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NFPA 855: What To Do for Data Centers When They Want to Change Out the Lead Acid Batteries to Lithium Ion?

NFPA 855 What To Do for Data Centers When They Want to Change Out the Lead Acid Batteries to Lithium Ion?

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NFPA 855: Partnering with AHJs to Implement Local Codes

NFPA 855 Partnering with AHJs to Implement Local Codes

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NFPA 855: Why is Partnering with Organizations like FSSA, NFPA & ICC Important?

NFPA 855 Why is Partnering with Organizations like FSSA, NFPA & ICC Important?

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NFPA 855: How to Work with Your AHJ on an HMA

NFPA 855 How to Work with Your AHJ on an HMA

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NFPA 855: Would Annunciator Panels have Made a Difference at the McMicken Arizona Lithium Ion Facility Fire?

NFPA 855: Would Annunciator Panels Have Made a Difference at the McMicken Arizona Lithium-Ion Facility Fire?

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NFPA 855: What is a Plume Study and Why is it Important to your Hazard Mitigation Analysis (HMA)?

NFPA 855: What is a Plume Study and Why is it Important to your Hazard Mitigation Analysis (HMA)?

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NFPA 855: What is Hazard Mitigation Analysis and Why is it Important?

What is Hazard Mitigation Analysis and Why is it Important?

 

The Hazard Mitigation Analysis (HMA) is step number one. This is the first thing that you as manufacturers, you as installers, you as property managers that are looking for properties, need to talk about; do we have an HMA for our batteries? I had someone come up to me recently and say, well, sometimes when we pick a site, we don't know the technology. Okay, you normally have a couple in mind or two, or three. Make an HMA with all three technologies and then we can just get rid of the ones that you don't end up using. But let's start this hazard mitigation analysis early. Because what it does is it looks at the consequences of failure. And if you look at the Phoenix Fire Code, we require this for every single battery installation. NFPA 855 and the base International Fire Code (IFC) has three different criteria.


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NFPA 855: How are battery manufacturers working with UL to create safer batteries?

NFPA 855: How are battery manufacturers working with UL to create safer batteries?

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NFPA 855: International Code Council and Your Local Authority Having Jurisdiction

NFPA 855 Series: International Code Council and your Local Authority Having Jurisdiction

In the ICC, Chapter 12 is what deals with lithium ion and other batteries Currently, there's a committee called the Fire Code Action Committee that brings in industry, manufacturers, AHJ’s, like myself, and experts. We're working on different parts of Chapter 12 for energy issues. Be careful, just because a jurisdiction adopts Chapter 12, we might amend it. In the City of Phoenix, we amended Chapter 12, heavily. Ours is probably a little bit more restrictive than most of the country. I would say our sprinkler density, that we'll talk about here in a little bit, is more restrictive. We wanna require our AHJs to be more restrictive, so be careful. Always look at the code amendments from that local jurisdiction.

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NFPA 855 Series: How Do Fire Codes Impact Lithium Ion Battery Safety?

Part of the FSSA NFPA 855 Standard for the Installation of Stationary Energy Storage Systems Series

How do we try to make these as safe as possible? It starts for us with the codes and standards. You have the International Code Council, which is the ICC, that creates the International Fire Code, the International Building Code. We have the National Fire Protection Association, the NFPA. We also have to have standards testing. UL has UL 9540, which is the listing for Battery Energy Storage Systems (BESS). You look at all the codes and the codes will require UL 9540 listing for all batteries. And the test is the 9540 A test. So these have all been updated and worked on after McMicken, after Victoria in Australia, after Moss landing, after all of the fires. We're doing a much better job about getting everyone together in a room and creating better codes.

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NFPA 855 Series: What an AHJ learned from the McMicken Energy Storage Facility Owned by Arizona Public Service Co.

Part of the FSSA NFPA 855 Standard for the Installation of Stationary Energy Storage Systems Series

We always try to learn lessons. What worked well, what didn't work well. McMicken showed us that a clean agent type fire protection system alone is not adequate. We need something else. We need sprinklers. If we're going to be in an occupiable space, once again, we know that sprinklers don't control the thermal runaway, so all we're really doing is cooling it. Now, sprinkler water, as well as the water mist system, is really good about keeping vapors down, which is another thing that we're working on here in the valley with one of our battery installations. But sprinklers alone are not going to control the thermal runaway. It's going to do its thing until it's done.

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Differentiating PFAS Series: How Do I Know What Gas Supplier I Can Use Following a Discharge of My Novec 1230 System?

If one is working through a distributor or an installing contractor that has a supply agreement or a contract with an original equipment manufacturer (OEM) for the equipment that is listed using Novec 1230 fluid, they are likely listed with FK-5-1-12 from alternative suppliers as well. Novec 1230 is a neat (single component) agent. It is typically discharged from a cylinder with a nitrogen super pressurization or one with a separate nitrogen tank design used in a piston flow fashion giving a “push” to it.

It is recommended that one first checks with the original equipment manufacturer and their representative installing contractor to make sure they are supplying it with a listed or approved system. And second, make sure that they have a certificate of analysis assuring the quality of the clean agent material.

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Differentiating PFAS Series: What is the Future Liability Potential for Using Clean Agents?

 

There has not been a sufficient concern to compel regulatory authorities to put restrictions on the use of Halon from a persistent standpoint, and for other reasons. The PFCs, HFCs, and HCFCs, are all being regulated for other reasons, based on ozone depletion potential (ODP), global warming potential (GWP), and so forth. The European ECHA has a proposal in place but at this point in time, clean agents are considered for derogation in the proposal.

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Differentiating PFAS Series: Should I Be Worried About the Future of Novec 1230?


In December 2022, 3M announced its plans to exit the manufacturing of 3M™ Novec™ 1230 Fire Protection Fluid and their fluorochemical line of products completely by 2025, shocking the fire protection industry, as no one saw it coming. There is still a lot of excitement and maybe some angst or concern out in the marketplace. The best advice is to stay calm because regulatory resolution is not something that will unfold very quickly. There currently exist proposed changes offered or enacted state legislation that have taken place, particularly here in the United States. Even with current action, time is needed to determine what really needs to be done. There will be much discussion but watch for action.

Halocarbon clean agents are not going away anytime soon. Halon manufacturing was banned in Article One countries back on December 31st, 1992, at 11:59 PM EST, yet decades later we still see halon systems in use. This is not to say that things will be exactly the same for systems using Novec 1230 fluid, but these things do not tend to move very quickly. What is important is that halocarbons are not going away anytime soon, and 3M has made it clear that they plan to honor their commitments to fulfill orders of the product already made.


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Differentiating PFAS Series: Industry Assessment of Trifluoroacetic Acid (TFA) and the PFAS Problem


Trifluoroacetic acid (TFA) actually meets the definition of PFAS because it has a CF3 radical on the molecule. Researchable comments exist regarding the fate of trifluoroacetic acid, like from Columbia Climate School Center. The source of the currently observed levels is unknown and puzzling according to them. In 2001, the observed TFA concentrations were orders of magnitude larger than those predicted to result from the atmospheric degradation of the replacement of HCFCs and HFCs. The Columbia researchers noted that at the time FK-5-1-12 was not even commercialized.

Another collaborative study was conducted in 2002 and published in Environmental Science and Technology by the Environmental Laboratory in Seattle, Washington, the Department of Environmental Chemistry and Eco Toxicity in Germany, Scripps Institution of Oceanography, the University of California San Diego in La Jolla, and NOAA. The purpose of that study was to estimate TFA in ocean waters, given the material is strongly hydrophilic, and to assess whether today's levels are mainly from anthropogenic origin or whether biological or geological sources must be considered. Their conclusion at that time was that TFA is present in the global environment in two major compartments, in the ocean water and in the atmosphere, and in other areas, precipitation and fresh waters and so forth.

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Differentiating PFAS Series: Is the European Chemicals Agency (ECHA) Going to Ban FK-5-1-12 in the Future?

 

The European Chemicals Agency (ECHA) is currently accepting comments in the REACH restriction process regarding future use of per and polyfluoroalkyl substances (PFAS), including those used in fire protection like FK-5-1-12. This is a three-phase process according to ECHA. Phase 1 is preparation and submission of a restriction proposal, beginning with notification of intent to submit a restriction, then the registry of intentions, preparing the restriction dossier, and then submission and conformity check. Phase 2-A, a consultations phase, includes a consultation on the restriction report and a consultation on the Committee for Socio-Economic Analysis (SEAC) draft opinion. Phase 2-B is an opinion development phase that includes advice from the forum, RACs opinion and SEACs opinion. Finally, Phase 3 is the decision and follow-up phase including commission decision on the restriction, complying with the restriction, and enforcing the restriction. Regarding FK-5-1-12 as well as other halocarbon clean agents, ECHA is currently in the second phase which, again in itself has two phases; consultations and opinion development. So, once completed, with comments taken until 25 September 2023, there will be a decision and follow up on what the regulation is going to be in Europe.

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Differentiating PFAS Series: Can FK-5-1-12 Break Down into Harmful Levels of CO2?


 

The atmospheric degradation mechanism of FK-5-1-12 looks like this as a balanced equation C2F5(O)CF(CF3)2—-->4CO2+CF3COOH+9HF. Taniguchi concludes the photolysis of the ketone in the air results in a radical, uh, and also carbonyl fluoride will be incorporated in the air cloud and seawater where it'll undergo hydrolysis to, to give the trifluoroacetic acid. Similarly, the carbonyl fluoride will undergo hydrolysis to give CO2 and HF. The CO2, as well as any of these, the other two products that result from reacting with ketone at the concentrations expected in the environment is not considered harmful according to Taniguchi. The concentrations expected from what is going to be emitted into the atmosphere, combined with a short atmospheric lifetime, the global warming potential is negligible.


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Register Today for the Next FSSA Webinar - October 2023

FSSA Webinar: Going Fluorine Free – Converting a Legacy AFFF System to Fluorine-Free Foam

Thursday, October 5, 2023
12:00 pm Eastern

AFFF foam systems have been the standard for ignitable liquid firefighting for the past 40+ years. While an excellent extinguishing agent, the fluorinated compounds in AFFF have come under scrutiny in the past several years, with restrictions or outright bans on its use in many states. Fluorine-free foams have entered the market as replacements for AFFF, but no drop-in replacements exist. This case study looks at one of the first fluorine-free foam systems in New England to replace an existing legacy AFFF system. Differences in how fluorine-free foams work versus AFFF, which directly impacted the basis of design, along with the site-specific challenges that were overcome, will be discussed; along with the challenges that other fluorine-free replacement projects will face and tips to mitigate them.


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Differentiating PFAS Series: What is PFAS?


 

The acronym PFAS is short for per or polyfluoroalkyl substance. Depending on the source, there are up to 15,000 products or materials that meet the definition of PFAS. PFAS includes a broad category of materials that can be solids, liquids or gasses. Some fire protection materials, defined as PFAS, that are components in aqueous film forming foams (AFFF) are considered persistent, bioaccumulative, and toxic (PBT). Because of this, their use in fire protection and other applications is being phased out globally by the U.S. EPA and other regulatory agencies.


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EPA Webinar on New and New Uses of PFAS

On June 29, the EPA announced its framework for addressing new and new uses of per- and poly-fluoroalkyl substances (PFAS). The framework outlines EPA’s planned approach when reviewing new PFAS and new uses of PFAS to ensure that, before these chemicals are allowed to enter into commerce, EPA will undertake an extensive evaluation to ensure they pose no harm to human health and the environment. Read the news release here.

If you want to learn more about the framework, register for EPA’s upcoming webinar on September 6 at 2:00pm ET.

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