When you’re looking to buy an industrial vacuum cleaner, you’re probably looking for a machine that’s powerful enough to reach roof gutters, deep storage tanks, and dark corners. You also want a machine with long hoses, powerful suction, and a range of attachments or add-ons. Choosing the right industrial vacuum can pay off now and in the decades to come.
Factors to consider when buying an industrial vacuum
If you’re looking for an industrial vacuum cleaner for your facility, there are a few factors you should consider. For starters, you should determine the size of your facility. Whether you need a full-sized machine or a small portable model, industrial vacuum cleaners are available in a wide range of sizes, making it vital to select the appropriate model for your needs. Some companies also offer trade discounts for large purchases.
Another factor to consider is power. You can determine a vacuum’s power by its horsepower, but you shouldn’t just focus on this number. A higher horsepower will not mean better suction. You should also consider airflow, which will determine how much air can be picked up by the machine. Higher airflow means a bigger volume, which is important when picking up dry materials like fine powders. Additionally, higher airflow means the vacuum will be able to lift heavier objects.
Standard vs. HEPA filtration
There are two types of filtration systems: standard filtration and HEPA filtration. Both of these systems have a variety of advantages. A standard filter is able to capture larger particles, while a HEPA filter captures smaller particles. As such, a standard filter may not provide as thorough of filtration as a HEPA filter.
HEPA filters use a photocatalytic oxidation process to remove some microorganisms. This type of filtration is useful for clean rooms, where allergens are an issue. It also works to capture particles that might be present in a floor. For instance, floor dust can contain bacteroidia, clostridium, and bacilli. This means that HEPA filters are ideal for applications that require high levels of contamination control.
When selecting an industrial vacuum, consider its airflow. This is a key determining factor, and it is commonly listed in cubic feet per minute (CFM). A high airflow will help the dirt move into the tank, while a low airflow will reduce the amount of soil that is removed from the surface. High airflow and static lift are essential for improved soil removal.
Industrial vacuums can be used in several different applications. One such application is removing solids, but there are some factors that should be taken into account before choosing a vacuum for this application. In many cases, a standard vacuum cleaner will not provide enough cleaning power to do the job. For this reason, upstream filters are essential to ensure proper filtration.
Upstream filters in an industrial vacuum have two purposes: protecting the motor and collecting dust from the motor components. Upstream filters capture the dust in the exhaust before it enters the motor, while downstream filters capture it before it reaches the airflow. Choosing the right filter for the proper application is crucial to the overall efficiency and long life of your vacuum.
Safety compliance regulations
The NFPA 652 guidelines are designed to help ensure the safest possible operating conditions for both people and equipment. By following these standards, workplaces can reduce the risks of combustible dust and ensure the safety of workers who perform maintenance activities. All working parts, including industrial vacuums, must comply with these regulations. According to the NFPA, the U.S. Chemical Safety and Hazard Investigation Board conducted a study on dust hazards and found that 280 dust fires and explosions in industrial facilities caused 119 worker fatalities and over 700 workers injured. NFPA 652 compliance reduces the risk of accidents, injuries, and death in the workplace.
Many industrial settings generate hazardous combustible dusts, such as flour, epoxy, or other materials. An industrial vacuum must be designed to reduce or eliminate these combustible dusts, and it should be equipped with conductive hoses. Additionally, all conductive parts must be grounded or bonded. Furthermore, dust-laden air should not pass through a fan or blower. In addition, a vacuum must not contain a motor that could cause a fire.