Fruit Products Need the Right Heat Exchanger
It is always important to choose the right heat exchanger for the right product and process, whatever industry you are working in. However, for manufacturers of fruit products and fruit-based drinks the wrong system can affect not only operational efficiency or cost, but also product quality and consistency with potentially significant results for your business.
The combination of pasteurization and aseptic filling is widespread due to its ability to ensure microbial product safety and providing the required shelf life, while preserving the complex of flavor, aroma and texture which determine product quality, while also providing consumers with the additive-free products they prefer. Different processing regimes can inactivate key enzymes, as well as generating new flavor or odor compounds – resulting in a different sensory profile. This is why manufacturers have increasingly adopted new processing techniques that maintain product quality. However, while a number of new and novel alternatives exist to traditional pasteurization, thermal processing remains the preferred option globally as it is relatively cheap, reliable and effective.
Defining the quality of fruit products
The sensory profile of fruit products, juices and fruit-based drinks are not determined by a single compound or chemical, but by a complex mixture of several chemical compounds including carbohydrates, fatty acids, and amino acids. These nutrients interact with enzymes which convert them into metabolites which determine the sensory profile of the fruit or product, such as fatty acids, amino acids, terpenoids and furanones, color pigments, pectin, sugars and organic acids.
Choosing the right heat exchanger
The choice of heat exchanger for fruit-based products depends on the physical and chemical nature of the product.
Corrugated tube designs create turbulent flow in the product, preventing viscous or suspended materials (like fruit puree) sticking to the wall of the tube, where they can form a boundary layer and prevent efficient heat transfer. In turn, this improved efficiency means that corrugated tubes provide greater levels of heat transfer than smooth tubes of the same length, so corrugated tube heat exchangers can be up to half the size of their smooth tube equivalents. The turbulence created in the tube also reduces cleaning frequency and simplifies maintenance compared to other heat exchanger designs.
Thicker materials such as fruit purees will often use a corrugated triple-tube heat exchanger, such as the HRS AS Series. In contrast, products which contain particles or pieces will frequently use a corrugated double-tube design (like the HRS DTA Series), while thinner and less viscous materials will benefit from corrugated multi-tube heat exchanger technology, as found in the HRS MI Series.
Fruit processing example
HRS previously provided an upgraded combined line to sterilize, cool and aseptically fill fruit purees for a major fruit processor in the south of England, which provides a perfect example of the considerations required when installing a heat exchange solution for fruit products.
The fruit puree enters from the production lines via a balance tank before being pre-heated and de-aerated then heated to 201 °F using an HRS AS Series triple-tube heat exchanger, with the product held at this temperature to ensure full pasteurization or sterilization as required. Heat for this process comes from water, heated via an HRS K Series multi-tube heat exchanger, which is derived from steam used elsewhere in the factory.
The system constantly monitors the temperature of the product; any product which has not been fully pasteurized or sterilized is returned to the beginning of the process. Once fully heat-treated, the puree is cooled, first to around 86 °F using ambient water and another HRS AS Series heat exchanger, then cooled further to between 40 and 50 °F using chilled water. At the same time, the equipment itself, including the aseptic filling heads, is sterilized with hot water at 250 °F. Sterility throughout the process is maintained with steam, which is automatically temperature controlled.
As well as the pasteurization system, the installation above included an HRS AF Series Aseptic Filler and at the end of each production cycle, the equipment and filling heads are automatically cleaned with clean-in-place (CIP) solution, and the system is re-set ready for the next production batch.