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A Great Experience at the 2023 AHR Expo!

Posted on February 21, 2023

Check out our AHR 2023 Recap Video

We had the privilege of exhibiting at the AHR Expo in Atlanta earlier this month, and we’re pleased to report that it was an incredibly successful experience for our team! As exhibitors, we had the opportunity to showcase our HVAC Flow and Energy Measurement products alongside ONICON Incorporated to a wide range of HVACR industry professionals. We were thrilled to showcase our latest innovations and demonstrate how they can help our customers improve their operations and achieve their goals.

Throughout the expo, we also had the privilege of engaging with our local representatives who journeyed from all over the world to attend. The Expo provided us with ample opportunities to connect with them, including at our sales meeting held in conjunction with the event, and on the expo hall floor.

Our booth at the Expo was a hit with visitors, who were drawn in by demo units showcasing our technologies in action, and new products table. Our newest product, the System-1000 Multi-Channel Flow and Energy Measurement System, generated a lot of interest and was certainly one of our most popular displays. Aside from exhibiting, our team also took advantage of the educational sessions, which were invaluable for learning about the latest trends and best practices in the industry. We’re eager to integrate these insights into our future products, ensuring that we continue to provide innovative solutions that meet the needs of our customers. Outside of the Expo Hall, the highlight of the show was our annual Rep Appreciation dinner where we got to spend time with and honor our reps for their tremendous efforts over the past year.

Overall, the AHR Expo in Atlanta was a highly rewarding event for us and we thank everyone who participated with us. We’re eagerly anticipating next year’s expo in Chicago, in the meantime be sure to check this year’s event Recap video on ONICON’s YouTube Channel!

Air Monitor is Heading to Atlanta for the AHR Expo!

Posted on December 13, 2022

We are excited to exhibit at the upcoming AHR Expo taking place February 6-8 at the Georgia World Congress Center in Atlanta, GA. We will be alongside ONICON Incorporated showcasing our HVAC airflow, flow, and energy measurement solutions in Booth #C5519.

The AHR Expo is the world’s largest HVACR event and attracts the most comprehensive gathering of industry professionals from all over the world. The expo provides hundreds of educational sessions, networking opportunities, and a space for attendees to share ideas all under one roof. We look forward to gathering with our sales reps, customers, and movers and shakers in the HVACR industry at the event.

“We have new and exciting products and cannot wait to share them with the attendees at the upcoming expo.” – said Ashley Bence, Senior Product Manager. “It’s always a pleasure to be able to showcase our products in action on the show floor.”

Registration is free through February 4th and once you have registered, be sure to visit our Map Your Show page to see what we will be featuring and to make sure you don’t miss out on visiting our booth while you’re there. See you in Atlanta!

A Comparison of Outside Airflow Measurement Technologies

Posted on November 10, 2022

Are you using the right product for this challenging application?

The Need for Accurate Outside Airflow Measurement in HVAC

Outside air is used to refresh the air inside modern buildings. Measuring outside air entering the building is a key factor in maintaining proper indoor air quality for occupant health and safety. It is also essential for meeting energy-savings goals and ASHRAE air quality standards required by today’s high-performance buildings. As a result, building automation systems (BAS) must take outside airflow data into account to meet ventilation standards, accurately measure energy consumption, and maintain proper indoor air quality. When building automation systems rely on technologies not specifically developed for this application, it becomes a challenge to reliably measure airflow. This can lead to increased operating costs, inadequate building pressure control, and uncomfortable or unsafe living and working conditions.

HVAC equipment maintaining proper indoor air quality inside the building.

When building automation systems rely on technologies not specifically developed for this application, it becomes a challenge to reliably measure airflow.

Measurement of Outside Airflow is Difficult

Outside airflow is difficult to measure. Conditions on rooftops can be extremely turbulent, with constantly changing wind velocities and directions. This is in addition to temperature, humidity, and barometric pressure variations that can affect density. Outside air is also unfiltered and may contain moisture (fog, rain, sleet, or snow) and particulate matter. All this is made more difficult by the design of outside air inlets. These inlets do not usually have any straight duct runs to condition airflow prior to measurement.

The lack of straight duct runs to condition flow is not the only inlet design feature that makes accurate airflow measurement difficult. Inlets are often designed for multiple uses. Typically, they are used to bring air into the building to maintain indoor air quality, and at the same time, they are used as an outside air economizer inlet. This means that the inlet is oversized for maintaining indoor air quality. The result is very low flow velocities at the inlet most of the time. Low velocities directly affect measurement accuracy and reliability. Rooftop packaged units are a worst-case example, as the minimum outside air and the 100% outside air economizer functions are forced into a single inlet. To make matters worse, some manufacturers combine several unit sizes into a single box/frame/control damper/hood size. Any product chosen to provide critical airflow measurements for this tough application must overcome these issues.

The three most often used technologies in outside airflow measurement are thermal dispersion, pitot array, and the pressure difference across a known resistance. As a manufacturer of all three, Air Monitor has decades of real-world experience utilizing these solutions in various outside airflow applications. This in-the-field experience has allowed us to evaluate and compare the performance characteristics of each technology without a built-in bias. The following information outlines the pros and cons of all three approaches and Air Monitor’s recommendation for measuring outdoor airflow.

Technology #1: Thermal Dispersion

Thermal dispersion is a velocity-based technology. Velocities are measured at several distinct points and the readings are averaged. The flow rate is calculated using the average velocity and the cross-sectional area of the intake measured at the plane where the instrument is inserted (this can be difficult in hoods, with tapered inlets).

Each point of measurement utilizes two precision-matched thermistors for temperature measurement. One thermistor measures ambient airflow temperature, and the other is heated to maintain a fixed differential above the ambient temperature. Heat is transferred from the heated thermistor to the air stream, and as airflow velocity increases, the rate of heat dispersion increases. The relationship between the airflow rate and the power needed to maintain the temperature difference is used to calculate velocity.

Thermal dispersion airflow measurement works best when used with upstream straight ducts to condition flow.

Pros:

Measurement accounts for temperature and elevation; output can be either actual flow rate (ACFM) or standard flow rate (SCFM)
High turndown – a wide range, from low to moderately-high velocities
Mid-price range
Sold as a system, not as component parts

Cons:

Thermal sensors do not tolerate any form of moisture in the air
- Moisture causes sudden quenching of the heated sensor resulting in random measurement spikes and instability
They perform poorly in dynamic and turbulent airflow conditions.
- Measurement apertures are not tolerant of airflow that is off-axis (angular flow through open wall intakes, intake hoods, and duct transitions)
- Flow elements cannot distinguish between forward and reverse direction of flow
- There is a tradeoff between the cost and the number of measurement points. This often results in fewer used than industry recommendations for accurate average velocity measurement. To make up for this, thermal dispersion systems typically require 2 to 8 diameters of straight duct runs both upstream and downstream which are rarely available in outside air intake duct configurations
Velocity measurement is susceptible to wind gusts resulting in a very noisy signal making dampers difficult to control
Requires regular, preventative maintenance
- The dirt and debris found in the unfiltered outside air can coat and insulate the thermal sensors causing thermal coefficients to change, resulting in inaccurate flow measurement

Technology #2: Pitot Array

Pitot-based measurement (Delta P) has been used in HVAC applications for nearly half a century. It is a velocity-based technology. Dynamic pressure and static pressure are measured at many points, and the results are averaged. The velocity of airflow is proportional to the difference in pressure. A differential pressure (DP) transmitter is used to convert the difference into an average airflow velocity. The transmitter then converts average velocity into average airflow volume using the cross-sectional area of the duct.

There are substantial differences in the performance and price level of products that use this measurement principle. Systems have two components: Pitot probes and the DP transmitter. System accuracy depends on the number of sensing points and the selection of a DP transmitter. Transmitters that offer an excellent turndown (velocity range) are much more expensive. At the low price point, we see mismatched components and systems that use fewer than the required number of probes, and a generic, low accuracy, limited turndown, DP transmitter. At the high end, we see systems with well-matched probes, and transmitters that are used as one flow measurement system. Systems of this type are performance tested and recognized by an independent test laboratory like Air Movement & Control Association International, Inc. (AMCA).

Air inlets lacking straight duct runs to condition flow require large numbers of Pitot tubes to achieve accurate flow measurements.

Pros:

Measurement systems with correction for temperature and elevation via secondary measurements can output either actual flow rate (ACFM) or standard flow rate (SCFM)
Low-cost systems may be acceptable depending on performance requirements
Velocity can be measured at a vast number of points across the duct resulting in accurate average velocities
Tolerates moisture better than thermal technologies – moderately tolerant of dust in the air
Robust construction, no active components in the air stream improves long-term reliability

Cons:

Over a long period of time, sensing holes can plug with accumulated dirt, requiring periodic cleaning
Limited turndown for systems with poor transmitter selection, however with a better selection of transmitters, this can be eliminated
These systems do not perform as well in dynamic and turbulent airflow conditions
- Measurement apertures are not tolerant of flow that is off-axis (angular airflow), some Pitot probes are designed to compensate for limited angular velocity vectors, but not all systems offer this
Low-cost systems sacrifice performance
- If velocity is measured with far fewer measurement points than recommended by industry standard
- Can only output actual flow rate (ACFM) if secondary temperature compensation is not performed
- Periodic Calibration is required (due to transducer zero drift if the DP transmitter selected does not have AUTO-zero capability)

Technology #3: Pressure Difference Across a Known Resistance

In the late 1700s Giovanni B. Venturi observed the pressure drop that occurs when a fluid accelerates to pass through a constriction. He correlated this with Bernoulli’s work and published the Venturi Effect in 1797. Those mathematical relationships have been used in measurement technologies for over a century in pipes. Still, they are not practical for measuring outside airflow in large intake ducts primarily because they produce very high-pressure drops.

The Air Monitor OAM II Outside Airflow Measurement System utilizes these principles to measure static pressure fields that develop when air flows through any screen or louver with a known velocity vs. pressure drop curve without a significant change in the pressure drop. These static pressure measurements used in concert with temperature, barometric pressure measurements, and inlet size can be used to calculate the flow rate at any atmospheric condition.

Small differences in static field pressures created by air moving through a fixed inlet allow the OAM II to accurately measure airflow without the need for straight ducts to condition flow.

Pros:

High tolerance for dynamic variations in velocity and direction
The system accounts for temperature, elevation, and barometric pressure; it can output either actual flow rate (ACFM) or standard flow rate (SCFM)
Zero straight run of duct required
High turndown capability with stacked transducer arrangements
Reliable accuracy in real-world conditions
Nearly impervious to dust and moisture
Robust construction
Versatility – can easily be applied with louvered openings, hoods, dampers, ducts, plenums, etc.
Can be retrofitted to existing systems

Cons:

None for outside airflow applications

The Informed Decision

Precision in outside airflow measurement is essential to ensure that ASHRAE ventilation standards are met, energy consumption calculations are accurate, and that proper indoor air quality is maintained for occupant health and safety. Each of the technologies discussed in this guide has their strengths and can be a viable solution for some airflow measurement applications. As an experienced manufacturer of all three systems, we at Air Monitor can confidently say that the pressure difference across a known resistance technology found in our OAM II product is the best airflow measurement solution for outside air applications.

Click here for more information on the Air Monitor OAM II Outdoor airflow measurement system.

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ONICON & Air Monitor Host Annual Engineering Conference

Posted on October 21, 2022

We were pleased to host our annual ONICON and Air Monitor Engineering Conference and Showcase October 14 on Clearwater Beach, Florida. The conference guests included our representatives and their customers who came from all over the country to participate in this HVAC Flow and Energy Measurement centered conference.

The event kicked off with a welcome reception Thursday evening at a local brewery where the group got to relax after a day of travel and enjoy a beautiful Florida gulf coast sunset!

On Friday morning, conference participants had the opportunity to attend educational sessions around all things HVAC Flow & Energy Measurement including: fundamentals, technologies, applications, and effectively implementing and utilizing flow measurement. The various experience and backgrounds of the attendees curated great discussions and kept the group engaged throughout the day.

The information exchange throughout the day brought so many new perspectives; and the networking between our employees, our reps and customers was special. I think everyone who participated in the event left with some great new insight about how ONICON and Air Monitor can be an engineered solution provider for HVAC flow and energy measurement. – Mike Rivers, National Sales Manager

One of the highlights of the day was the ONICON Factory tour, where the guests got an inside look into our factory in Largo, FL. The tour included seeing our products in action on various flow loops, watching real time wet-calibrations, and getting insight into what’s up and coming from our engineering and new product development departments.

At the completion of the conference the group got together for a networking dinner during which the attendees could meet additional ONICON and Air Monitor employees and continue their conversations from the conference. Saturday morning our guests enjoyed a morning fishing outing followed by a fish fry where they could taste their catch and enjoy the fruits of their labor.

The Conference was a key source of information for the attendees, and the different perspectives and insights that each individual brought to the event were an addition to the learning experience.

Interested in participating in this one-of-a-kind event? Keep in touch with your Local Representative for updates on the 2024 Engineering Conference.

Air Monitor to Exhibit at the 2022 AHR Expo in Las Vegas

Posted on November 11, 2021

Air Monitor Corporation is pleased to announce our participation at the 2022 AHR Expo in Las Vegas, January 31 – February 2, exhibiting alongside ONICON Incorporated in Booth C1552!

After taking a year off due to the pandemic, the showcase is back and better than ever, featuring three engaging days of networking, socialization and education on all things HVACR. The show will be focused on new products, technologies and opportunities to connect 1:1 with exhibitors on the latest updates and innovations from all segments of the industry.

Since 1930, the AHR Expo has been providing opportunities for manufacturers from all specialties and corners of the HVACR world to come together and discuss solutions and showcase cutting edge technologies. The event, co-sponsored by ASHRAE and AHRI, supports engineers, contractors, technicians, facility operators, architects, educators and other professionals in cultivating business relationships and learning about the latest industry trends and applications.

Our incredible sales and engineering team will be at the showcase to meet with attendees and talk about our airflow measurement solutions. Be sure to add us on the expo’s My Show Planner website feature to ensure you also meet Floyd, our traveling demo unit, where you can see our airflow technologies in action! Registration is open and free for a limited time, we hope to see you in Las Vegas!

Florida West Coast Chapter Wins Big at the ASHRAE Region XII 2021 CRC

Posted on August 20, 2021

Air Monitor at ASHRAE FL West Coast

Air Monitor is pleased to announce a successful showing this past week at the 2021 ASHRAE Region XII Annual CRC in Orlando!

The event provided a great opportunity for our Region XII ASHRAE members from all over Florida and Latin America to connect, discuss real world HVAC and control strategies and celebrate the past year’s successes. The four-day conference included educational sessions, technical presentations, networking opportunities and a vendor showcase. But the highlight was the awards ceremony where our Florida West Coast (FWC) chapter was recognized with the Best Chapter award for 2020-2021 and Air Monitor’s own Emilie Brun and Gabby DeFreitas were recognized as the region’s best Young Engineer’s in ASHRAE (YEA) Chairs!

ASHRAE FWC chapter members from our Air Monitor family, Doantrang Le Tran and Ashley Bence, attended the conference and worked alongside our Regional Sales Manager Zack Landis and Sales Application Engineer John Cook to chat about our HVAC airflow measurement solutions at the vendor showcase.

““It was so great to get together and celebrate all our hard work during this crazy year we have had! Thank you to the Central Florida Chapter for hosting the event and congratulations to our own Florida West Coast chapter for overall best chapter in the region”

Doantrang Le Tran – Product Manager for Air Monitor & ONICON, 2020-2021 ASHRAE FWC Chapter Member, and 2021-2022 ASHRAE FWC YEA Chair.

Air Monitor is proud to have had the opportunity to contribute to this event as a Co-Silver Sponsor with

ONICON Incorporated and to represent the ASHRAE FWC chapter. We appreciate the hard work of the board members, chapter chairs, volunteers and all that have contributed to the Region’s success this past year. We look forward seeing everyone at next year’s Region XII Annual CRC!