Roaster System, Dual Bed, (2) 12' L x 6' W Beds, Gas Fired, Stainless Steel, #5991873

Roaster System, Dual Bed, (2) 12' L x 6' W Beds, Gas Fired, Stainless Steel, #5991873

Location:Chowchilla, CA

Available quantity:1

Description

Dual bed gas-fired roasting system consisting of (2) stainless steel roasting beds measuring 12' long x 6' wide x 3' deep each. Each roasting bed features a perforated stainless steel product pan with 1/4" perforations, dual hinged access doors on each side, and lower access doors for inspection and cleaning. The system includes independent temperature controllers for each roasting bed, a 15 HP blower with 30" diameter fan, approximately 177" wide x 26" high air discharge plenum, and a single Eclipse gas train and burner assembly supplying both roasting beds through rear-mounted fireboxes with (2) 10" x 10" heat inlet connections. Each roasting bed is equipped with a 20" x 6" top exhaust opening.

Specifications

Stock Number5991873
Bed Size(2) 12' long x 6' wide x 3' deep
ConstructionStainless Steel
Product PansPerforated Stainless Steel, 1/4" Perforations
Temperature Controls Independent for Each Bed
Blower Motor15HP
Fan Diameter30"
Air DischargeApprox. 177" wide x 26" high
HeatingGas
Gas TrainSingle Eclipse Gas Train
Burner AssemblySingle Burner Serving Both Roasting Beds
Heat Inlet Connections(2) 10" x 10"
Exhaust Opening(1) 20" x 6" Per Bed
BasisFOB

General Information

Dual bed roasting systems are designed for high-capacity roasting, drying, and thermal processing of bulk food products. Independent temperature controls allow operators to optimize processing conditions for each roasting bed while a common gas-fired heating system provides efficient heat generation and uniform airflow. Systems of this design are commonly used by food processors producing roasted peanuts, almonds, pistachios, walnuts, sunflower seeds, pumpkin seeds, coffee beans, cocoa beans, grains, cereals, spices, dehydrated vegetables, snack foods, pet food ingredients, and other products requiring controlled thermal processing.