A robust, thermally and structurally sound burn pit flare tip structure is disclosed of refractory brick construction capable of resisting the high temperature of 1800° C. and associated fluctuations. The burn pit is capable of prolonged continuous operation and reduces the previously experienced downtime and frequent failures.

A flame protection apparatus for installation in a dryer drum includes a plurality of sheet metal lamellae that form a ring arrangement about a longitudinal axis. Each sheet metal lamella includes a concave inner contour in a plane perpendicular to the longitudinal axis. On an outer side facing away from the inner contour, an installation member is configured for installing the sheet metal lamella on the dryer drum.

Agricultural incinerators are used to dispose of agricultural products, including, but not limited to, agricultural livestock carcasses. Incinerators are operated at extremely high temperatures (e.g., up to 3000-degrees F.) to dispose of an mitigate the spread of unwanted biologics, diseases, or other. The incinerator includes a double walled housing with a layer of sand that is used to protect the housing and to enhance the heat inside the housing. The sand provides a naturally low thermal conductivity to maintain the heat, which increases the efficiency of the incinerator. A hand crank opens a door into the incinerator to mitigate touching of any hot surfaces. In addition, a secondary burner can be used in the exhaust of the incinerator to reduce harmful emissions prior to exhausting into the ambient area of the incinerator.

Agricultural incinerators are used to dispose of agricultural products, including, but not limited to, agricultural livestock carcasses. Incinerators are operated at extremely high temperatures (e.g., up to 3000-degrees F.) to dispose of an mitigate the spread of unwanted biologics, diseases, or other. The incinerator includes a double walled housing with a layer of sand that is used to protect the housing and to enhance the heat inside the housing. The sand provides a naturally low thermal conductivity to maintain the heat, which increases the efficiency of the incinerator. A hand crank opens a door into the incinerator to mitigate touching of any hot surfaces. In addition, a secondary burner can be used in the exhaust of the incinerator to reduce harmful emissions prior to exhausting into the ambient area of the incinerator.

An aspect of the present disclosure provides a flow channel cap plate that constitutes a combustion chamber assembly including a combustion chamber and a plurality of insulating pipelines disposed on left/right side surfaces of the combustion chamber, the flow channel cap plate forming an insulating flow channel by covering the front surface of the combustion chamber, the flow channel cap plate including an inlet part including an inlet, and an inlet flow channel cap covering the front surface of the combustion chamber, an inlet space part is formed by covering the front surface of the combustion chamber with the inlet flow channel cap, the inlet is an entrance of the insulating flow channel, the plurality of insulating pipelines include a plurality of inlet insulating pipelines, and the inlet space part is a space that communicates the inlet with the plurality of inlet insulating pipelines.

An aspect of the present disclosure provides a flow channel cap plate that constitutes a combustion chamber assembly including a combustion chamber and a plurality of insulating pipelines disposed on left/right side surfaces of the combustion chamber, the flow channel cap plate forming an insulating flow channel by covering the front surface of the combustion chamber, the flow channel cap plate including an inlet part including an inlet, and an inlet flow channel cap covering the front surface of the combustion chamber, an inlet space part is formed by covering the front surface of the combustion chamber with the inlet flow channel cap, the inlet is an entrance of the insulating flow channel, the plurality of insulating pipelines include a plurality of inlet insulating pipelines, and the inlet space part is a space that communicates the inlet with the plurality of inlet insulating pipelines.

A method of coating a component includes attaching the component to a support that is configured to hold a plurality of components and placing a base of the support in a holder that is attached to rotatable member of a fixture, wherein an axis of the holder is parallel to an axis of rotation of the rotatable member. The method also includes transporting the fixture into a coating chamber wherein a direction of an exit stream of a coater in oriented perpendicularly to the axis of rotation, exposing the fixture and the component to a reverse transfer arc cleaning/pre-heating procedure, and exposing the fixture and the component to a coating procedure during which a coating is directed at the component in a direction perpendicular to the axis of rotation while the rotatable member is rotating. The method further includes transporting the fixture and removing the component from the support fixture.

A method of coating a component includes attaching the component to a support that is configured to hold a plurality of components and placing a base of the support in a holder that is attached to rotatable member of a fixture, wherein an axis of the holder is parallel to an axis of rotation of the rotatable member. The method also includes transporting the fixture into a coating chamber wherein a direction of an exit stream of a coater in oriented perpendicularly to the axis of rotation, exposing the fixture and the component to a reverse transfer arc cleaning/pre-heating procedure, and exposing the fixture and the component to a coating procedure during which a coating is directed at the component in a direction perpendicular to the axis of rotation while the rotatable member is rotating. The method further includes transporting the fixture and removing the component from the support fixture.

Techniques regarding the composition and/or structure of oven walls are provided. For example, one or more embodiments described herein can comprise an oven with a heat source configured to heat a hollow space within the oven. The oven further can comprise an oven body that can define the hollow space. Also, the oven body can comprise a plurality of connected sides, wherein one or more of the connected sides comprise a plurality of carbon nanotubes.

Techniques regarding the composition and/or structure of oven walls are provided. For example, one or more embodiments described herein can comprise an oven with a heat source configured to heat a hollow space within the oven. The oven further can comprise an oven body that can define the hollow space. Also, the oven body can comprise a plurality of connected sides, wherein one or more of the connected sides comprise a plurality of carbon nanotubes.