An improved rotary shell or drum dryer (10) is provided having an elongated, horizontally disposed, axially rotatable shell (12) with product and air inlets (14, 18) and an outlet (16) at opposite ends of the shell. Internally, the dryer (10) includes axially spaced apart first and second drying sec
An improved rotary shell or drum dryer (10) is provided having an elongated, horizontally disposed, axially rotatable shell (12) with product and air inlets (14, 18) and an outlet (16) at opposite ends of the shell. Internally, the dryer (10) includes axially spaced apart first and second drying sections (26, 28) each having a turbulator (30, 32) and a downstream serpentine flow section (34, 36). The turbulators ( 30, 32) are designed to divert portions of a product/airstream in different directions respectively to achieve the intense mixing similar to that obtained in an impingement dryer.
대표청구항▼
I claim: 1. A gas turbulator comprising; a generally circular frame having a gas inlet face and an opposed gas outlet face and including an inner annular wall and an outer annular wall; a plurality of elongated, stationary mixing vanes located within said inner annular wall, at least some of said v
I claim: 1. A gas turbulator comprising; a generally circular frame having a gas inlet face and an opposed gas outlet face and including an inner annular wall and an outer annular wall; a plurality of elongated, stationary mixing vanes located within said inner annular wall, at least some of said vanes oriented for diverting gas during passage thereof past the vanes in a first direction; and a number of elongated mixing plates located between said inner and outer walls and in circumferentially spaced relationship to each other, at least certain of said plates oriented for diverting of gas during passage thereof past the plates in a second direction different than said first direction. 2. The turbulator of claim 1, said inner and outer annular walls being substantially coaxially aligned. 3. The turbulator of claim 1, said vanes extending in a substantially radial direction. 4. The turbulator of claim 1, said vanes being of concavo-convex configuration. 5. The turbulator of claim 1, said plates being substantially radially oriented and being of concavo-covex configuration. 6. The turbulator of claim 1, said vanes and said plates being of concavo-convex configuration, with the concave faces of the vanes being oppositely oriented relative to the concave faces of said plates. 7. The turbulator of claim 1, said frame including a pair of annular, substantially imperforate sidewalls located outboard of said outer annular wall. 8. A rotary dryer comprising: an elongated, generally horizontally disposed, axially rotatable shell configured for passage of drying air therethrough; an inlet for initially moist product to be dried adjacent one end of said shell; an outlet for dried product adjacent the other end of said shell; first and second drying sections located within said shell in axially spaced relationship to each other and between said inlet and said outlet, each of said first and second drying sections including an upstream turbulator and a downstream serpentine flow section, said turbulator operable to mix and divert air and product during passage of said air and product to be dried therethrough, said serpentine flow section including telescoped inner and outer wall structure for directing said air and product from said turbulator along an elongated serpentine flow path. 9. The dryer of claim 8, each of said turbulators comprising: a generally circular frame having a gas inlet face and an opposed gas outlet face and including an inner annular wall and an outer annular wall; a plurality of elongated mixing vanes located within said inner annular wall, at least some of said vanes oriented for diverting gas during passage thereof past the vanes in a first direction; and a number of elongated mixing plates located between said inner and outer walls and in circumferentially spaced relationship to each other, at least certain of said plates oriented for diverting of gas during passage thereof past the plates in a second direction different than said first direction. 10. The dryer of claim 9, said inner and outer annular walls being substantially coaxially aligned. 11. The dryer of claim 9, said vanes extending in a substantially radial direction. 12. The dryer of claim 9, said vanes being of concavo-convex configuration. 13. The dryer of claim 9, said plates being substantially radially oriented and being of concavo-covex configuration. 14. The dryer of claim 9, said vanes and said plates being of concavo-convex configuration, with the concave faces of the vanes being oppositely oriented relative to the concave faces of said plates. 15. The dryer of claim 9, said frame including a pair of annular, substantially imperforate sidewalls located outboard of said outer annular wall and extending toward said shell. 16. The dryer of claim 8, each of said serpentine flow sections including a pair of substantially coaxial inner and outer annular walls, there being an inlet between said outer annular wall and said shell, a first reverse flow path between said outer and inner annular walls, and a second reverse flow path defined by said inner annular wall. 17. The dryer of claim 16, the diameter of said inner annular wall of said first serpentine section being greater than the diameter of the inner annular wall of the second serpentine section. 18. A method of drying an initially wet product comprising the steps of: forming an initially wet product and drying airstream and passing said stream into and through an elongated, generally horizontally oriented axially rotatable dryer shell having an initially wet product inlet, and a dried product outlet at opposite ends thereof; and during rotation of said shell, directing said stream through first and second axially spaced apart drying sections located between said inlet and said outlet during passage of the stream through said shell, during said direction of said stream through each of said drying sections, causing said stream to be initially mixed by diverting respective stream portions in different directions, and thereafter passing the stream along a downstream serpentine flow path.
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