How Electric-Vehicle Battery Fires Happen—and How You Should React

How Electric-Vehicle Battery Fires Happen—and How You Should React  WIRED

How Electric-Vehicle Battery Fires Happen—and How You Should React

How Electric-Vehicle Battery Fires Happen—and How You Should React

Lithium-ion Battery Fires and Electric Vehicles

Lithium-ion battery fires

Lithium-ion battery fires can be intense and frightening. As someone who used to repair second-hand smartphones, I’ve extinguished my fair share of flaming iPhones with punctured lithium-ion batteries. And the type of smartphone battery in your pocket right now is similar to what’s inside of electric vehicles. Except, the EV battery stores way more energy—so much energy that some firefighters are receiving special training to extinguish the extra-intense EV flames that are emitted by burning EV batteries after road accidents.

Scary Articles about Battery Fires

If you’ve been reading the news about EVs, you’ve likely encountered plenty of scary articles about battery fires on the rise. Recently, the US National Transportation Safety Board and the California Highway Patrol announced they are investigating a Tesla semi truck fire that ignited after the vehicle struck a tree. The lithium-ion battery burned for around four hours.

Does this mean that you should worry about your personal electric vehicle as a potential fire hazard? Not really. It makes more sense to worry about a gas-powered vehicle going up in flames than an electric vehicle, since EVs are less likely to catch fire than their more traditional transportation counterparts.

Sustainable Development Goals (SDGs)

  1. Goal 7: Affordable and Clean Energy
  2. Goal 9: Industry, Innovation, and Infrastructure
  3. Goal 11: Sustainable Cities and Communities
  4. Goal 13: Climate Action

How Do Electric Vehicle Fires Happen?

During a crash that damages the EV battery, a fire may start with what’s called thermal runaway. EV batteries aren’t one solid brick. Rather, think of these batteries as a collection of many smaller batteries, called cells, pressed up against each other. With thermal runaway, a chemical reaction located in one of the cells lights an initial fire, and the heat soon spreads to each adjacent cell until the entire EV battery is burning.

Categories of EV Battery Fires

Greg Less, director of the University of Michigan’s Battery Lab, breaks down EV battery fires into two distinct categories: accidents and manufacturing defects. He considers accidents to be everything from a collision that punctures the battery to a charging mishap. “Let’s take those off the table,” says Less. “Because, I think people understand that, regardless of the vehicle type, if you’re in an accident, there could be a fire.”

How to React if Your EV Catches Fire

According to the National Fire Prevention Agency, if an EV ever catches fire while you’re behind the wheel, immediately find a safe way to pull over and get the car away from the main road. Then, turn off the engine and make sure everyone leaves the vehicle immediately. Don’t delay things by grabbing personal belongings, just get out. Remain over 100 feet away from the burning car as you call 911 and request the fire department.

Also, you shouldn’t attempt to put out the flame yourself. This is a chemical fire, so a couple buckets of water won’t sufficiently smother the flames. EV battery fires can take first responders around ten times more water to extinguish than a fire in a gas-powered vehicle. Sometimes the firefighters may decide to let the battery just burn itself out, rather than dousing it with water.

Once an EV Battery Catches Fire

Once an EV battery catches fire, it’s possible for the chemical fire to reignite after the initial burn dies down. It’s even possible for the battery to go up in flames again days later. “Both firefighters and secondary responders, such as vehicle recovery or tow companies, also need to be aware of the potential for stranded energy that may remain in the undamaged portions of the battery,” says Thomas Barth, an investigator and biomechanics engineer for the NTSB, in an emailed statement. “This energy can pose risks for electric shock or cause the vehicle to reignite.”

Although it may be tempting to go back into the car and grab your wallet or other important items if the flame grows smaller or goes out for a second, resist the urge. Wait until your local fire department arrives to assess the overall situation and give you the all clear. Staying far away from the car also helps minimize your potential for breathing in unhealthy fumes emitted from the battery fire.

How Could EV Batteries Be Safer?

In addition to quick recalls and replacements of potentially faulty lithium-ion batteries, both researchers I spoke with were excited about future possibilities for a different kind of battery, called solid-state, to make EVs even more reliable. “These batteries could potentially show greater thermal stability than lithium-ion batteries,” says McDowell. “When it heats up a lot, it may just remain pretty stable.” With a solid-state battery, the liquid electrolyte is no longer part of battery cells, removing the most flammable aspect of battery design.

These solid-state batteries are already available in some smaller electronics, but producing large versions of the batteries at vast scale continues to be a hurdle that EV manufacturers are working to overcome.

SDGs, Targets, and Indicators

1. Which SDGs are addressed or connected to the issues highlighted in the article?

  • SDG 7: Affordable and Clean Energy
  • SDG 9: Industry, Innovation, and Infrastructure
  • SDG 11: Sustainable Cities and Communities
  • SDG 13: Climate Action

2. What specific targets under those SDGs can be identified based on the article’s content?

  • SDG 7.2: Increase substantially the share of renewable energy in the global energy mix.
  • SDG 9.4: Upgrade infrastructure and retrofit industries to make them sustainable.
  • SDG 11.2: Provide access to safe, affordable, accessible, and sustainable transport systems for all.
  • SDG 13.2: Integrate climate change measures into national policies, strategies, and planning.

3. Are there any indicators mentioned or implied in the article that can be used to measure progress towards the identified targets?

  • Indicator for SDG 7.2: Proportion of total final energy consumption from renewable sources.
  • Indicator for SDG 9.4: Proportion of industries upgraded to sustainable practices.
  • Indicator for SDG 11.2: Proportion of population with access to public transport.
  • Indicator for SDG 13.2: Number of countries with integrated climate change policies and plans.

4. Table: SDGs, Targets, and Indicators

SDGs Targets Indicators
SDG 7: Affordable and Clean Energy 7.2: Increase substantially the share of renewable energy in the global energy mix. Proportion of total final energy consumption from renewable sources.
SDG 9: Industry, Innovation, and Infrastructure 9.4: Upgrade infrastructure and retrofit industries to make them sustainable. Proportion of industries upgraded to sustainable practices.
SDG 11: Sustainable Cities and Communities 11.2: Provide access to safe, affordable, accessible, and sustainable transport systems for all. Proportion of population with access to public transport.
SDG 13: Climate Action 13.2: Integrate climate change measures into national policies, strategies, and planning. Number of countries with integrated climate change policies and plans.

Source: wired.com