Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
238175 | Powder Technology | 2011 | 9 Pages |
Mixed-flow dryers are broadly used in worldwide agriculture for the drying of grain, corn and rice but are also applied in industry. Although this drying process is well established, there is still a need to optimize the dryer apparatus. Unfavorable design can cause uneven mass flow and air flow distributions, broad residence time distributions and, hence, inhomogeneous drying histories of the particles resulting in non-uniform drying. The transport of solids in mixed-flow dryers has not yet been sufficiently considered and investigated. Therefore, the objective of this study is to derive basic equations on particle flow in mixed-flow dryers which are practically operated in the interrupted flow regime and equipped with discharge gates. The function of the discharge gate, the discharge characteristic and the solids mass flow rate were studied by varying the discharge and standstill times, respectively. The experiments were conducted at a semi-technical dryer test station with a transparent acrylic glass front wall using wheat as bed material. The fundamentals developed serve as a basis for further theoretical and experimental investigations. The future goal is to improve apparatus design and process control so as to homogenize the drying process, to increase energy efficiency and to save product quality.
Graphical abstractTo avoid uneven particle flow and inhomogeneous drying the design of mixed-flow dryers should be improved. Based on measurements of the discharge characteristic at a test dryer equipped with a discharge gate, fundamental equations on solids transport have been derived for the practical relevant interrupted flow regime.Figure optionsDownload full-size imageDownload as PowerPoint slide