Abstract
For feed producers who suffer from high intolerance to production costs, the only way to cope with the condition is to avoid devices that drive up costs. Extruded feed processed from a clay-slate dryer through a fluidized bed could be used to make fish feed. The aim of the study was optimise the process conditions on the clay-slate fluidized bed dryer operating at a commercial production of fish feed using the response surface methodology. The fish feed composition were processed at bed height (50-200 mm), drying air temperature (60–120°C), airflow velocity (0.66-0.70 m/s), drying time (10–90 min) and extrudates size (4–8 mm). Product quality parameters such as moisture ratio and dryer efficiency were determined and analyzed. Second-order polynomial equations, containing all the process variables, were used to measured process. Moisture ratio was influenced mostly by linear relationship temperature and drying time. The temperature and the quadratic temperature conditions significantly affected the efficiency of the dryer. For the fluidized bed drying of extruded fish feed, optimal conditions were set for the bed height of 185.76 mm, a temperature of 97.2°C, an air flow rate of 0.67, a drying time of 65.36 min and an extrudate size of 7.40 mm recommended. At these conditions the moisture ratio and efficiency were 0.86 and 74.39, respectively. The influence of the various components of the fluidized bed dryer on the drying rate must be better understood so that control systems can be developed to take full advantage of this technology.
Highlights
Fish feed refers to protein based feed products with proper amount of amino acids, fatty acids, vitamins, minerals and/or other ingredients, which are only processed for fish energy-yielding macronutrients by physical production method (Banrie, 2013)
For the fluidized bed drying of extruded fish feed, optimal conditions were set for the bed height of 185.76 mm, a temperature of 97.2°C, an air flow rate of 0.67, a drying time of 65.36 min and an extrudate size of 7.40 mm recommended
Extruded feed processed from a clay-slate dryer through a fluidized bed could be used to make fish feed.The objectives of this study were to investigate the effect of drying conditions on the efficiency of the clay slated fluidizied dryer using experimental data of response surface experiment
Summary
Fish feed refers to protein based feed products with proper amount of amino acids, fatty acids, vitamins, minerals and/or other ingredients, which are only processed for fish energy-yielding macronutrients (protein, lipid and carbohydrate) by physical production method (Banrie, 2013). Manufacturing of pelletized or extruded fish feed is one of the most difficult, regulated and high risk branches of feed manufacturing requiring great care and attention to detail at all stages, among which drying is one of the most important ones. Various moisture removal devices have been used to dry agricultural products, including pelletized fish feed since ancient times. This equipment includes the use of heat to evaporate the water present in the feed, as well as the removal of steam from the feed surface. The use of hot air flowing through food is the most common way of transferring heat to a drying material, because it is mainly a convective process (Cruz et al., 2015). Drying process can be performed by using different kinds of equipment such as: air cabinet, belt drier, tunnel drier, spray dryer, drum dryer, foam dryer, freeze-dryer, oven (Severini et al, 2005)
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