ISSUE FOCUS FEED & ADDITIVE MAGAZINE May 2023 25 given the law of thermodynamics, but it does. Compound feed contains various feed materials and additives. Grains and protein sources (many times wrongly declared as byproducts), fibrous roughages and many other different components should not go together. Thanks to processing, they become feed which ensures the availability of all nutrients to the species, category, or animal production system for which that feed is intended. Through processing, we alter the physical, chemical, and edible properties of used feed materials, making them usable for animals. Through proper processing, we improve the digestibility of feed materials by up to 20%, enabling a more effective – and thus more sustainable – use of feed resources. In practice, there is room for improvement to make feed processing even more of a sustainability champion. MOISTURE OPTIMIZATION IS KEY TO ENERGY-EFFICIENT PELLETING Let's take a closer look at pelleting since it requires the most energy within feed processing. How much energy is used? This depends on many factors and can range from 5 KW/h up to 25. Pelleting is mostly used in broiler diets to reduce nutrient segregation and feed sorting and, by extension, feed wastage. Pelleting has also been found to increase the weight gain of individual birds and flock uniformity, and overall feed efficiency is higher. Pelleting involves the agglomeration of mixed feed into whole pellets through a mechanical process using heat, moisture, and pressure (Falk, 1985). Heat (energy that is transported through steam) has the largest impact on pelleting efficacy. Steam injected during conditioning increases feed moisture and temperature, softens feed particles, extracts natural binders, and reduces friction which leads to greater production rates and pellet quality (Skoch et al., 1981). The key to an efficient pelleting process is to set the parameters at the levels that will enable proper energy transfer from steam to feed particles. Besides steam quality, the moisture of the feed is a critical factor for efficient energy transfer. Generally, the thermal conductivity of the most used feed materials increases with increasing moisture. A level of 17% moisture in the conditioner is needed for efficient energy transfer. Below 17%, we need more steam (more energy) or more time (more capacity) to achieve the same result. That is why proper moisture optimization is needed to use the energy transferred through steam in the most efficient way. REDUCE SHRINKAGE, IMPROVE SUSTAINABILITY What about shrinkage? Shrinkage is not just a cost
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