Food & Beverage Processing

Insulation Plays Critical Role at Food-Processing Facility

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.

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.

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.