Top 5 Considerations for Energy Efficient Walk-In Cooler or Freezer Operation

Top 5 Considerations for Energy Efficient Walk-In Cooler or Freezer Operation

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If you work in facilities, refrigeration, or energy management, discovering new opportunities to increase system efficiency is a daily challenge. 

Your walk-in cooler or freezer (WICF) is the natural place to look for energy efficiency gains. There are dozens of technologies and proactive approaches that can tune your performance and efficiency to your exact requirements—but those component-level gains are only part of a bigger picture when optimizing the way WICFs use energy. This article will detail the top five considerations refrigeration contractors around the world—and major food retailers —are making in their pursuit of unlocking these energy savings.

1. Establish its intended use

The first consideration for ensuring an energy efficient WICF operation is to understand the purpose of the refrigeration system. Preparing the WICF for its intended use ahead of time will minimize inefficient heat waste, wasteful cooling due to poor planning, etc. Will the WICF be used for general food preservation or food storage, like a traditional household refrigerator, or is more required of the WICF?

With the right components and configuration, WICFs can serve a more precise, dedicated purpose while achieving energy efficiency. For example, a restaurant could have humidity and/or temperature sensitive needs or air-flow requirements for a WICF. Think of the parameters required for beef curing or ice cream.

2. Determine the right system type

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3. The Right Fit

Nothing will have a greater impact on a walk-in cooler or freezer’s performance than a properly sized and designed refrigeration system composed of components that efficiently transfer heat out of a walkin cooler or freezer and keep contents fresh or frozen.

As in any refrigeration system, the main components of a WICF are the compressor, condenser, metering device, and unit cooler. The refrigerant, likely one with a lower GWP such as R-448A, is circulating and changing states throughout the system.

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4. Stay Connected

A good smart controller system, like Danfoss’ Prosa IoT device and smart-phone app for Food Safety solutions, can manage several components from one device to better regulate the walk-in cooler or freezer, thereby delivering energy savings via control technologies like adaptive defrost, set point change mode, door management, door frame heater management, and light control. Establishing a connected WICF system practically eliminates the concern of catastrophic food or energy waste. If the worst case occurs and the WICF goes down, having a connected controller that monitors your system and sends alerts to your smart device when it recognizes an issue will provide enough notice for a local contractor or in-house maintenance staff to remotely troubleshoot the issue before perishable inventory is wasted and costly service repairs are required. Another advantage of a connected WICF is the ability to utilize the cloud for performance, trending and health inspector safety reporting (HAACP), harnessing a platform that can recommend predictive maintenance or energy optimization services. In today’s world, connected devices must be considered when building or retrofitting a WICF. Luckily, connected devices are already available in the market.

5. What’s coming next

Recent legislation on energy standards at both the federal and state levels have affected the WICF market, especially systems with remote condensing units, and they must be considered when determining an energy efficient WICF operation. The US DOE’s Annual Walk-in Efficiency Factor (AWEF) is a metric that measures the ratio of heat removed from the cooler or freezer to the total energy input of the refrigeration system over one year. WICF components must test, and meet or exceed, a minimum efficiency in order to be installed. Enforcement has been underway for over two years. More information on AWEF testing is available on the DOE’s website, https://www. energy.gov/sites/default/files/2022-03/wicftp-nop.pdf. Looking ahead, a new proposal has been submitted to update testing procedures to determine if a more stringent AWEF, called AWEF2, can be achieved. AWEF2 could significantly change energy use, so keep an eye for this standard moving forward. For those in Canada, the requirements for Natural Resources Canada (NRCan) are nearly identical to AWEF except NRCan requires the certifications to be done by a 3rd party while AWEF allows for self-certification.

Another relevant piece of legislation is the US Environmental Protection Agency (EPA)’s American Innovation and Manufacturing (AIM) Act. The AIM Act includes a phasedown of production and consumption of HFC refrigerants across the entire refrigeration industry by 85% over the next 15 years. The availability and cost of HFC refrigerants will force the industry to approve non-HFC alternatives that are more environmentally friendly and with lower a global warming potential (GWP). To monitor potential future regulations, view the proposals made to the EPA here: https://www.epa.gov/climate-hfcsreduction. Besides federal legislation from these two major agencies, several states have gone a step further, adopting the Clean Air Act’s Significant New Alternatives Policy (SNAP) Rule 20. This law prohibits HFCs in stationary refrigeration and air conditioners, specifically food retail refrigeration equipment, such as R-404A in remote condensing units. Despite the law being previously vacated by the United States District Court, many of the states that comprise the US Climate Alliance have committed to implementing SNAP Rule 20 as well as Rule 21 into law. 

To learn more about Danfoss’ energy efficient walk-in coolers and freezers solutions, visit www.danfoss.com/walk-ins .

GURUSAMY CHIDAMBARANATHAN

Engineering Manager in Container Terminal

2y

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