberly Brown of the Office of Environmental Health and Radiation Safety at the University of Pennsylvania, Philadelphia, PA,
  • Mark Mathews of the Environmental Safety and Health Directorate, at Oak Ridge National Laboratory, Oak Ridge TN and
  • Joseph Pickel of the Physical Sciences Directorate, Oak Ridge National Laboratory, Oak Ridge TN

Developing a Safety Culture

Institutional & Enterprise Level Efforts to Developing a Safety Culture

The Chemical Safety Board: Safety is good business and good policy. V. Sutherland

Safety Googles aren’t for nerds. T. George

Changing the federal oversight model of the Department of Energy National Laboratories. J. McBrearty

Are you prepared for a journey? K. Jeskie

Grassroots Approaches to Developing a Safety Culture

Improving Safety in the Chemical Enterprise Through Transparent Sharing of Best Safety Practices. M. Jones, L. Sellor, Dow

Back to Safety Basics at Northwestern University. M. Blayney

Building a Safety Culture: An Undergrad Perspective N. Fredstrom

OSHA’s Voluntary Protection Programs. D. Kalinowski

The Joint Safety Team: A researcher-led initiative for improving academic safety culture C. Gee

Collaborative efforts between faculty and embedded safety professionals to improve critical thinking skills of undergraduates
S. Sigmann

Characterising bias in regulatory risk and decision analysis

There’s an interesting, although dense, article at http://www.sciencedirect.com/science/article/pii/S0160412016303877
entitled “Characterising bias in regulatory risk and decision analysis: An analysis of heuristics applied in health technology appraisal, chemicals regulation, and climate change governance”. It describes the root issues that many of us face in using specific tools (GHS, Job Hazard Analysis, Control Banding, etc.) to make decisions in the face of uncertainty. I am particularly interested in the article’s discussion of decision rules in Table 1 and how that compares to the various approaches outlined in Identifying and Evaluating Hazards in Research Laboratories.

In my mind, the goal of the article is to remind us to put some error bars arounds our decision-making criteria as we proceed with any of these approaches.