The present invention relates to a clothes dryer and method of drying clothes. A clothes dryer (10) comprising:—a drying chamber (31), arranged to accommodate clothes, defined by at least one wall,—an air pathway, along which air is arranged to flow from an air inlet to an air outlet, comprising the drying chamber (31), wherein,—the at least one wall comprises a cavity wall comprising a first curved surface (11), a cavity (16) and a second curved surface (15),—the first curved surface (11) of the cavity wall being arranged to define an exterior surface of the dryer and to facilitate a transmission of light energy to the cavity (16) and/or the second curved surface (15),—the cavity (16) being arranged as comprised in the air pathway, and,—the second curved surface (15) of the cavity wall being arranged to define at least a part of the drying chamber (31).

A laundry appliance uses a determination of volumetric airflow rate after a steady state condition is reached to determine the accumulation of lint in filter. Based on the determination, various actions can be taken including notifying the user, shutting off the appliance, initiating an automatic cleaning sequence for one or more lint filters, and combinations thereof. One or more temperature sensors, relative humidity sensors, and weight sensors are used to provide measurements for determining the volumetric airflow rate.

A fluid condensing system for a combination washer/dryer appliance includes a metal condenser coil positioned within a condenser. Water liquid pulses through the metal condenser coil for maintaining the metal condenser coil at a cold temperature as water vapor in the hot exhaust air from the combination washer/dryer appliance condenses on the surface of the condenser coil. A common sump collects the water condensate from the condenser, the cooling fluid exiting the condenser coil, and wash water from the combination washer/dryer appliance. The water condensate, cooling fluid, and wash water is reclaimed and recycled through both a condenser coil recirculation loop and a wash water dispenser system.

A fluid condensing system for a combination washer/dryer appliance includes a metal condenser coil positioned within a condenser. Water liquid pulses through the metal condenser coil for maintaining the metal condenser coil at a cold temperature as water vapor in the hot exhaust air from the combination washer/dryer appliance condenses on the surface of the condenser coil. A common sump collects the water condensate from the condenser, the cooling fluid exiting the condenser coil, and wash water from the combination washer/dryer appliance. The water condensate, cooling fluid, and wash water is reclaimed and recycled through both a condenser coil recirculation loop and a wash water dispenser system.

A storage container (100) comprising a housing (110) containing a storage chamber (112) isolated from an outside environment (10). The housing (110) defines a housing inlet (130) and a housing outlet (140). The storage container (100) is configured to clean air in the outside environment (10). The storage container (100) comprises a first filtration assembly (360) coupled to the housing (110) about the housing outlet (140). The first filtration assembly (360) has a first filtration inlet (364) configured to receive air from the storage chamber, a first filtration outlet (366) configured to release air into the outside environment (10), and first filter media (368) between the first filtration inlet (364) and the first filtration outlet (366).

A storage container (100) comprising a housing (110) containing a storage chamber (112) isolated from an outside environment (10). The housing (110) defines a housing inlet (130) and a housing outlet (140). The storage container (100) is configured to clean air in the outside environment (10). The storage container (100) comprises a first filtration assembly (360) coupled to the housing (110) about the housing outlet (140). The first filtration assembly (360) has a first filtration inlet (364) configured to receive air from the storage chamber, a first filtration outlet (366) configured to release air into the outside environment (10), and first filter media (368) between the first filtration inlet (364) and the first filtration outlet (366).

A home appliance, such as a laundry appliance, includes a component assembly with a sensor and a sensor-controlled component for operating the appliance, and a cover for housing the component assembly therein. The cover has an outer surface and an inner surface. The cover includes a functionalized superhydrophobic multi-layer coating on at least one of the outer surface and inner surface. The functionalized superhydrophobic coating prevents moisture from entering the component assembly and attacking sensors housed therein, and has a water contact angle thereon of at least 145 degrees.

A home appliance, such as a laundry appliance, includes a component assembly with a sensor and a sensor-controlled component for operating the appliance, and a cover for housing the component assembly therein. The cover has an outer surface and an inner surface. The cover includes a functionalized superhydrophobic multi-layer coating on at least one of the outer surface and inner surface. The functionalized superhydrophobic coating prevents moisture from entering the component assembly and attacking sensors housed therein, and has a water contact angle thereon of at least 145 degrees.

A wireless sensing device disposed a drum along with laundry to measure humidity in the drum, thereby increasing accuracy in estimation of a degree of dryness, a dryer for determining a degree of dryness of the laundry using the wireless sensing device, and a method of controlling the dryer. The wireless sensing device includes a sensing module including a humidity sensor for measuring humidity in a drum of a dryer into which the wireless sensing module is thrown; a sensor communication module transmitting or receiving data with a main communication module of the dryer through wireless communication; a sensor controller configured to control the sensor communication module to transmit a humidity value corresponding to an output of the sensing module to the main communication module; and a sensor power supplier supplying power to the sensing module, the sensor communication module, and the sensor controller.

A wireless sensing device disposed a drum along with laundry to measure humidity in the drum, thereby increasing accuracy in estimation of a degree of dryness, a dryer for determining a degree of dryness of the laundry using the wireless sensing device, and a method of controlling the dryer. The wireless sensing device includes a sensing module including a humidity sensor for measuring humidity in a drum of a dryer into which the wireless sensing module is thrown; a sensor communication module transmitting or receiving data with a main communication module of the dryer through wireless communication; a sensor controller configured to control the sensor communication module to transmit a humidity value corresponding to an output of the sensing module to the main communication module; and a sensor power supplier supplying power to the sensing module, the sensor communication module, and the sensor controller.