A dehydrating apparatus suitable for dehydrating food and other biomass products comprises a dehydrating chamber, a vacuum assembly, a magnetron assembly, an infrared heating assembly, a heated air circulation assembly, and a controller. The magnetron assembly is electromagnetically coupled to the dehydrating chamber and is operable to transmit microwave energy into the dehydrating chamber. The vacuum assembly is fluidly coupled to the dehydrating chamber and is operable to reduce the air pressure within the dehydrating chamber. The infrared heating assembly is thermally coupled to the dehydrating chamber and is operable to radiate infrared energy into the dehydrating chamber. The heated air circulation assembly is fluidly coupled to the dehydrating chamber and is operable to circulate heated air within the dehydrating chamber. The controller is communicative with and programmed to operate the magnetron assembly, vacuum assembly, infrared heating assembly and heated air circulation assembly to first reduce pressure within the chamber, then simultaneously transmit microwave energy, radiate infrared energy, and circulate heated air inside the dehydrating chamber upon specific dried product drying procedure.

Systems and processes for curing a wet coating of a coated substrate are disclosed. The system includes a ventilation system and a curing room configured to receive the coated substrate being displaced along a displacement axis and includes at least an upstream curing section and a downstream curing section. The upstream curing section includes an upstream catalytic infrared heating system for producing an upstream infrared radiation at an upstream radiation intensity to heat and partially cure the wet coating while the coated substrate is being displaced through the upstream curing section. On the other hand, the downstream curing section includes a downstream catalytic infrared heating system for producing a downstream infrared radiation at a downstream radiation intensity, being lower than the upstream radiation intensity, to further cure the wet coating while the coated substrate is being displaced through the downstream curing section for producing a cured coating.

The present invention has to do with an apparatus for generating a three dimension heating gradient field for curing powder coated wood products. The three dimension heating gradient field is generated with catalytic heater panels having independently adjustable angles and adjustable heat outputs.

A convective hood for transverse installation in a system for continuous heat treatment of moving strip material comprises blowing nozzles for blowing hot gas against the moving strip in an arrangement transverse to the direction of movement of the strip material; and a first transverse suction zone for the suction of hot gas. The first transverse suction zone comprises a first transverse section and a second transverse section. The first transverse section and the second transverse section are provided at the same side downstream or upstream of the movement of the strip material from the blowing nozzles when the convective hood is installed in a system for continuous heat treatment of moving strip material. The second transverse section is provided along the line for movement of the continuous strip material between the first transverse section and the blowing nozzles. The first transverse section comprises suction openings for suction of hot gas directly from outside the convective hood into the convective hood; the suction openings being in closed gas flow connection to a first manifold for recirculation of at least part of this hot gas to the blowing nozzles for blowing the hot gas onto the continuous strip material. The second transverse section comprises suction openings for suction of hot gas directly from outside the convective hood into the convective hood; the suction openings being in closed gas flow connection to a second manifold for exhausting 100% of this hot gas outside of the convective hood.

Proposed is A POD cleaning apparatus including: a separate unit separating a POD introduced through an introducing inlet; a first transportation unit transporting a separation POD resulting from the separation in the separation unit; a plurality of cleaning chambers in each of which the separation POD transported by the first transportation unit is cleaned and dried; a chamber in which the separation POD dried in the cleaning chamber is vacuum-processed; a second transportation transporting the separation dried in the cleaning chamber to the vacuum chamber; and an assembly unit assembling the vacuum-processed separation PODs, in which each of the plurality of cleaning chambers includes: a cleaning sub-chamber where the separation POD transported by the first transportation unit is accommodated and cleaned; and a drying chamber where the separation POD transported from the cleaning sub-chamber is dried, and in which the cleaning sub-chamber and the drying chamber are spatially separated.

Systems and processes for curing a wet coating of a coated substrate are disclosed. The system includes a ventilation system and a curing room configured to receive the coated substrate being displaced along a displacement axis and includes at least an upstream curing section and a downstream curing section. The upstream curing section includes an upstream catalytic infrared heating system for producing an upstream infrared radiation at an upstream radiation intensity to heat and partially cure the wet coating while the coated substrate is being displaced through the upstream curing section. On the other hand, the downstream curing section includes a downstream catalytic infrared heating system for producing a downstream infrared radiation at a downstream radiation intensity, being lower than the upstream radiation intensity, to further cure the wet coating while the coated substrate is being displaced through the downstream curing section for producing a cured coating.

A system according to the present invention provides a radiant conveyor drying system and method of operation. The radiant conveyor drying system generally comprises an input assembly, a drying assembly and an exit assembly mechanically fixed to one another. The drying assembly comprising at least one drying unit in communication with one another to provide for passage of product between the respective drying units and the input assembly and the exit assembly. The drying unit comprising a conveyor belt and a drying unit heating assembly. The drying unit heating assembly comprising a plenum and a heating chamber. The drying unit further comprising a burning unit in communication with the heating chamber to provide for radiant heat to contact the product traveling on the conveyor through the drying unit. The drying unit further comprising a blower fan in communication with the plenum to provide for convective air advancing from the plenum, over and through the radiant heat, to the product. Wherein the radiant heat is disbursed throughout the product. A first embodiment of the invention controlling hear generated by the burning unit of each respective drying unit. A second embodiment of the invention controlling heat generated by the burning unit and rate of the conveyor of each respective drying unit. A method of operation of the radiant conveyor drying system is described.

A drying installation for the continuous drying of a moving web material is provided. The installation includes radiating or heating elements, burning the gas. The installation includes a gas flow circulation system configured to suction combustion products generated by the radiating or heating elements. The gas flow circulation system also includes an extraction pipe configured for the evacuation from the installation of at least part of the combustion products suctioned by the gas flow circulation system. The installation also includes a device for treating carbon monoxide and optionally nitrogen oxides, the treatment device-including an oxidation and optionally reduction catalyst and being mounted on or downstream of said extraction pipe in order to treat the carbon monoxide and optionally the nitrogen oxides contained in the combustion products. The installation includes a regulation means configured to regulate the temperature of the catalyst at a temperature greater than or equal to 130° C.

A gas fired radiant emitter comprises a burner deck onto which premix gas is combusted when the emitter is in use; and a metal plate provided at the combustion side of the burner deck. The metal plate is provided to act as radiant screen when the emitter is in use. The metal plate is at least over part of its surface spaced from the burner deck. The metal plate comprises a plurality of elongated slots for passage through the metal plate of flue gas generated on the burner deck. The plurality of elongated slots comprise a first elongated slot. The first elongated slot has a first tangent along a position along the length of the first elongated slot. The plurality of elongated slots comprise a second elongated slot. The second elongated slot has a second tangent along a position along the length of the second elongated slot. The angle between the first tangent and the second tangent is between 45° and 135°.

Systems and processes for curing a wet coating of a coated substrate are disclosed. The system includes a ventilation system and a curing room configured to receive the coated substrate being displaced along a displacement axis and includes at least an upstream curing section and a downstream curing section. The upstream curing section includes an upstream catalytic infrared heating system for producing an upstream infrared radiation at an upstream radiation intensity to heat and partially cure the wet coating while the coated substrate is being displaced through the upstream curing section. On the other hand, the downstream curing section includes a downstream catalytic infrared heating system for producing a downstream infrared radiation at a downstream radiation intensity, being lower than the upstream radiation intensity, to further cure the wet coating while the coated substrate is being displaced through the downstream curing section for producing a cured coating.