Özet:

In order to reduce the storage costs of fruits, a great deal of products are placed in the cold warehouses as possible. As a result of excess load, when a homogeneous temperature and speed distribution in the environment is not provided, partial damage and losses in food occur. The methods applied for a homogeneous air and temperature distribution are not much preferred because the initial investment costs are high. In this study, a cold warehouse filled with apples of the granny smith species was measured at critical points in terms of flow characteristics and the temperature and speed distribution was extracted. Later, the Ansys Fluent program created the three-dimensional model of the deposit concerned and the accuracy of the model was confirmed by measurements taken from the real warehouse. Analysis on the model and the distortion of air and temperature aspects are identified and the air distortion panel is placed to fix these defects. Finally, analyzing the different panel angles, the panel angle was found to be 63°, which would make the distribution of air and temperature in the cold warehouse more homogeneous. The recommended solution method can be applied to all cold storages that are flushed directly into the warehouse, regardless of size, stored product and location. This makes it practical, easy to implement and cost-effective to reduce product damage in all available cold storages.

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