A lid for curing organic plants. The lid is configured to be secured onto a contain with an open top, wherein the lid includes a gasket located on the bottom side of the lid, wherein the lid further includes one or more valves configured to prevent air from entering the container when the lid is secured, wherein the valve is further configured to allow air to escape the container and enter the container when actuated, wherein the lid includes a plurality of numbers associated with a calendar date and a calendar month annularly arranged on a top surface of the lid, and wherein the lid further includes a plurality of tabs, wherein the plurality of tabs are configured to move bi-directionally and include an opening configured to align and display the plurality of numbers.

A dryer for drying hair or clothes is disclosed. The dryer includes a head and a handle attached to the head. The dryer further includes ultrasonic devices, a controller, a vacuum pump, and a reservoir. The head has a surface on which inlet holes are formed. The ultrasonic devices are positioned on the surface of the head. The ultrasonic devices produce ultrasonic vibrations that break down water molecules into mist. The controller controls an operation of the ultrasonic devices.

A system for drying a wet lactose product stream includes a disperser configured to disperse agglomerated lactose particulates in a wet lactose stream into a dispersed wet lactose stream. A back-mixed partial drying zone is configured to at least partially dry the dispersed wet lactose stream by recirculating a partially dried lactose stream with the dispersed wet lactose stream. A plug-flow secondary drying zone is configured to dry the partially dried lactose stream to generate a substantially dried lactose stream.

A painting and drying booth includes at least one surface-mounted luminaire having a frame with a box body that defines a compartment provided with a front opening, an electromagnetic radiation source in the compartment, a mobile screen, at least one actuation device to move the screen; the actuation device is of articulated parallelogram type in such a way to move the screen with a roto-translation movement, during which the screen always lies on the same plane.

Hot air drying is an intensive energy consuming process, 5000-8000 kJ per kg of water. More efficient processes produce low drying rates or cannot totally dry the product because they do not integrate the four drying phases, warm up, constant drying, falling drying and aeration and do not handle dripping. To reduce the energy consumption, the exhausted mix of air and vapor is used as working fluid to drive each phase, and the dripping is collected before it goes back to the product. This fluid is compressed inside of a heat-exchanger to heat the product; however, the mix proportion, vapor and air, changes on each phase. For warm up phase, the working fluid is either hot air or condensed water; in constant phase, it is mostly vapor; in falling phase, it changes from vapor to air; and for aeration, it is air. Inlet and outlet valves control these proportions.

The invention relates to a drying system (1) comprising a drying plant (2) and a heat pump assembly (3) comprising one or more heat pumps operating with a primary fluid and being connected to at least two heat sources and at least one heat sink by means of a number of heat exchangers in a fluid network, in which a secondary fluid circulates. The heat sources may comprise dew point dehumidification in at least one heat exchanger (41) of process gas entering the drying plant; and recovery in another heat exchanger (42) of latent and/or sensible heat from exhaust gas leaving the drying plant. The heat sink may comprise pre-heating in a heat exchanger (51) of process gas used within the plant. Further, a method of integrating a heat pump assembly into a drying system is devised. By the invention, it is possible to increase the capacity of the drying plant while reducing the specific energy demand.

A moisture sensor assembly for a dryer appliance includes a housing body having a divider wall, a first sensor rod, and a second sensor rod. The first and second sensor rods are positioned on the housing body. Each of the first and second sensor rods has a mounting tab. The mounting tab of the first sensor rod is positioned opposite the mounting tab of the first sensor rod about the divider wall of the housing body. The mounting tabs of the first and second sensor rods are oriented generally parallel to the divider wall.

A food cooling apparatus, including a generally pair shaped housing having a bottom portion connected to a middle portion tapering to a top portion, an electric fan connected to an interior wall of the housing and operative to draw air into an air inlet and out an air outlet, and a rechargeable battery supported within the bottom portion. A connector portion configured to attach to an external surface extends downward from the bottom portion. The housing has a generally hollow interior with the air inlet located on the middle portion or bottom portion and the air outlet located on the top portion. The air outlet is generally perpendicular to the housing in an upright position. The electric fan is not visible from the outside of the generally pair shaped housing. The rechargeable battery operationally provides power to the electric fan. The lower portion has a greater mass than the middle and top portions such that the center of gravity of the housing is lowered.

A lid for curing organic plants. The lid is configured to be secured onto a contain with an open top, wherein the lid includes a gasket located on the bottom side of the lid, wherein the lid further includes one or more valves configured to prevent air from entering the container when the lid is secured, wherein the valve is further configured to allow air to escape the container and enter the container when actuated, wherein the lid includes a plurality of numbers associated with a calendar date and a calendar month annularly arranged on a top surface of the lid, and wherein the lid further includes a plurality of tabs, wherein the plurality of tabs are configured to move bi-directionally and include an opening configured to align and display the plurality of numbers.

A lid for curing organic plants. The lid is configured to be secured onto a contain with an open top, wherein the lid includes a gasket located on the bottom side of the lid, wherein the lid further includes one or more valves configured to prevent air from entering the container when the lid is secured, wherein the valve is further configured to allow air to escape the container and enter the container when actuated, wherein the lid includes a plurality of numbers associated with a calendar date and a calendar month annularly arranged on a top surface of the lid, and wherein the lid further includes a plurality of tabs, wherein the plurality of tabs are configured to move bi-directionally and include an opening configured to align and display the plurality of numbers.