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How your cooking style could be harming your family’s health

(Photo by Julian Bohorquez on Shutterstock)

New study reveals the best ways to maintain clean air in your kitchen when it comes to preparing meals

BIRMINGHAM, England — Most of us spend up to 80% of our time indoors, with a significant portion in our kitchens preparing meals. But that seemingly innocent act of cooking dinner might be filling your home with dangerous air pollutants, according to concerning new research. The study, conducted by researchers at the University of Birmingham and the Max Planck Institute for Chemistry, reveals striking differences in air quality impacts between common cooking methods.

Every time you fire up your stove, you potentially create two types of indoor air pollutants: particulate matter (tiny airborne particles that can penetrate deep into your lungs) and volatile organic compounds (gases released during cooking). Think of particulate matter as microscopic particles suspended in the air, while volatile organic compounds are gaseous chemicals released during the cooking process.

These pollutants aren’t just unpleasant, they’re linked to serious health issues. The list is quite vast, and includes heart failure, cardiovascular diseases, cerebrovascular diseases, neurodegenerative diseases, lung diseases, respiratory infections, asthma attacks, and increased cancer risk. The good news? Your cooking method can make a dramatic difference in how many pollutants you’re exposed to.

The Kitchen Laboratory

In a well-controlled study, researchers transformed a university kitchen into a testing environment. They cooked chicken breast using five different methods: pan-frying, stir-frying, deep-frying, boiling, and air-frying. To ensure consistent results, they used the same amount of chicken (120 grams) and the same type of oil (rapeseed oil, also known as canola oil) across all tests, varying only the cooking method and amount of oil used.

Chicken breast is typically considered a healthy meal, but how it’s cooked can still lead to high levels of indoor air pollution in homes.(© fahrwasser – stock.adobe.com)

The kitchen was equipped with two sophisticated monitoring instruments placed at breathing height: one that measured airborne particles and another that detected gaseous compounds. Both instruments took continuous measurements throughout the cooking process, allowing researchers to track how pollutant levels changed over time.

Air-Frying FTW

The findings, published in the journal Indoor Air, were eye-opening. Pan-frying emerged as the biggest polluter, producing particulate matter levels of around 93 micrograms per cubic meter. Stir-frying came in second for particle pollution, while deep-frying produced relatively lower levels. The champions of clean cooking? Boiling and air-frying, which produced minimal pollutants, barely above background levels.

When it came to volatile organic compounds, the story was slightly different. Pan-frying still topped the charts at around 260 parts per billion, but deep-frying took second place at 230 parts per billion, followed by stir-frying at 110 parts per billion. Again, boiling and air-frying proved to be the cleanest methods, producing only 30 and 20 parts per billion respectively.

Researchers say that cooking food in an air fryer is the best method to limit indoor air pollution. (© Francisco Zeledon – stock.adobe.com)

Researchers also identified several key compounds released during cooking, including aldehydes, ketones, furans, and aromatic hydrocarbons. These compounds are produced through various cooking processes, particularly the Maillard reaction — the chemical process that creates the browning and complex flavors we associate with cooked foods. While these reactions give our food desirable flavors and aromas, they also contribute to indoor air pollution.

Feeling The Heat

One of the study’s most interesting findings was the crucial role of temperature. Higher cooking temperatures consistently led to more pollutants of both types. This explains why high-heat methods like pan-frying produced the most pollution. The intense heat causes more breakdown of oils and food components, creating more airborne particles and gases.

Perhaps the most surprising discovery was the relationship between oil quantity and pollution. Using more oil actually reduced particle emissions, contrary to what you might expect. The researchers theorize that more oil helps distribute heat more evenly, preventing food from overheating and reducing the formation of particles.

However, more oil did increase the production of volatile organic compounds, creating a trade-off between different types of pollutants.

Cooking Up A Less-Polluted Kitchen

So what does this mean for the home cook? The research provides several clear takeaways for healthier cooking practices. Air fryers and boiling methods emerged as the best choices for minimizing indoor air pollution. When you do need to fry, maintaining moderate temperatures can help reduce emissions. The study found that pollutant levels typically peaked about 14 minutes after cooking ended, suggesting it’s important to ventilate your kitchen not just during cooking but for a good while afterward.

(Photo by Nitr on Shutterstock)

The study also discovered that cooking produces environmentally persistent free radicals – reactive molecules that can last for extended periods. These were found in significant concentrations in the cooking emissions, particularly during high-temperature cooking methods. The researchers found that these compounds remained stable even when exposed to ozone, suggesting they could persist in indoor environments.

With most people spending the majority of their time indoors, understanding and reducing cooking-related air pollution could have significant public health benefits. The findings suggest that simple changes in cooking methods — or even just regularly opening a window — could substantially reduce exposure to indoor air pollutants.

“There are a number of factors that will affect the levels of pollution from cooking alongside the method used, including the amount of oil used, and the temperature of the stove,” says lead author Christian Pfrang, a professor of atmospheric science at the University of Birmingham, in a statement. “What we can say with certainty, however, is that improving the ventilation in kitchens by opening windows or using extractor fans, will help to disperse polluting particles and reduce personal exposure.

“It’s also really important to understand that particles will remain in the air for quite some time after you have finished cooking,” he adds. “So continuing to ventilate, or keeping extractor fans turned on for a period of time will really help to avoid the build-up of this indoor pollution and reduce the potential for the pollutants to be transported and distributed throughout the house with the associated higher personal exposures.”

The next time you’re deciding how to cook dinner, remember: your choice might affect more than just the taste of your food. It could be the difference between a kitchen filled with pollutants and one with cleaner air. As the saying goes, you are what you eat – but perhaps we should also consider how we cook it.

Paper Summary

Methodology Explained

The researchers conducted 90 controlled cooking experiments in a research kitchen, using identical portions of chicken breast (120g) and rapeseed oil. They tested five cooking methods (pan-frying, stir-frying, deep-frying, boiling, and air-frying) while measuring air quality using two sophisticated instruments: an optical aerosol spectrometer for particles and a proton-transfer-reaction mass spectrometer for gases. The kitchen’s ventilation was controlled, and measurements were taken at breathing height, 1.6 meters from the cooking source.

Results Breakdown

Pan-frying produced the highest pollution levels (PM2.5: 92.9 μg/m³, VOCs: 260 ppb), followed by stir-frying for particles (26.7 μg/m³) and deep-frying for gases (230 ppb). Boiling and air-frying were consistently cleanest (both below 1 μg/m³ for particles and 30 ppb for gases). Higher cooking temperatures increased both types of pollutants, while more oil reduced particle emissions but increased gas emissions.

Limitations

The study was conducted in a controlled research kitchen, which might not perfectly replicate home cooking conditions. The researchers couldn’t account for all surface deposition of pollutants, and some spatial variability in measurements may have occurred despite efforts to place instruments strategically. The study only used chicken breast and rapeseed oil, so results might vary with different foods and oils.

Discussion and Takeaways

This research provides clear evidence that cooking method significantly impacts indoor air quality. Air-frying and boiling emerge as the cleanest methods, while traditional frying methods produce the most pollutants. Temperature control appears crucial for reducing emissions. The study suggests that proper ventilation during and after cooking is important, as pollutant levels peak about 14 minutes after cooking ends.

Funding and Disclosures

The research was funded by multiple organizations including the UK Natural Environment Research Council (NERC) and the Max Planck Graduate Center. The authors declared no conflicts of interest. The study was published as open access, making it freely available to the public.

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