Implementing the Right Air Distribution System

Implementing the Right Air Distribution System

Air conditioning was cost prohibitive because of the mezzanine’s openness to the rest of the facility. However, evaporative cooling could operate less expensively than air conditioning and lower the mezzanine temperature.

Just minutes after arriving at fruit packer Venida Packing to bid on retrofit HVAC ventilation work, mechanical contractor Jonathan Chapman knew what his recommendation for air distribution would be: fabric ductwork.

The company’s newly built lunchroom mezzanine above the fruit packing floor required gentle and even airflow, and—due to its proximity to the inherently dusty process of packaging kiwi and other fruit—it needed to be easily cleanable. Additionally, any ductwork option Chapman recommended needed the ability to incorporate custom printed logos to satisfy Exeter, California-based Venida’s passion for displaying company branding.

“There were company logos throughout the plant,” recalled Chapman, president of Jack’s Refrigeration in Reedley, Calif. “The practical side of the application—airflow, air distribution, aesthetics—all pointed toward fabric ducts, but the fact that company logos could be custom printed on the duct surface helped convince Venida that fabric ducts were a superior choice over metal ducts.

Prior to the retrofit, the mezzanine temperatures reached 115 degrees Fahrenheit on hot days, which was unacceptable for visitors and lunching employees. Air conditioning was cost prohibitive because of the mezzanine’s openness to the rest of the facility. However, evaporative cooling could operate less expensively than air conditioning and lower the mezzanine temperature at least 25 degrees Fahrenheit below the outside ambient temperature. Additionally, any of the cooled air spilling out of the mezzanine would be a bonus for employees working below.

“We wanted an attractive, cool area where employees could have lunch and our domestic or international visitors could relax in comfort,” said Richard Donkin, manager of Venida, which is a custom packer of peaches, plums, nectarines, kiwifruit, pomegranates, persimmons and grapes. “The fabric duct looks very streamlined and high tech, which is good because it’s very visible as guests look beyond it and out over the operation from the mezzanine.”

An even airflow was a major consideration because the space’s seven-foot-high headroom, support columns and ceiling structure required ductwork to be mounted outside the 4,600-square-foot mezzanine and blow cool air into it.

With such a long throw of 30 feet, traditional metal ductwork with registers at 10-foot intervals would have created uncomfortable drafts on occupants. Chapman’s initial thought of installing four evaporative coolers on the roof and letting air drop into the space was viable, but would have been a drafty proposition.

Instead, Chapman specified premium fabric ductwork with a high-throw airflow. The streamlined ductwork has linear diffusion in the form of high-throw orifices running the entire length of the mezzanine, which produces a more even airflow than registers mounted every 10 feet on metal ducts. Chapman’s design also allowed the use of one large 22,500 cfm evaporative cooler versus splitting up the equipment requirement in four units, which saved Venida significant installation costs.

Existing exhaust fans luckily had variable frequency drives which afforded Chapman the opportunity to adjust the exhaust and produce a preferred positive pressure.

“Evaporative cooler output static is rated for scenarios of simply dumping air into a space and no external static,” Chapman said. “Since we designed for a .5 wg static pressure because of the ductwork, the cooler is actually producing around 17,500 cfm.”

The fast-track project’s schedule was squeezed between a two-week off-season period for the fruit packer. The fabric duct and suspension system was installed in less than one day, according to Chapman.

The plant plans to periodically disassemble and launder the white ductwork with their in-house maintenance staff to maintain indoor air quality as well as aesthetics.

“Metal ductwork is immovable, but all we need is a forklift/manlift cage to take the fabric duct down for cleaning,” said Donkin. Whether for a new building or retrofitting an existing space, fabric air dispersion systems just make more sense than metal ductwork.”

This article originally appeared in the October 2020 issue of Occupational Health & Safety.

Download Center

HTML - No Current Item Deck
  • EHS Management Software Buyer's Guide

    Download this buyer's guide to make more informed decisions as you're looking for an EHS management software system for your organization.

  • Steps to Conduct a JSA

    We've put together a comprehensive step-by-step guide to help you perform a job safety analysis (JSA), which includes a pre-built, JSA checklist and template, steps of a JSA, list of potential job hazards, and an overview of hazard control hierarchy.

  • Levels of a Risk Matrix

    Risk matrices come in many different shapes and sizes. Understanding the components of a risk matrix will allow you and your organization to manage risk effectively.

  • Free Safety Management Software Demo

    IndustrySafe Safety Management Software helps organizations to improve safety by providing a comprehensive toolset of software modules to help businesses identify trouble spots; reduce claims, lost days, OSHA fines; and more.

  • Industry Safe
Bulwark FR Quiz

OH&S Digital Edition

  • OHS Magazine Digital Edition - March 2021

    March 2021


      The Impact of COVID-19 on Drug Testing
      Preparing for Unpredictable Spring Weather
      Building a Comprehensive Floor Safety Strategy
      Gas Hazards and the COVID-19 Vaccine
    View This Issue