Fox Cleaners
Mireille Kreines
Consumers should immediately stop using the recalled steam cleaners, and contact BISSELL to receive either a $60 credit to be used towards a BISSELL.com purchase, or a $40 refund for each of the recalled steam cleaners. Consumers should visit www.BISSELL.com/steamshotrecall to register for the recall, and for instructions on how to cut the cord and take and upload a photo of the steam cleaner showing the model number and cut cord.
A power interruption in the heat pump can result in the product providing heat when the power resumes, despite the thermostat being in cooling mode, posing a risk of excessive heat exposure to consumers.
The U.S. Consumer Product Safety Commission (CPSC) is charged with protecting the public from unreasonable risk of injury or death associated with the use of thousands of types of consumer products. Deaths, injuries, and property damage from consumer product-related incidents cost the nation more than $1 trillion annually. CPSC's work to ensure the safety of consumer products has contributed to a decline in the rate of injuries associated with consumer products over the past 50 years.
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Everyone deserves access to cleaner indoor air during wildfire smoke events. But when there are smoky conditions from wildfires, commercial air cleaners can be difficult to obtain because of limited availability or high cost. EPA and other health, environmental, and nonprofit organizations are providing instructions and materials for making Do-It-Yourself (DIY) air cleaners as a solution to reducing fine particulate matter (PM2.5) in wildfire smoke indoors. DIY air cleaners are made by attaching an air filter to a box fan with tape, brackets/clamps, or a bungee cord. With their use, concerns have been raised about the potential for the box fans to overheat when operated with a filter attached, which could pose a fire or burn risk.
At the time EPA researchers began evaluating air cleaners, there was minimal information on how effective DIY air cleaners are at removing smoke particles. Limited data published in the scientific literature, preliminary testing results from EPA and several anecdotal reports from state, local, and tribal agencies suggested these DIY air cleaners may help reduce exposure to the particles in smoke.
EPA conducted research to evaluate DIY air cleaners to answer questions from EPA partners and the public about their effectiveness and safety. This research is one part of a multi-faceted study called the Wildfire Advancing Science Partnerships for Indoor Reductions of Smoke Exposures (ASPIRE) Study. The objectives of the Wildfire ASPIRE Study are to better understand indoor air quality during smoke episodes and evaluate the effectiveness of interventions for reducing indoor smoke exposures and related public health risks.
EPA tested the effectiveness of DIY air cleaners in removing smoke particles. The research was conducted in laboratories in Research Triangle Park, NC. Simulated wildfire smoke made from smoldering pine needles was used in a room-sized chamber to determine the Clean Air Delivery Rate (CADR) of the air cleaners. The CADR is a standard measure of how well a commercial air cleaner can remove particles of a specific size from a standardized room.
EPA continues ongoing research to evaluate the effectiveness of DIY air cleaners in a real-world scenario. Researchers are working with tribal and local partners to evaluate the effectiveness of air cleaner use in homes to improve indoor air quality and health measures during smoke events in the ASPIRE-Health Study.
In a related study, EPA researchers are also evaluating the effectiveness of commercial air cleaners to remove smoke volatile organic compounds (VOCs) in laboratories in Research Triangle Park, NC. The results of this related research will be posted on this web page when the evaluation is complete, peer reviewed, and published.
As a first step to assess the safety of DIY air cleaners, UL tested five models of box fans with clean filters, as well as with filters loaded with smoke and dust provided by EPA. The DIY air cleaners were tested under several possible scenarios, including a simulation of an extreme scenario where the front and back of the fan were both blocked for an extended period of seven hours. UL ran a series of tests under different conditions and measured the temperature on different components of the fan. This type of testing helps to assess whether the fans reach temperatures that pose a fire or burn hazard.
UL published the results of this testing in the report, Wildfire Safety Research: An Evaluation of DIY Air Filtration (July 2021). Throughout the testing, temperatures of all fan components remained safely below recognized temperature safety standards. None of the scenarios tested posed any observable fire hazards. However, the study was limited to several box fan models and may not be representative of all fans or potential filter configurations.
EPA cannot assure the results of the safety testing are representative of all DIY air cleaners in all scenarios because there is a wide range of variability in the materials used and how the air cleaners can be built or operated. In addition, there are inherent risks associated with operating any electrical device. For more important safety information and tips, read the Frequently Asked Questions.
There are several air cleaner designs and instructions available online. Missoula City-County Public Health Department, a partner in the Wildfire ASPIRE Study, describes how to make and use a basic DIY air cleaner. This design can be built with a 1-inch or 4-inch filter. Adding a cardboard shroud is a no-cost, effective addition. The Minimum Efficiency Reporting Value (MERV) rating of the filter strongly impacts the Clean Air Delivery Rate (CADR). It is recommended to use a MERV 13 filter(s) to remove the very small particles in wildfire smoke.
EPA has summarized the basic and improved DIY air cleaner designs in an infographic. Harvard T. H. Chan School of Public Health has helpful information about building different DIY air cleaner designs.
You may benefit from having more than one air cleaner if smoke is very thick or your home is not well sealed from the outdoor environment. However, if you can designate one room in your home as a cleaner air room that people spend time in when it is smoky out, then one air cleaner may be sufficient. Some people have found it to be effective to move one air cleaner from room to room.
EPA researchers measured the Clean Air Delivery Rate (CADR) for DIY air cleaners to evaluate their ability to reduce smoke concentration. The CADR is a measure of the volume of filtered air that an air cleaner delivers. The higher the CADR number for each pollutant, the faster the unit filters the air. These values are often measured in the lab for tobacco smoke, pollen, and dust, but not for wildfire smoke. The Association for Home Appliance Manufacturers suggest using an air cleaner with a CADR equal to the square footage of the room to be cleaned.
The addition of a cardboard shroud increases the CADR by 40% without any change in the cost or physical footprint. Increasing the number of filters used in the design increases the cost of the raw materials to construct the air cleaner, the complexity of the assembly, and the space the air cleaner takes up. However, designs with more filters are much more effective at removing particles and able to clean larger sized rooms more typical of the living spaces in many homes.
With all DIY air cleaner designs, filters must be changed frequently during smoke events as they may quickly load up with particulate matter. Check the filter daily during a wildfire smoke event. When the filter is dark brown or grey or smells like smoke, it is time to change it for a new filter.
EPA collaborated with Underwriters Laboratories (UL) to assess the fire and burn risks of DIY air cleaners. UL ran a series of tests on five models of box fans under different conditions and measured the temperature on different components of the fan. This type of testing helps to assess whether the fans reach temperatures that pose a fire or burn hazard. All measured temperatures for the scenarios tested met temperature standards for electric fans (UL 507). These evaluations included an extreme scenario where both the front and back of the fan were blocked for an extended period of seven hours and filters loaded with smoke and dust. All evaluated scenarios did not pose any observable fire hazards during testing.
There is a wide range of variability in the types of fans and filters used, and how these DIY air cleaners can be built or operated. Therefore, EPA cannot assure these results are representative of all scenarios. In addition, there are inherent risks associated with operating any electrical device. EPA recommends that anyone who uses a DIY air cleaner follow these important safety tips.
There may be drawbacks to using a DIY air cleaner as compared to a commercial air cleaner, such as increased noise and heat generation from the fan motor, and limited data on how well DIY air cleaners filter smoke particles. When commercial air cleaners are not available or affordable, DIY air cleaners may offer some protection from smoke indoors. It is also important to take other steps to reduce your exposure to particles during wildfires, and to keep an eye on temperature and make sure you have a way to stay cool, even if that means going somewhere else. Learn more about wildfires and indoor air quality and ways to reduce your exposure to smoke.
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