A simplified submerged chain conveyor system for handling ash produced by large-scale coal fired boilers. The system incorporates an endless chain conveyor system moving a coal/ash aqueous mixture within a conveyor segment having a hydraulically closed duct. The system is adapted for retrofit applications of existing coal-fired boiler installations. In each embodiment the chain conveyor elevates the aqueous ash solution to dewater the ash. In several embodiments the boiler ash hopper is partially flooded with water and the system moves the ash mixture through a water column to the dewatering section. In one embodiment the ash mixture is not submersed but is subjected to water sprays before reaching the dewatering section. Great flexibility is provided in locating and positioning the conveyor system. One unit may be implemented to provide ash handling for multiple boilers. Embodiments are described operable in continuous or batch mode processes.

Embodiments of the present invention relate to a handling device for handling a metal component part between a furnace device and a further processing device. The handling device comprises a temperature-control chamber, in which the metal component part can be inserted, and a conveying device. The temperature-control chamber comprises a temperature-control unit that adjusts a temperature in the temperature-control chamber. The temperature-control chamber can be conveyed between a receiving position, in which the metal component part can be conveyed from the furnace device into the temperature-control chamber, and a dispensing position, in which the metal component part can be conveyed from the temperature control chamber to the further processing device. The conveying device is configured in such a manner that the metal component part can be conveyed in the receiving position by means of the conveying device between the furnace device and the temperature-control chamber and that the metal component part can be conveyed in the dispensing position by means of the conveying device between the temperature-control chamber and the further processing device.

Embodiments of the present invention relate to a handling device for handling a metal component part between a furnace device and a further processing device. The handling device comprises a temperature-control chamber, in which the metal component part can be inserted, and a conveying device. The temperature-control chamber comprises a temperature-control unit that adjusts a temperature in the temperature-control chamber. The temperature-control chamber can be conveyed between a receiving position, in which the metal component part can be conveyed from the furnace device into the temperature-control chamber, and a dispensing position, in which the metal component part can be conveyed from the temperature control chamber to the further processing device. The conveying device is configured in such a manner that the metal component part can be conveyed in the receiving position by means of the conveying device between the furnace device and the temperature-control chamber and that the metal component part can be conveyed in the dispensing position by means of the conveying device between the temperature-control chamber and the further processing device.

A rack for holding flat panels containing PCM while the flat panels are conditioned and a method of conditioning the flat panels. The rack includes a frame structure defining an interior through which a conditioning air flow is directed. The interior includes a plurality of vertically spaced shelves for supporting the flat panels in a vertically spaced apart arrangement. The shelves are configured to hold the flat panels with at least a majority of their upper and lower surfaces in contact with the conditioning air flow. A conditioning method includes arranging the flat panels in a spaced apart array in the rack to create air flow channels between adjacent surfaces of the flat panels. Air is circulated between and in contact with the flat panels at a first temperature sufficient to bring the temperature of the PCM in each flat panel at least closer to a required temperature range.

A rack for holding flat panels containing PCM while the flat panels are conditioned and a method of conditioning the flat panels. The rack includes a frame structure defining an interior through which a conditioning air flow is directed. The interior includes a plurality of vertically spaced shelves for supporting the flat panels in a vertically spaced apart arrangement. The shelves are configured to hold the flat panels with at least a majority of their upper and lower surfaces in contact with the conditioning air flow. A conditioning method includes arranging the flat panels in a spaced apart array in the rack to create air flow channels between adjacent surfaces of the flat panels. Air is circulated between and in contact with the flat panels at a first temperature sufficient to bring the temperature of the PCM in each flat panel at least closer to a required temperature range.

The present invention relates to a particle separator configured to be operatively connected between an enclosure hood and a ventilation system. In practice, an air stream containing particulate matter from an industrial process is directed through an enclosure hood, through the particle separator and into the ventilation system. Relatively large particles are removed from the air stream in the particle separator before the air stream reaches the ventilation system. This reduces the abrasion and general damage that can occur from relatively large particles moving through the duct structure of a ventilation system.

The disclosure provides a bulk material unloading system and method. The system includes a bulk material container containing a bulk material and an unloading device. The unloading device is configured to engage the bulk material container and at least partially invert the bulk material container. The method includes engaging a bulk material container containing a bulk material with an unloading device and emptying the bulk material container. Emptying the bulk material into the hopper includes lifting the bulk material container using the unloading device and rotating the bulk material container using the unloading device.

The disclosure provides a bulk material unloading system and method. The system includes a bulk material container containing a bulk material and an unloading device. The unloading device is configured to engage the bulk material container and at least partially invert the bulk material container. The method includes engaging a bulk material container containing a bulk material with an unloading device and emptying the bulk material container. Emptying the bulk material into the hopper includes lifting the bulk material container using the unloading device and rotating the bulk material container using the unloading device.

Provided is a dew condensation prevention device for a discharge chute. A tip end portion of the discharge chute has inverted truncated cone-shaped internal and external chutes, a space is provided between an outer surface of the internal chute and an inner surface of the external chute, and a first air discharge port that communicates with the space is provided between respective lower ends of the two chutes. A cylindrical portion having an air reservoir in the interior thereof is provided to surround an outer peripheral surface of the external chute, and by providing an opening between an inner peripheral edge of a lower surface of the cylindrical portion and the outer peripheral surface of the external chute, a second air discharge port that communicates with the air reservoir is provided. Air input pipes for introduction of dry air are connected to the external chute and the cylindrical portion, respectively.

The invention relates to a table or conveyor belt (1) for conveying and/or processing food and a method and system for producing and/or maintaining a layer of a solidified liquid (4) on such tables and conveyor belts (1). Tables or conveyor belts (1) for conveying and processing food are difficult to clean when in function. For food it is important to avoid cross-contamination with microorganisms and foreign objects. A layer of a solidified liquid (4) such as an ice layer or fat layer on the top surface (3) of a table or conveyor belt (1) may be renewed from time to time by planing off some of the solidified liquid (4) and afterwards apply liquid which is allowed to solidify or apply flaked solidified liquid. A conveyor belt (1) may comprise lamellas (2) with internal cavities (7) or channels for coolant to cool the lamellas (2). Solidified liquid (4) may be produced on the top surface (3) of these lamellas (2) and the lamellas (2) may be kept cold by directing a coolant through the lamellas (2).