Abstract
The cold chain is defined as a set of refrigeration steps that maintain the quality and safety of food product.
Refrigerant leakage and the use of fossil fuels to produce electrical power for refrigeration equipment
contribute greatly to ozone depletion and global warming. Thus, new and emerging refrigeration
technologies are developed to provide better energy efficient and environmentally friendly alternatives to
current technologies. Superchilling is a concept where the temperature is reduced 1-2 °C below the initial
freezing point of the product. The small amount of ice formed within the product (10-15%) serves as a heat
sink, eliminating the need for ice during storage and transport. In this work, Life Cycle Assessment (LCA) is
applied to the chilling and superchilling salmon cold chains. The superchilling cold chain presents an
important improvement compared to the chilled one because of the augmentation of available volume for
transportation.
Refrigerant leakage and the use of fossil fuels to produce electrical power for refrigeration equipment
contribute greatly to ozone depletion and global warming. Thus, new and emerging refrigeration
technologies are developed to provide better energy efficient and environmentally friendly alternatives to
current technologies. Superchilling is a concept where the temperature is reduced 1-2 °C below the initial
freezing point of the product. The small amount of ice formed within the product (10-15%) serves as a heat
sink, eliminating the need for ice during storage and transport. In this work, Life Cycle Assessment (LCA) is
applied to the chilling and superchilling salmon cold chains. The superchilling cold chain presents an
important improvement compared to the chilled one because of the augmentation of available volume for
transportation.
