Staying Safe in the Kitchen – Understanding Fire Classifications

Whether you are a hobby baker or a professional one, fire safety should always be your top priority. Here are some ways to make sure your passion for baking doesn’t turn into a deadly one!

Whether you live in a city high-rise apartment or a rural farmhouse, fire doesn’t distinguish the difference and will leave one structure as devastated as another. Of course, an early warning signal for a fire is a smoke detector. But what can you do when the fire has just started and isn’t out of control yet?

That’s where a fire extinguisher comes into play. The early invention of a fire extinguisher was a few thousand years ago when Ctesibuius of Alexandria first used a pump to pump water used to extinguish fires. Although, it wasn’t until 1818, when a British Captain named George William Manby, invented the modern fire extinguisher and made of copper. It held three gallons combined of compressed air and the fire extinguishing agent – potassium carbonate.

However, before using a fire extinguisher, one important fact to remember is that not all fires are the same. In other words, the fire’s properties change depending on the original source or cause and that factor determines which type of fire extinguisher to use. The consequences for using the wrong extinguishing method may range from no effect to an explosion.

The US groups fire into five classes based on their properties – A, B, C, D, and K. This may differ around the world, for example Europe and Australia also use fire classes but the names and properties are different. Therefore, always check where a fire classification system is to know the standard used.

Class A Fire: Everyday Combustible Materials

Class A fires comprises everyday combustible materials, including, but not limited to – paper, wood, plastics, refuse, and fabric. This is the most common type of fire and is extinguished with water or monoammonium phosphate – the chemical agent used in most fire extinguishers.

Class B Fire: Flammable Liquids and Gases

Class B fires include flammable liquids, such as – kerosene, petroleum oil, paint, and gasoline; or flammable gases, such as – propane, butane, and methane. Although these fires can be found in residential or commercial settings, they are more likely found in an industrial environment.

Water is never to be used when fighting a Class B fire because the likelihood of it dispersing the flammable liquids and spreading the fire instead of extinguishing it. 

Below are two methods used in Class B fires.

  • Monoammonium phosphate – cuts the oxygen supply to the fire
  • Sodium bicarbonate – extinguishes the fire with a chemical reaction

Class C Fire: Electrical Fires

Class C fires are started by electrical sources by overheated wiring or shortages in equipment, etc. As with Class B fires, water is never to be used on Class C fires. Since water and electricity don’t mix well, if water was used it could cause a current to electrocute someone. Thus, there is a two-step process in fighting electrical fires – 

  1. Disconnect the power source.
  2. Use a non-conductive agent such as monoammonium phosphate and sodium bicarbonate used against Class B fires to extinguish Class C fires, as well.

Class D Fire: Combustible Metals

Class D fires consist of combustible metals such as – lithium, magnesium, and potassium and are most common in laboratories and industrial facilities. Never use water to fight a combustible metal fire because some metals will explode when mixed with fire. Instead use a dry powder agent to smother the fire. However, these dry powder agents require special training to handle.

Class K Fire: Kitchen Fire

Class K or Kitchen Fire involves unsaturated cooking oil used in food prep – includes cooking oil,  lard, grease, olive oil, and butter. These fires are a subclass of Class B fires, however, due to the distinct differences of how they burn have their own class. Just as with Class B, water is never to be used, but instead a Class K rated fire extinguisher.  These extinguishers contain a wet chemical extinguishing agent that turns the fire’s fuel to soap.

Conclusion

Fire is a disastrous and scary event, that is why it is very important to increase the safety in your home. The only defense is prevention and being prepared if a fire ignites in your home.  Also, to be sure your home and business complies with all local and state ordinances and codes, contact a fire or sprinkler engineer.

AUTHOR’S BIO

Michael Tobias is the founder and principal of Chicago Engineers. He is a graduate of Georgia Tech class of 2004, with a Bachelor of Mechanical Engineering with honors. His innovative approach to MEP engineering comes from graduating GE’s Engineering Leadership Program, where he designed wind turbines and biofuel power plant engines. Michael’s passion within design is energy efficiency and green technology.

Staying Safe In Your Kitchen – Expert Tips To Protect You

While baking in the kitchen, make sure you keep safety first. Here are some expert tips to make sure your baking experience remains an enjoyable one!

Your kitchen might be the heart of the home, but it’s also a dangerous place. Sharp knives, boiling water, hot surfaces, and sizzling grease all add up to some major injuries, so it’s no wonder that many people end up in the emergency room every year due to kitchen incidents. With this in mind, here are some expert tips to ensure you stay well-protected from harm in your own cooking environment so you too don’t become a kitchen injury statistic.

1.Protect Your Skin

The first step to staying safe in your kitchen is to protect exposed skin from splashes and spills of hot foods, liquids, and fats. Whether you’re cooking at the hob, pouring boiling water into or out of a pan, or serving up fried dishes, you’ll find that the risk of burns is surprisingly high. You can protect yourself best by wearing a professional chef’s apron or chef’s jacket that covers your body, arms and exposed skin, keeping them safe from harm. If you’re wondering where to buy high-quality chef’s attire for you to wear at home you should check out professional specialists like ChefWorks. You’ll find protective clothing made from the best quality fabrics and designed to withstand the rigors of even a professional kitchen.

2.Clean Up Rapidly

If you’re making a meal while dealing with other things, it’s all too easy to spill some food, splash some water or drop some fat. If this happens, it’s important to clean up quickly as this will help to guard against any accidents. Even small amounts of food or water can create a slipping or tripping hazard, and oil and grease are particularly dangerous.

3. Keep A Fire Extinguisher To Hand

Your fire extinguisher represents your kitchen’s most vital gadget. Nobody expects their kitchen to go up in flames, but on the off chance that it does, you should have a fire extinguisher within easy reach and know how to use it properly so that you can stay safe in an emergency/

4. Be Wary Of Steam

Over 100,000 people every year have to go to the ER because of steam burns. Boiling water, hot beverages, and faucets that supply hot water on demand are all scald risks, and steam burns are extremely dangerous, often being more severe than burns from boiling water itself. If you’re taking the plastic wrap off a microwaved dish, taking a lid off a pot of boiling water or tearing open a steamable packet, you are at risk of steam burns, so take care and ensure your little ones also understand that this is a potential hazard.

5. Stay Hygienic

There are more bacteria in your kitchen than in any of the other rooms in your home, so remember to maintain a good level of hygiene. You can banish bacteria by cleaning your kitchen using a water and bleach solution on a regular basis. Clean your cutting boards with an anti-bacterial spray after each use, wet your sponges after each use then zap it in your microwave for 2 minutes. Change and wash your dish clothes regularly.

If you follow these top tips, your kitchen will be a very safe and hygienic place where you and your loved ones will be happy and healthy.