Insulation Plays Critical Role at Food-Processing Facility

Darrell Peil

Darrell Peil holds the position of Specifications and Business Development Mgr./Commercial & Industrial for Knauf Insulation (www.knaufinsulation.com), serving North America. Currently a member of ASHRAE and ASTM, he serves on several committees related to mechanical insulation systems and components. He is a past Chair of NIA’s Technical Information Committee, a past Chair of ASHRAE’s TC 1.8 Handbook Subcommittee, current Secretary for TC 1.8 - Mechanical Systems Insulation, and a member of the editorial committee for the North American Commercial and Industrial Insulation Standards manual (NACIIS manual). Mr. Peil has been associated with the building mechanical systems industry since 1982, holding various roles in the contracting, distribution, and manufacturing segments of the industry. During that time, he has served in several positions requiring in-depth work with business and product development, systems design, specifications, standards, and codes applying to a wide range of applications.

October 1, 2017

For more than a century, Faribault Foods has delivered a spectrum of canned goods to consumers, steadily building a brand portfolio that includes household names such as Butter Kernel, Luck’s, Chili Man, and KC Masterpiece. In 2014, the company merged with Arizona Canning Company as a result of being acquired by La Costeña, a Mexican food company, further expanding both organizations’ offerings and capabilities.

As part of its ongoing growth, Faribault Foods began construction of a new plant in Faribault, Minnesota, in 2016. The new facility features faster, more efficient production lines and a can-production line. It expanded the size of the Faribault complex there to nearly one million square feet.

Construction of the new state-of-the-art plant involved evaluating all aspects of materials to deliver a facility that would operate at optimum efficiency—something demanded in the increasingly competitive food industry. Insulation is critically important to these types of facilities. Improper insulation choice can lead to system inefficiencies, energy waste, or even put the system at risk for damage. These systems must undergo frequent wash downs, making it important to choose an insulation that is resistant to moisture, and a jacket that allows for multiple-times-per-day cleanings.

Good Insulation Value without Compromising Moisture Resistance

The Faribault installation was a challenging application. As a food processor, Faribault Foods must comply with strict cleanliness regulations. That means many areas of the facility are subject to hot water wash downs on a routine basis. For food-processing systems, it is important to choose an insulation that can provide moisture and corrosion resistance. This requirement also necessitated that the insulation chosen must be covered with a solvent-welded PVC jacketing system to provide the initial resistance to water and physical impacts from repetitive cleaning. This jacket provides an outer layer to the designed insulation system and increases its moisture-resistance, which is extremely important given the frequent wash downs. The PVC jacket is easy to clean and gives the system a high level of protection.

Water, as always, is insulation’s worst enemy, so Faribault’s design build firm, the Stellar Group, evaluated a number of closed cell insulation products to go under the PVC jacket. “We created a specification and then reviewed several products to see what could meet it,” said Brad Blocker, Project Manager.

Product Selection: EPDM Elastomeric Foam Closed Cell Insulation

The project has above- and below-ambient water systems and below-ambient equipment such as pumps, heat exchangers, vessels, and extensive refrigerant piping. All these systems and pieces of equipment had the same needs: a thermally efficient, highly moisture resistant, long-lived insulation system with a USDA-approved wash-down finish. The installation had to be tightly sealed against moisture intrusion and water vapor intrusion with a high level of attention to detail. The piping and equipment being insulated included regular carbon steel construction and a significant amount of stainless steel construction. It was necessary to use an insulation system that did not contribute to external stress corrosion cracking on stainless steel. This is a highly common concern in most food-processing facilities today, creating a common need for insulation materials that can serve long-term on stainless systems without contributing to a shortened life span of the piping and equipment. “Some of the first products looked at for the project turned out not to offer the necessary performance,” noted Gary Shelberger of Ten Point Marketing, who was also involved in the project. “They could provide part of the performance solution, but not all of it. This was a complex job—there were different sizes of pipe, and there was the sheer volume of pipe that had to be insulated. The insulation had to not only perform, but it had to be easy to install. There were many times when the pipe installation technicians were having to work around other contractors’ schedules. There were lots of stops and starts.”

The insulation product chosen for this project is 38% more thermally efficient than the next most-moisture resistant insulation material. This feature reduced the thickness needed while providing the same insulating protection. When paired with a PVC jacket, it also delivered the water and water-vapor resistance desired for low temperature insulation systems in the food-processing environment and protected the system from efficiency losses. The product was also chosen because it delivers excellent fire safety properties and does not support combustion, having been rated as self-extinguishing, as tested by ASTM D635. It will not support the growth of microorganisms, which eliminates the need for microbicides, as tested by ASTM C1338, G21, and UL181; and also does not contain chlorofluorocarbons (CFCs), hydrofluorocarbons (HFCs), and hydrochlorofluorocarbons (HCFCs), making it safe for use in a wide range of facilities. It is a 99+% closed-cell material that provides no food source for birds or vermin, is stable over a wide range of environmental conditions, and contributes to sustainable building practices, including LEED™ and LBC™.

The Big Challenge: Corrosion under Insulation on Stainless Steel

Another major concern for Faribault Foods and its contractors was corrosion under insulation (CUI). This phenomenon occurs when halogen compounds (compounds of chlorine, bromine, or fluorine) become trapped with moisture under the insulation, corroding even stainless steel piping. There are extensive process piping systems and pieces of equipment in this facility made from stainless steel. In an environment such as a food-processing plant, there is the constant threat of moisture and water vapor entering the insulation system. This is especially true if there is a meat processing or cooking element involved, such as with chili or seasoning meat for beans, which have long process times (compared with vegetables, fruits, and juices) and generate high temperatures and high humidity. High heat with humidity and steam can drive moisture into an insulation system, so the system needs to be very moisture resistant, well-sealed, and easy to clean. Chlorine is one of the most common chemicals used for cleaning wash downs, so the system also needs to be impermeable. This is managed with: (1) Effective sealing of insulation systems, especially at all termination points; and (2) An insulation that contains low-halogen compounds that could react with moisture. In such circumstances, the insulation that will be in contact with stainless steel piping should be tested for meeting the requirements of ASTM C795 and/or C692 to avoid the content of halogen compounds that can leach out when water is introduced, combining with the moisture, and creating a solution that can corrode stainless steel piping.

“There are very low levels of any halogen compounds in this product that could contribute to CUI,” noted Shelberger. “That was a very attractive point for the customer. And the installation system for the [elastomeric insulation] provides positive seals at all points—even product ends—so there is solid confidence in moisture protection.” Greg Newman of Insulation Midwest, the contractor who installed the insulation, also noted that “it doesn’t contain foaming agents that can contribute to pipe corrosion. Something else to consider about EPDM is that it doesn’t crystallize when exposed to hot water—it retains its elasticity.”

These performance characteristics have made EPDM an appropriate option for many below-ambient mechanical systems operating as low as -320°F, including chilled water, retail food case refrigeration, industrial refrigeration applications, glycol, brine, ammonia refrigeration, industrial gases, liquid methane, liquefied natural gas (LNG), and liquid oxygen systems.

More Than Five Miles of Pipe

One of the biggest challenges for the Faribault Foods installation was its sheer size. The plant addition added over 600,000 square feet, making the entire complex nearly 1 million square feet. The entire plant used more than 5 miles of pipe insulation with PVC jacketing and over 20,000 square feet of rolled EPDM insulation. In addition, Project Manager Blocker pointed out that the plant layout had the boiler room and the refrigeration areas more than 800 linear feet apart, so any common pipe elements had to account for this span. This project included well over 5,000 linear feet of pipe used for the boiler/mechanical room only. We were dealing with different sizes and with untold connections and joints.

Installation

The contractors used both pre-slit and unslit elastomeric. The unslit product was used to slide over uninstalled piping. The pre-slit elastomeric used had a positive self-sealing strip that bonded with the EPDM to keep moisture out (remember—there are millions of EPDM membrane roofs installed around the world). Ends were joined with contact cement or a special pressure-sensitive adhesive disc that ensures a solid seal and made installation faster. Pressure-sensitive closures are appropriate for food-processing facilities because there are no fumes or solvent vapors to contaminate products, and it can seal in cold environments. “Installers were able to move quickly and effectively, even when they had to be interrupted because another contractor’s work took precedent. It was easy to pick up where the workers had left off,” said Shelberger.

Conclusion

There are several selection criteria to consider in a project like this. Cost effectiveness and system longevity are major system design considerations for an owner who wants to see process efficiency and temperature regulation continued uninterrupted for the life of the installation. As important as material selection is for this, detail and quality during installation are also key. The expectation of high levels of moisture and water vapor in the environment drives the need for effectively and completely sealed moisture-resistant insulation system components. This sealing requires skilled labor that is highly familiar with the specialized needs associated with these kinds of installations. When a well-designed and -installed system is in place, an owner can see not only a financial return on his investment, but a reward in the system’s reliability.

 

Copyright Statement

This article was published in the October 2017 issue of Insulation Outlook magazine. Copyright © 2017 National Insulation Association. All rights reserved. The contents of this website and Insulation Outlook magazine may not be reproduced in any means, in whole or in part, without the prior written permission of the publisher and NIA. Any unauthorized duplication is strictly prohibited and would violate NIA’s copyright and may violate other copyright agreements that NIA has with authors and partners. Contact publisher@insulation.org to reprint or reproduce this content.

Related Articles

Case Study: Creating a Program for CUI Prevention at a Refinery

Introduction This case study looks at a particular oil refinery located in the Midwest that has had a long-standing problem with corrosion under insulation (CUI). In the late summer of 2012, the refinery owner hired me as a consulting engineer to make practical recommendations to reduce the number of occurrences and severity of CUI. Unfortunately,

Read Article

Case Study: Replacement of District Energy Chilled Water and High-Temperature Hot Water Distribution Line Insulation

Brown University is a school of 8,700 students and 700 faculty members in Providence, Rhode Island. The University operates a hot water and chilled water distributed energy system run off a co-generation plant. The hot and chilled water is distributed in pipes running through a system of tunnels and manholes. The existing piping was insulated

Read Article

Case Study: Insulation Audit Leads to Big Savings

Background Honeywell’s Geismar site was established in 1967 and is currently operated by roughly 275 employees and 130 contractors. The site is responsible for producing multiple refrigerants, hydrofluoric acid, and a resin that is used in medical packaging. The various reactors, heat exchangers, steam traps, and process piping that make our processes a reality all

Read Article