Air handling unit (AHU) filters are used in an HVAC system to prevent dust and other contaminants from circulating in a building. They help improve indoor air quality (IAQ), which has become an increasingly important concern for all facilities since poor IAQ negatively impacts people’s health and productivity.
There are usually three types of filters within an air handling unit:
Primary filters are typically panel filters that have a pleated design. These pleats increase the filter’s surface area, allowing it to catch more dust. By collecting dust before it travels further into an AHU, primary air filters also prevent dust buildup from occurring on mechanical components such as motors, fans, and cooling coils, and in ductwork.
Where primary filters act as the first line of defense against dust, secondary filters are used after them to capture finer particles like bacteria and pollen, as well as any remaining dust. Secondary filters are generally filters that protect the higher-cost final filters and have an efficiency rating of MERV 11 -16. The higher the MERV value, the more efficient the filter will be at trapping airborne particles.
Both primary and secondary filters protect higher-cost final filters used when having clean air is critical. Final filters are designed to trap microscopic airborne particles and contaminants from an air stream. You can expect final filters to be Sub-HEPA, HEPA, or ULPA filters, which all serve the same function but deliver varying levels of filtration efficiency and performance.
As filters become filled with dust, or dust accumulates in the system’s ductwork, pressure resistance increases. This resistance causes the HVAC fans and motors to work harder, wasting energy and leading to wear on the mechanical system. The relationship between air filters, energy efficiency, and HVAC mechanical components is a delicate one, so your filters must not fail. Here we examine some of the most common reasons that filters underperform and ways you can avoid unnecessary problems.
When selecting a filter, it helps first to define the overall goal you are trying to achieve. Say you are trying to provide clean air for patients and employees. That would likely require using a filter with a Minimum Efficiency Reporting Value (MERV) of 14 or higher. The higher the MERV value, the more efficient the filter will be at trapping airborne particles. Great, you’ve narrowed that down. But there is often a tradeoff with using higher MERV level filters. While they produce cleaner air, they may also require a stronger fan and more energy to push the air through them. High-efficiency particulate air (HEPA) filters have a high filtration efficiency and are most often used in hospitals and medical facilities. Always consult with your system’s manufacturer to determine the pressure difference across the filters in your AHU. Specifying high-efficiency filters will help create a lower pressure drop, making it easier for equipment to overcome these demands.
The bottom line is that you should specify filters that meet required filtration levels and system configuration needs. Choosing the right filter will yield a lower overall cost of ownership and require less frequent change-outs.
You have to know what elements your AHU filters might be exposed to at any given time. In agriculture buildings, for example, filters need to withstand extreme temperatures, wind and snow. In a commercial kitchen, humidity would be a factor to consider. Having this knowledge will help you determine what frame construction (paper vs. metal vs. plastic) or media technology (fiberglass, washable, antimicrobial, etc.) will be most appropriate.
HVAC filter size is measured using length, width and depth. While all manufacturers offer standard sizes, some will create custom sizes with dimensions to fit individual units or filter banks. Using incorrectly sized filters or filters that are improperly installed with faulty seals or gaskets can cause gaps. Even small gaps that may seem insignificant can permit a bypass of dirty air, decreasing the performance of the rated filter and the HVAC system. Always install a filter according to the air flow direction indicated on the frame. Check to be sure the filter is properly seated in the housing, and pull any clips or fasteners tight to ensure a proper seal. For filter banks, make sure the mounting is structurally sound and will not collapse or weaken the filters under stress.
The way a filter is handled and stored prior to installation matters immensely. Filters have fine structured media fibers, so care must be taken not to drop, touch or puncture them. A bent frame can mean the difference between a good and bad seal. The correct way to store air filters is in the upright position, with the pleats running vertically. Never store air filters flat on the ground or in a damp environment.
Regularly scheduled filter maintenance is crucial to achieving desired IAQ, reducing additional equipment maintenance and downtime, and extending the life of HVAC components. After selecting and installing the proper air filters, they should be monitored to ensure pressure drops are within established limits and to address any other filter issues that could overtax the system. Whether you track filter change-outs manually or use a computerized maintenance management system (CMMS), keeping accurate service records can assist with HVAC system warranty claims.
Parker HVAC Filtration offers a broad range of filters to solve your most challenging filtration challenges. Our impressive legacy of filtration brands combined with our technical expertise have strategically helped customers across various industries and facilities achieve a better environment for their occupants, employees, manufacturing processes, equipment and livestock. Consider these trusted solutions for your next application, and as always, contact our Division at 1-866-247-4827 to speak with a filtration specialist.
Parker’s MICROGUARD® and MICROPLEAT™ premium filters deliver advanced performance for today’s clean manufacturing process and other critical environments.
When to use:
For higher air flow volume applications when high purity and energy savings are required. Feature and benefits include:
In 2020, Parker introduced LoadTECH® filters with our proprietary E-Pleat® media technology to help our customers meet increased air filtration challenges in their HVAC systems.
When to use:
To achieve fewer filter change-outs, reduced labor and disposal costs. Feature and benefits include:
Parker’s XTREME+Plus® standard capacity SSP filters offer extreme durability and industry-leading dust-holding capacity in normal operating environments.
When to use:
Applications with low and medium dust-loading conditions. Not recommended for use in high-temperature or turbulent air flow environments. Feature and benefits include:
To learn more about Parker’s commercial and industrial HVAC filtration capabilities, visit our website or call us at 1-866-247-4827.
This post was contributed by the HVAC Filtration Team.