A laundry drying machine includes: a cabinet, a drum that is rotatably disposed in the cabinet and that is configured to accommodate a target object, and an electric field generator that is spaced apart from the drum and that is configured to, based on power being applied to the electric field generator, generate an electric field inside the drum. The electric field generator includes an anode electrode that is spaced apart from the drum, that is fixed to the cabinet, and that is configured to apply the electric field to the target object accommodated in the drum. The drum is configured to rotate while the power is applied to the anode electrode.

A laundry drying machine includes: a cabinet, a drum that is rotatably disposed in the cabinet and that is configured to accommodate a target object, and an electric field generator that is spaced apart from the drum and that is configured to, based on power being applied to the electric field generator, generate an electric field inside the drum. The electric field generator includes an anode electrode that is spaced apart from the drum, that is fixed to the cabinet, and that is configured to apply the electric field to the target object accommodated in the drum. The drum is configured to rotate while the power is applied to the anode electrode.

A radio-frequency (RF) heating system may include a removable drawer, which may be inserted under a fixed shelf of the RF heating system to form an enclosed cavity. The drawer may include conductive channels or side rails that may interface with the shelf of the defrosting system in order to electrically couple the drawer to the RF heating system. The drawer may include an electrode that is electrically coupled to ground or to a RF signal source when the drawer is inserted beneath the shelf. The shelf may include selectable electrodes of varying sizes. The RF heating system may use identification circuitry to recognize the type of drawer that has been inserted beneath the shelf. RF energy may be applied to the electrode of the drawer or the shelf to heat a load in the enclosed cavity.

A radio-frequency (RF) heating system may include a removable drawer, which may be inserted under a fixed shelf of the RF heating system to form an enclosed cavity. The drawer may include conductive channels or side rails that may interface with the shelf of the defrosting system in order to electrically couple the drawer to the RF heating system. The drawer may include an electrode that is electrically coupled to ground or to a RF signal source when the drawer is inserted beneath the shelf. The shelf may include selectable electrodes of varying sizes. The RF heating system may use identification circuitry to recognize the type of drawer that has been inserted beneath the shelf. RF energy may be applied to the electrode of the drawer or the shelf to heat a load in the enclosed cavity.

Heating systems utilizing radio frequency (RF) energy and methods for using the same to rapidly and uniformly heat packaged articles moving through the system on one or more convey lines. These systems may be useful for a variety of processes, including the pasteurization or sterilization of packaged foodstuffs.

Heating systems utilizing radio frequency (RF) energy and methods for using the same to rapidly and uniformly heat packaged articles moving through the system on one or more convey lines. These systems may be useful for a variety of processes, including the pasteurization or sterilization of packaged foodstuffs.

Heating systems utilizing radio frequency (RF) energy and methods for using the same to rapidly and uniformly heat packaged articles moving through the system on one or more convey lines. These systems may be useful for a variety of processes, including the pasteurization or sterilization of packaged foodstuffs.

Heating systems utilizing radio frequency (RF) energy and methods for using the same to rapidly and uniformly heat packaged articles moving through the system on one or more convey lines. These systems may be useful for a variety of processes, including the pasteurization or sterilization of packaged foodstuffs.

A defrosting system includes a radio frequency (RF) signal source, at least one electrode proximate to a cavity within which a load to be defrosted is positioned, a transmission path between the RF signal source and the electrode, at least one bus bar in the transmission path that includes multiple ports to which the electrode may be coupled, a repositionable shelf that is attached to the electrode, and multiple support structures disposed at side-walls of the cavity that support the repositionable shelf. Standoff isolators may attach the electrode to the repositionable shelf and may electrically isolate the electrode from the repositionable shelf. The vertical position of the electrode may be changed by moving the repositionable shelf to be supported by different support structures of the multiple support structures while coupling the electrode to a different port of the multiple ports of the bus bar.

A defrosting system includes a radio frequency (RF) signal source, at least one electrode proximate to a cavity within which a load to be defrosted is positioned, a transmission path between the RF signal source and the electrode, at least one bus bar in the transmission path that includes multiple ports to which the electrode may be coupled, a repositionable shelf that is attached to the electrode, and multiple support structures disposed at side-walls of the cavity that support the repositionable shelf. Standoff isolators may attach the electrode to the repositionable shelf and may electrically isolate the electrode from the repositionable shelf. The vertical position of the electrode may be changed by moving the repositionable shelf to be supported by different support structures of the multiple support structures while coupling the electrode to a different port of the multiple ports of the bus bar.