Provided herein is a method of treating material that is contaminated with a virus, comprising exposing the material to vapor, wherein the vapor is produced by heating and/or vaporizing a dry cleaning solvent, and wherein the method at least partially deactivates the virus.

Method and apparatus for treating cloths by spraying with a chemical dispersion including a liquid, the method including: inserting the cloths in a drum that is rotatable about its longitudinal axis, the drum including paddles, where for each of at least two of the paddles the paddle's longitudinal axis forms an angle a of between 5 degrees and 85 degrees with the geometrical orthogonal projection of the paddle's longitudinal axis on a geometrical plane which is normal to the drum's longitudinal axis; with a dispersion supply system providing the chemical dispersion to spraying elements; with rotation elements rotating the drum about its longitudinal axis and reversing the rotational direction at least once, and with spraying elements spraying the drum's interior with the dispersion, the spraying elements being attached a to movable door of a chamber enclosing the drum. The apparatus is adapted for executing the method.

A novel filter canister configured to dock into a dry-cleaning machine incorporates unique structural elements that reduce or eliminate debris overfill and jamming of the filter canister after an extended dry-cleaning operation. In particular, a novel perforated hollow inner core, a vertical strut-based canister docking frame, a washable and reusable cartridge with a perforated rigid inner surface layer and a particulate filtering element-encapsulating outer surface layer, and a removable lid that secures or frees the washable and reusable cartridge that constitute the novel filter canister enable a dry-cleaning operator to install, clean, and reuse the washable and reusable cartridge conveniently for numerous dry-cleaning cycles while avoiding debris overfill, canister jamming, and frequent filter canister replacement and repurchase needs that are endemic in conventional dry cleaner filter designs that tend to be cumbersome, costly, and environmentally detrimental.

Laundry apparatus and methods for cleaning garments are provided. The laundry apparatus can provide one or more of: ultraviolet light, ultrasound, ozone, carbon dioxide, and a surfactant source to clean the garments. The laundry apparatus can be used to clean smart garments including one or more of electronics, electronic sensors, chips, wires, connectors, and/or conductive materials. The laundry apparatus can include an electronic control apparatus configured to transmit data corresponding to the laundry apparatus cleaning conditions and cleanliness of the garments wirelessly to an external computing device.

A novel filter canister configured to dock into a dry-cleaning machine incorporates unique structural elements that reduce or eliminate debris overfill and jamming of the filter canister after an extended dry-cleaning operation. In particular, a novel perforated hollow inner core, a vertical strut-based canister docking frame, a washable and reusable cartridge with a perforated rigid inner surface layer and a particulate filtering element-encapsulating outer surface layer, and a removable lid that secures or frees the washable and reusable cartridge that constitute the novel filter canister enable a dry-cleaning operator to install, clean, and reuse the washable and reusable cartridge conveniently for numerous dry-cleaning cycles while avoiding debris overfill, canister jamming, and frequent filter canister replacement and repurchase needs that are endemic in conventional dry cleaner filter designs that tend to be cumbersome, costly, and environmentally detrimental.

An extraction system and method of extraction are described herein. The extraction system generally includes an extraction vessel including a vessel body, an extraction solvent inlet, a material inlet, and an outlet, a collection vessel operably connected to the outlet, a dispersion devise disposed proximate the extraction solvent inlet and including a first surface and a second surface, a plurality of openings formed in the dispersion device and extending from the first surface to the second surface, whereby the plurality of openings are adapted for the flow of an extraction solvent therethrough.

An extraction system and method of extraction are described herein. The extraction system generally includes an extraction vessel including a vessel body, an extraction solvent inlet, a material inlet, and an outlet, a collection vessel operably connected to the outlet, a dispersion devise disposed proximate the extraction solvent inlet and including a first surface and a second surface, a plurality of openings formed in the dispersion device and extending from the first surface to the second surface, whereby the plurality of openings are adapted for the flow of an extraction solvent therethough.

The present invention relates to dry cleaning system and method thereof. According to the present invention, the dry cleaning system and method provide more economical, safe, convenient, and/or eco-friendly washing.

One variation of a method for autonomously processing a garment within a kiosk includes: accessing a set of garment characteristics of the garment, the set of garment characteristics including a garment type and a fabric type; based on the set of garment characteristics, selecting a target processing temperature, a target processing humidity, and a set of steam-processing parameters including a steam nozzle path and a steam nozzle speed. This variation of the method also includes: heating air within the kiosk toward the target processing temperature; injecting steam into the kiosk to drive humidity within the chamber toward the target processing humidity; articulating a steam nozzle along the steam nozzle path at the steam nozzle speed to impinge a steam jet across an interior surface of the garment, tension local areas of the garment against the steam jet, and heat local areas of the garment above the transition temperature.

Laundry apparatus (100) and methods for cleaning garments are provided, whereby the laundry apparatus (100) can provide one or more of: ultraviolet light, ultra-sound, ozone, carbon dioxide, and a surfactant source to clean the garments and includes an electronic control system (130) configured to transmit data corresponding to the laundry apparatus cleaning conditions and cleanliness of the garments wirelessly to an external computing device (132).