Improve your food plant’s sustainability with five tips

The best options with return on investment (ROI) in mind.


The best options with return on investment (ROI) in mind. Courtesy: StellarAchieving sustainability in a food-processing plant is no easy task. Upfront costs and expenses associated with energy-efficient solutions, such as equipment and building materials, can be difficult to justify. How do you know which energy-efficient options will provide the best return on investment (ROI)?

Below, I expand on some tips for updating your plant’s sustainability—with ROI in mind.

1. Properly insulate your building envelope

Facilities gain the most heat through their walls and ceilings, which is why proper insulation is so critical. Using materials that repel heat can greatly reduce long-run energy costs. Below are three building-envelope measures that can offer good ROI:

  • Use insulated metal panels (IMPs) for insulation. At Stellar, we recommend using IMPs because of their high R-value (a measure of thermal resistance) and low thermal conductivity, which provides your building with a superior thermal performance. They create continuous insulation, ensuring no gaps or pockets are left unprotected, even around panel joints. IMPs are also simple to detail and attach, which reduces scheduling and installation errors.
  • Prevent air leakage. Air that leaks through your building’s envelope—the outer walls, windows, doors and other openings—wastes a lot of energy and increases your utility costs. A well-sealed envelope, coupled with the right amount of insulation, can have a significant impact on your utility savings. Airtight construction will not only reduce energy costs, but will help to mitigate pollutant infiltration and cross-contamination.
  • Reduce solar gains. Solar-heat gain can play a major role in the heat-load calculations that affect your building. When designing new facilities, we try to reduce solar transmittance by adding horizontal shading or reflective glazing to the building’s exterior. In general, light-colored surfaces can effectively minimize heat transfer into buildings. 

2. Reduce refrigeration energy by using variable frequency drives (VFDs)

Refrigeration costs can account for a significant chunk of a facility’s total operating expenses, sometimes because refrigeration systems are unnecessarily working at full capacity. Installing a VFD can help ensure your system never works harder than it needs to. By sensing temperature, pressure or flow, a VFD ramps down the appropriate pump or motor when a specified condition has been met, and ramps it back up once that condition falls outside its given threshold.

However, a VFD can be a significant investment, so it’s important to know which systems will benefit from this kind of regulator, and which will not. A VFD is not beneficial to a system that must run at full capacity at all times to maintain a specified condition. But, it is beneficial in a system that easily achieves a specified condition, yet continues to run at full capacity.

Consider the difference in these two refrigeration systems:

  • Blast chiller. A blast chiller usually experiences a significant amount of heat exchange due to the frequent entry and exit of food products. As a result, it must run at full capacity at all times to maintain a proper freezing temperature. It’s not worth installing a VFD in such a system, as the VFD would rarely be used.
  • Cold-storage warehouse. A large distribution warehouse generally remains at a constant temperature for weeks at a time. Because the net heat load within the system rarely increases, the refrigeration system doesn’t need to run at full bore constantly. In this case, a VFD could provide significant energy savings by scaling down the refrigeration compressor motor. 

3. Use LED lighting in processing areas

The debate over LED lighting almost always comes down to cost: Are LED lights really worth the extra expense? The key to optimizing lighting efficiency is knowing where to use LED lights in your facility.

LEDs are ideal for processing and packaging areas for three major reasons:

  • Longer lamp life. Most LED light fixtures have a lifetime of up to 10 years, which greatly reduces the downtime associated with replacing lighting in processing spaces.
  • Low energy use. LED lights use about 75 percent less energy than other types of fixtures. In processing and packaging areas that require constant lighting, LED lights create significant long-run savings.
  • Ability to withstand cold conditions. LED lights perform especially well in cold temperatures, which is necessary for most food processors. In comparison, fluorescent lighting is more likely to malfunction in extremely low temperatures. 

Fluorescent lights are a viable option for your food plant’s less critical areas (employee rooms and offices). To reduce energy use, it’s common to install occupancy sensors that automatically switch the lights off when the room is not occupied.

4. Think outside the box when it comes to water conservation

Food plants use massive quantities of water for everything from processing to sanitation. It’s important to develop some sort of system for conserving water. Below are three water-conservation tips you may not have considered before:

·         Reuse processing water for external sanitation. Water is often used to heat up or cool down a food product without coming in direct contact with it. Food processors can retain this water for cleaning items such as trucks, pallets and trolleys.


·         Use a water-catchment system. Rather than allowing rainwater to drain into the ground, have a water-catchment system pipe it into reservoirs to be used for things like irrigation and fire sprinklers.


·         Install flow meters on process equipment. A water-control unit, or flow meter, helps ensure process equipment only uses a minimum quantity of water. It can regulate either flow rate or total volume, based on the equipment’s function.


5. Monitor your entire facility’s efficiency with a building automation system (BAS) controller

Most systems in a food plant—refrigeration, electrical, air conditioning, etc.—have built-in data-collection controls that indicate performance efficiency. However, monitoring numerous unconnected systems can be difficult, and sometimes ineffective. One solution is to install a BAS controller to include every system in a comprehensive network, which offers significant energy-reduction benefits including:

·         Scheduled energy use. As the BAS controller becomes familiar with daily routines, it can identify patterns in energy usage. The controller can be optimized to regulate lighting and HVAC systems to match occupancy schedules, which maximizes efficiency.


·         Efficient facility management. BAS controllers collect real-time data on every process, which allows them to report system failures as they occur. This way, engineers don’t have to spend time diagnosing the problem, which reduces downtime and inefficiency. Owners can also use the data collected by the BAS system for accurate energy modeling.


BAS controllers are usually better suited for large plants containing numerous systems. Smaller plants may not have the need for an overarching network of automation controls.

Each food plant has unique needs, so sustainable solutions that work for one may not work for another. The key to making beneficial upgrades is understanding where there is room to improve, and just as important, knowing where you can avoid unnecessary expenses.

- Ryan Danhour is a design project manager at Stellar. This article originally appeared on Stellar Food for Thought. Stellar is a CFE Media content partner. Edited by Erin Dunne, production coordinator, CFE Media,

Stellar is a CSIA member since 11/30/2015.

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