Extrusion cooking of feed components – a path to effective feed

07 October 20196 min reading

Food safety is a topic frequently discussed at the level of global and European institutions. The growth of human population (predicted to reach 9.5 billion by 2050), as well as an improvement in living standards call for an ever-increasing food production. The menacing prospects of climatic changes, linked to a loss of fertile farmland and thus a lower agricultural production, force the producers to look for more effective ways of food production. Pressured by the steadily increasing prices of traditional feed commodities (wheat and soya) on the one hand, and the stagnating purchase prices of meat on the other, the producers strive to lower their expenses, where the efficiency of the fattening process plays a major part. Means to reach this end are being actively sought – and the technology of extrusion cooking is one of them.

Dr. Michal Kaválek,  Farmet a.s. Dr. Vladimír Plachi, Czech University of Life Sciences

Extrusion is one of the most common methods of hydrothermal treatment of feed and food, known for more than 50 years. This method has long been popular particularly among the producers of fish feed and pet food. In the process, the complete compound feed is shaped by the extruder into the form of granules, which are subsequently treated, mostly by drying, coating and cooling. The aim of extrusion is to produce granule-shaped compound feed sufficiently coherent and mechanically resistant, fulfilling the requirements of shape, size and texture, or properties important for aquatic environments. Apart from its predominant advantages, extrusion also comes with some negative aspects: in particular, improperly set extrusion parameters may lead to a loss of some thermolabile components, such as vitamins A, C, and B1, as well as some enzymes and amino acids (lysine, methionine, cysteine).

As we seek ways of making feed production more sustainable, we cannot omit the technology of extrusion cooking of feed components. Extruding selected feed compound brings a number advantages, both dietetic and technological. In this technological setup, only a selected compound is extruded, usually one or two, which are then mixed into the final feed. Only the components that significantly benefit from extrusion are extruded, eliminating thus negative effects of extrusion, such as the loss of thermolabile substances in the final mixture.

The importance of extrusion lies mainly in increasing the availability and digestibility of nutrients in the digestive tract of livestock. This occurs primarily via a radical reduction of the content of anti-nutritional factors, via denaturation of proteins, gelatinization of starches, increasing the ratio of the so-called soluble fibre, and sterilization of the extruded material. It is therefore a synergistic effect that helps to improve nutrient utilization.

In the energetically demanding process of extrusion, the highest costs are associated with the consumption of electricity and steam. In the extruder and its transport pathways, electrical energy is transformed into mechanical energy (SME) and the energy of heat is transformed into heat (STE). Both sources of energy are equivalent and, to an extent, interchangeable. But the production costs of one kilowatt as steam are only a third of those of one kilowatt as electricity. Therefore, it is economically advantageous to maximize the use of steam energy.

Another means of saving energy is using recuperation systems. Farmet a.s. offers multi-level systems of recuperation, where the condensation heat from the extruder and transport pathways, and the hot air from the presses are utilized to pre-heat the entering raw material.

CEREAL EXTRUSION The importance of cereal extrusion lies in the increased digestibility of starch (so-called gelatinization) resulting from extrusion cooking, which occurs already at a moisture of 12 to 22%, in contrast to other food-related applications. When gelatinization temperature is reached, both components of starch – the amorphous amylose and crystalline amylopectin – are transformed. Gelatinization is augmented by the actions of pressure, heat, and shearing forces. The degree of gelatinization can thus be manipulated by setting extrusion parameters.

TESTS OF WHEAT EXTRUSION In our optimization tests of wheat extrusion, we tested the effect of wheat variety and extrusion parameters on the feed conversion ratio in chicken broilers. The treated wheat was mixed into the complete compound feed. The recipes for these mixtures were made to exhibit similar nutritional parameters. During the tests, savings between 4 and 14% were obtained, compared to untreated wheat (Control), depending on the variety and extrusion parameters.

EXTRUSION OF OILSEEDS AND LEGUMES Oilseeds and legumes (soya beans, sunflower seed, canola, peas, beans, lupine, etc.) are valued within the feed industry mainly in terms of their high protein content. Legumes and oilseeds contain substances with a negative effect on nutrient digestibility (anti-nutritional factors, ANFs), leading also to adverse effects on some animal products and feed intake and digestion. The most common ANFs are protease inhibitors, lectins, and urease activity observed in soya beans, and glucosinolates in canola. The activity of most ANFs is reduced upon the application of heat. Thanks to the high pressures and temperatures in the process, extrusion cooking is a very effective way to reduce ANFs. Oilseeds, compared to legumes, also contain a considerable amount of oil, which can be reduced by combining extrusion with the technology of screw pressing.

EXTRUSION-PRESSING These two technologies unite the advantages of extrusion with those of a mechanical extraction of oil: the extruders cause a removal of anti-nutritional factors, increase in the digestibility of starch and proteins, disruption of cellular structures, and overall heating of the material, all of which improve oil yield in the subsequent pressing step. The end products of this process are vegetable oil and also press cake, which is a convenient substitution for extracted soya meal.

We performed fattening tests on chicken broilers to compare parameters of nutrition between extruded full-fat soya beans, extruded soya bean cake, and extracted soya bean meal. The recipes for mixtures containing these components were made to exhibit similar nutritional parameters. The tests have shown a better feed conversion ratio (FCR) in both extruded soya bean cake and extruded full-fat soya bean, compared to extracted soya bean meal.

CONCLUSION The current trends of increasing commodity prices and decreasing energy costs play into the hands of methods of hydrothermal treatment of feed such as extrusion. Optimizing the whole process offers a path to lowering energy demands and improving final product quality – certainly a path to success. Research and development of the extrusion technology has recently made great advances, notably in the automation of control and optimization of energy efficiency. However, optimizing extrusion in terms of feed-related value of the extrudate with the goal of increasing animal productivity still offers considerable room for improvement and will remain an active area of research in the future.

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