SCE Mixed Flow Dryers
- Capacity from 18 to 125 t/h, Heat/Cold
- Modular system which allows capacity expansion to suit our customers’ needs as their business grows.
- Narrow column design in which grain volume pours down by gravity and is regulated by individual tilting outlets connected to an axis which brings them to a single discharge point. Grains access the dryer though the feed hopper into the drying body.
- The combustion system that burns fuel and heats the air is located within the hot air chamber, which is built in galvanized steel sheet. Customers can opt to have the chamber coated with a layer of mineral wool protected by galvanized sheet metal, which creates thermal insulation in the outer wall to prevent heat loss, improve fuel economy and enhance performance.
- The air that flows into the drying body is exhausted to the outside by direct drive axial fans with adjustable vanes installed directly in the polluted air chamber. Both the hot air and the polluted air chambers are set to the sides of the chassis, creating a solid structure which lays on the main body where the grain discharge is located..
- The structure of this dryer is engineered to support not only the weight of the machine and the grain volume but also wind pressure.
- Both chambers can be optionally equipped with inner guardrailed catwalks to facilitate maintenance and cleaning tasks. Upon customers’ request, ladders with safety cage protection can also be installed inside the chambers to interconnect all modules from bottom to top.
- Acknowledging the need for continuous operation, CEDAR designs equipments with pieces that can be easily replaced by modules or individually in the event of wear or tear. This saves time and facilitates maintenance
- Products are equipped to operate with more than one combustion system allowing customers to alternate them, thus reducing drying costs.
- CEDAR’s dryers run on diesel, kerosene or liquid fuels blends, natural gas or propane gas (LPG), biomass burning (firewood, briquetted vegetable waste, rice husk, woodchips and others).
- All combustion systems can generate direct or indirect heat, subject to the use of heat exchangers.