Split zone control (patent-pending) provides two discrete thermal profiles forthe upper and lower half of the chamber. Separate plug fans and controls allowyou to increase the temperature in the upper half of the oven by several degrees,advancing the rate of oxidation of the fiber. Because each oven is now splitinto two zones, the number of ovens required to properly oxidize the fiber canpotentially be reduced. This results in a needle-moving reduction of greater than50% in annual cost of operation.Novariance
™ Technology (patent-pending) provides extremely uniform airflowacross the entire width of the tow-band and throughout the process chamber.Orifice-plat
e nozzle structures eliminate the side-to-side and directionalvariance inherent in conventional nozzle designs. Airflow is also directed intothe gap between the center supply plenums which eliminates an area of low tono airflow. Airflow into the gap of the center plenum can be directed as neededto suit the precursor material.The elimination of variance along with split-zone control allows you tosafely accelerate the rate of oxidation by up to 25% without losing control ofthe exothermic reaction. Improved uniformity and split zone control allowyou to push the temperature in the oven, reducing oxidation cycle time by25% or more.
Split zone control (patent-pending) provides two discrete thermal profiles forthe upper and lower half of the chamber. Separate plug fans and controls allowyou to increase the temperature in the upper half of the oven by several degrees,advancing the rate of oxidation of the fiber. Because each oven is now splitinto two zones, the number of ovens required to properly oxidize the fiber canpotentially be reduced. This results in a needle-moving reduction of greater than50% in annual cost of operation.Novariance™ Technology (patent-pending) provides extremely uniform airflowacross the entire width of the tow-band and throughout the process chamber.Orifice-plate nozzle structures eliminate the side-to-side and directionalvariance inherent in conventional nozzle designs. Airflow is also directed intothe gap between the center supply plenums which eliminates an area of low tono airflow. Airflow into the gap of the center plenum can be directed as neededto suit the precursor material.The elimination of variance along with split-zone control allows you tosafely accelerate the rate of oxidation by up to 25% without losing control ofthe exothermic reaction. Improved uniformity and split zone control allowyou to push the temperature in the oven, reducing oxidation cycle time by25% or more.