Filtration Efficiency and the Meaning of HEPA Filtration

Published on by John BallLeave a comment

To become more aware of our Heavy Duty HEPA Vac Systems, I am going to dive into the media and filtration efficiency.  The model 901357 HEPA filter has an efficiency level of 99.97% at 0.3 micron.  What does this mean?

In the simplest of terms, filtration is a method of separation.  With air filters, we are separating particles from air.  Particles, due to their mass and size, behave in certain ways as they pass through a fibrous media.  The three main methods for capturing particles are done by:

  1.  Inertial Impaction – Generally with particles over 2 microns in size.  Large particles that are captured because they cannot pass through the openings of the media.  An example, a fly being captured by a spider web. 
  2. Direct Interception – Generally with particles between 0.2 micron and 2 microns in size.  These medium-sized particles follow the air stream around filter fibers and openings.  Because of the tortuous path, the winding turns and the inertial mass of the particle causes it to contact a fiber and get captured.  An example, a sports car going too fast on a curvy road.  The momentum can push you off the edge of the road and into the trees.    
  3. Diffusion – Generally particles less than 0.2 micron in size.  Small particles with very little mass that are bounced around by the air molecules.  The smaller size and weight, the more movement the particle has.  This will increase the chance of hitting a fiber and getting captured.  An example, walking home drunk and being attacked by bees.  You will randomly run everywhere and end up in the neighbor’s bushes.
Diagram 1: Total filtration curve with individual mechanism by particle size

In Diagram 1 above, you notice how each filtration mechanism is used to capture the particles by size.  When you combine the efficiencies of each mechanism, you will get the total efficiency of a filter.  The particle sizes in Diagram 1 are limited above the vapor range.  This inverted “Bell” curve is a typical characteristic for fibrous filters.   If you look closely, you will notice that the MPPS, (Most Penetrating Particle Size) is between 0.2 and 0.3 micron.  That means that if you go larger than 0.3 micron or smaller than 0.2 micron, the filter is more efficient.  That is correct.  With the examples above, a particle in the range of 0.2 to 0.3 micron has enough mass to resist the “bounce” force from other molecules and is light enough to minimize inertia forces, allowing it to pass by and around the fibers of the filter.

Now let’s apply these variables to our HEPA filter.  With the 901357 HEPA media, the efficiency is 99.97% at 0.3 micron.  Knowing the characteristics of a filter, we can apply the inverted curve analysis like in Diagram 1.  As you can see in Diagram 2, the 901357 HEPA efficiency curve will show the efficiency of capturing particles at different sizes.   

Of course, there are different grades of filtration, and they are classified by ISO and European standards.  The chart above shows the different types and grades.  The EXAIR HEPA filter would fall into the H13 class.  HEPA stands for High Efficiency Particulate Air filter, and ULPA stands for Ultra Low Penetrating Air filter.  You can tell by the number of 9s after the decimal to determine the downstream cleanliness.  These standards use the MPPS to test the efficiency and qualify the filtration rating.  For any application that has very fine particles and/or requires very clean exhaust air, the Heavy Duty HEPA Vac System should be recommended. If you have any questions, you can contact an Application Engineer at EXAIR.

John Ball
Application Engineer
Email: johnball@exair.com
Twitter: @EXAIR_jb

Photo: Reference standard EN 1822 or ISO 29463

Compressed Air Pipe

How to Handle High-Demand Events with Compressed Air Systems

Published on by Jordan T ShouseLeave a comment

When production ramps up, deadlines tighten, or seasonal demand spikes, your compressed air system becomes one of the most heavily relied-on utilities in your facility. High-demand events, whether planned or unexpected, can create inefficiencies, consume excessive energy, and create bottlenecks across your entire operation.

The good news? With the right forethought and the right equipment, you can maintain performance, protect uptime, and even reduce operating costs during these peak loads. EXAIR’s engineered compressed air products are specifically designed to help manufacturers meet high-demand challenges without compromising efficiency or output.

Start with System Efficiency: Reduce Air Consumption at the Point of Use

During a high-demand event, every SCFM counts. One of the fastest, most cost-effective ways to free up capacity is to replace outdated, inefficient blowoff methods. Open pipes, drilled holes, and homemade nozzles waste tremendous amounts of compressed air and can violate OSHA safety standards. EXAIR’s Super Air Nozzles, Safety Air Guns, and Super Air Knives are engineered to:

  • Reduce air consumption
  • Maintain or increase blowoff force
  • Operate safely under OSHA dead-end pressure limits
  • Lower overall system load, freeing capacity for critical processes

By upgrading just a few high-usage blowoff points, facilities often recover enough compressed air to handle peak demand without purchasing additional equipment.

Engineered solutions (like EXAIR Intelligent Compressed Air Products) are the efficient, quiet, and safe choice.

Stabilize System Pressure During Peak Use

Pressure drops become more common when demand spikes. That decline leads to reduced quality, slower cycle times, and even unplanned downtime. EXAIR products are engineered to deliver more output force with less compressed air. For example:

  • Super Air Amplifiers entrain up to 25 parts room air for every 1 part of compressed air, multiplying output while drastically reducing consumption.
  • Super Air Knives produce a laminar, high-velocity sheet of air—even at lower pressures—helping extend system stability during peak loads.

These technologies lighten the load on your compressor while maintaining performance at the point of use.

Add Extra Compressed Air Storage to Handle Peak Demand

One of the most overlooked strategies in high-demand planning is preloading your system with stored compressed air. Storage acts as a buffer, preventing pressure drops and reducing the load on your compressor during short, intense spikes.

  • Provides supplemental airflow during short bursts of high demand
  • Reduces compressor cycling, improving efficiency and equipment life
  • Helps maintain system pressure and air quality
  • Offers a cost-effective alternative to purchasing an additional compressor

How to Integrate Storage Into Your Strategy

  • Add receiver tanks downstream near high-consumption equipment
  • Use strategic storage at point-of-use
  • Pair storage with efficient EXAIR blowoff, cooling, or conveying products to reduce total system demand.

Pro tip: If your system is already stretched thin, combining extra storage with EXAIR air-saving solutions often eliminates the need for new compressors entirely.

High Demand Doesn’t Have to Mean High Stress

High-demand events are inevitable in manufacturing—but system strain, energy waste, and reduced performance don’t have to be. By optimizing efficiency, stabilizing pressure, preparing with modular tools, and using engineered products, your facility can handle peak demand confidently and cost-effectively.

EXAIR products are purpose-built for these challenges, offering efficient, OSHA-compliant, high-performance solutions that help your compressed air system keep up with whatever you throw at it.

If you’d like to help identify opportunities in your facility, explore EXAIR’s full line of compressed air-saving products. Or reach out to a Application engineer at techelp@exair.com.

Jordan Shouse, CCASS

Application Engineer

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Using EXAIR Digital Flow Meters

Published on by jasonkirbyLeave a comment

One of the primary contributors to issues with compressed air systems is inefficiency stemming from waste. Common culprits include open pipe blow-offs, air leaks, and malfunctioning nozzles, all of which can hinder the performance of an air compressor, making it difficult to maintain optimal pressure levels. The implementation of Digital Flowmeters offers a solution by enabling precise monitoring of this waste. By temporarily shutting down the compressed air system and isolating specific sections, operators can identify leaks; any flow detected during this isolation indicates the presence of air leaks, which can account for a staggering loss of up to one-third of the system’s compressed air capacity. Additionally, replacing open pipe blow-offs and defective or inferior nozzles with engineered products from EXAIR can significantly mitigate waste. The use of Digital Flowmeters not only provides a clear visual representation of reduced compressed air consumption but also facilitates straightforward calculations of cost savings and return on investment, making it an invaluable tool for enhancing system efficiency.

In facilities that operate around the clock in three shifts, continuous monitoring of the compressed air system is crucial to ensure optimal performance. The implementation of Digital Flowmeters, which offer features such as USB Dataloggers or serial communication, facilitates this monitoring process. For instance, I recently collaborated with a company that experienced frequent machine shutdowns attributed to a low-pressure switch, particularly during the third shift, occurring approximately once a week. To address this issue, they installed a Digital Flowmeter equipped with a USB Datalogger, which enabled them to track the specific day and time of the incidents. Through this data, they discovered that the third shift custodian was regularly emptying the water from the reservoir tank of the compressed air system, inadvertently causing the pressure drop that led to the shutdowns. Without the insights gained from the Digital Flowmeter, identifying the root cause of the problem would have been significantly more challenging.

EXAIR’s Digital Flowmeter w/ USB Data Logger

EXAIR offers a comprehensive range of Digital Flowmeters designed for various piping systems, including sizes from ½” to 4” for Schedule 40 black pipe, with the capability to accommodate up to 8” in this category. Additionally, we provide options for ¾” to 4” in copper piping and from 25mm to 101mm in aluminum tubing. For unique requirements, EXAIR is equipped to calibrate flowmeters to meet specific sizes and types. Our product line also includes Pressure Sensing Digital Flowmeters, which allow for simultaneous measurement of pressure and flow, as well as Hot-Tap Digital Flowmeters that can be installed on pressurized pipes without interrupting the flow. To enhance user experience, we offer a Summing Remote Display, enabling visualization of flow data in more accessible locations. For effective monitoring, our Digital Flowmeters come with a USB Datalogger that captures data for graphing purposes, alongside a 4-20 mA output for seamless data acquisition, with an optional serial output available for further integration.

If you have any questions about Digital Flowmeters, or anything regarding EXAIR and our products, please do not hesitate to reach out. We would love to hear from you!

Jason Kirby
Application Engineer
Email: jasonkirby@exair.com
Twitter: @EXAIR_jk

November’s Press Release: EXAIR Filter Bags Get an Upgrade

Published on by Al WooffittLeave a comment

At EXAIR we are constantly trying to find ways to improve our products or services. One recent improvement we have made is to our filter bags, or more specifically, the material that they are made from.

Our Model 6804 Filter Bag is used with our Chip Vac, and Heavy Duty Dry Vac systems. We have written several blogs about these product lines, but in summary, they are compressed air-operated industrial duty vacuums designed specifically for vacuuming up chips or shavings. Both are powerful options that are perfectly suited for the most demanding industrial environments.

Our Model 6584 Vacuum Bag with shoulder strap is used with ourVac-U-Gun Systems. These systems create a versatile and efficient option for lightweight material transfer and vacuuming. The new filter bag material for both the Chip Vac and Vac-U-Gun can be seen in the video below.

The previous Filter Bag provided all-around performance, but we wanted to do better. Our new Filter Bag is now constructed from a 10oz. Singed Polyester Fabric. This upgrade provides several notable benefits including:

  1. Improved dust capturing performance
  2. Improved dust release — less prone to clogging from dust buildup
  3. More durable fabric — sturdier, less prone to tearing due to regular use
  4. Purpose-built filter material — this fabric is engineered to be used in filtration applications
  5. Particle filtration as small as 30 microns

In addition to these great benefits, the new material will not impact performance; so our Chip Vac and Heavy Duty Dry Vacs are just as powerful, efficient, and quiet!

Al Wooffitt
Application Engineer

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Twitter: @EXAIR_AW