A drying apparatus includes a body, an air inlet, a flow generator to receive inlet air from the air inlet and generate an airflow, an air outlet at the body for exhausting the airflow from the flow generator, the air outlet extending along a vertical height of the body, and an outlet airflow steering mechanism operable to control a lateral extent of the airflow from the air outlet. A controller is configured to operate the outlet airflow steering mechanism to control the lateral extents of the airflow from the air outlet.

A drying apparatus includes a body, an air inlet, a flow generator to receive inlet air from the air inlet and generate an airflow, an air outlet at the body for exhausting the airflow from the flow generator, the air outlet extending along a vertical height of the body, and an outlet airflow steering mechanism operable to control a lateral extent of the airflow from the air outlet. A controller is configured to operate the outlet airflow steering mechanism to control the lateral extents of the airflow from the air outlet.

Drying of newly harvested grain wherein the grain has a preferred market moisture content target and the grain is heated and dried to within about four percent above the target and discharged at about 110° F. Thereafter, the grain is cooled to ambient by circulating ambient air at preferably one third of a cubic foot per minute per bushel through the grain thereby removing about two percent additional moisture. When required the grain is further dried to target moisture utilizing an equilibrium moisture process.

Drying of newly harvested grain wherein the grain has a preferred market moisture content target and the grain is heated and dried to within about four percent above the target and discharged at about 110° F. Thereafter, the grain is cooled to ambient by circulating ambient air at preferably one third of a cubic foot per minute per bushel through the grain thereby removing about two percent additional moisture. When required the grain is further dried to target moisture utilizing an equilibrium moisture process.

A dryer for ceramic products, such as for example slabs or tiles, comprising: a drying chamber (1); at least one drying channel (10), comprising a shelf (11) for one or more ceramic products; at least two manifolds (20), positioned respectively above and below the shelf (11), each of which is connected to a source of conditioned air. The manifold (20) located above the shelf (11) has an extended shape and is provided with a flat lower surface (21a), which in the plan view covers at least a portion of the shelf (11) and is provided with a plurality of lower openings (22a) for emitting the conditioned air into the drying channel (10). The manifold (20) located below the shelf (11) has an extended shape and is provided with a flat upper surface (21b), which in the plan view covers at least a portion of the shelf (11) and is provided with a plurality of upper openings (22b) for emitting the conditioned air into the drying channel (10).

A clothes care apparatus includes a chamber, a first damper, a second damper, a heat exchanger, at least one blower fan, a sensor portion, and a controller. The first damper is configured to control an airflow from inside the chamber to outside the chamber. The second damper is configured to control the airflow into the chamber from the outside. The heat exchanger is provided with a compressor and configured to exchange heat with air in the chamber. The at least one blower fan is configured to generate the airflow. The sensor portion is configured to obtain a temperature and humidity inside and outside of the chamber. The controller is configured to start a drying cycle, control the first and second damper to be opened or closed, and control the heat exchanger and the at least one blower fan by comparing the internal humidity with the external humidity.

A free radical sterilization system having a chamber defining a region, and a generator for generating free radical reach effluent from a free radical electric generator and/or a vaporizer. A closed loop circulating system without a free-radical destroyer is provided for supplying the mixture of free radicals from the electric generator mixed with the hydrogen peroxide solution in the form of the effluent to the chamber. The free-radical sterilization system is used in sterilizing items in the chamber and, with an open-bottomed wound chamber, in treating wounds on a body.

A method for drying bulk material, in particular solids, preferably for plastics-processing machines, in drying devices and containers, interconnected to form an assembly. Depending on the material used, the drying time specified, is transmitted or set by the operator or i-s-present in the controller. A consumer transmits the material consumption or the shot weight per production cycle, respectively, or the individual or cumulated shot weights for several production cycles or other values indicative of the material consumption to the drying device(s) and/or material container(s). Each material container consists, on the control side, of several loading batches, preferably with time stamps, and the drying or residence time, respectively, for the respectively lowest loading batch in the material container results from the difference between the current time of the respective material removal by the consumer and the time stamp associated with the oldest loading batch.

A clothes treating apparatus includes a cabinet and a drum rotatably installed within the cabinet. The clothes treating apparatus also includes a circulation flow path in which exhaust air discharged from the drum is re-supplied to the drum and a condenser configured to allow the exhaust air and cooling air introduced from an outside of the cabinet to be heat-exchanged. The clothes treating apparatus further includes a cooling flow path configured to guide the cooling air toward the condenser and a blowing fan configured to introduce air from outside of the cabinet to an interior of the cooling flow path. In addition, the clothes treating apparatus includes a discharge opening that discharges cooling air, which has passed through the condenser, to an interior of the cabinet. The rotational shaft of the drum is disposed between the discharge opening and the blowing fan.

A continuous wood modification by heat process, that comprises: stacking wooden boards on a trolley at intervals; exerting pressure on said wooden boards; transferring said wooden boards to a heating kiln, pre-heated by microwave and hot air circulation, that has a water vapor flow of 2-5 meter3/hour, a temperature range of 60-100° C., and a humidity range of 50%-100%; transferring said wooden boards to a shallow drying kiln, pre-heated by microwave and hot air circulation, that has a drying temperature of 100-120° C.; transferring said wooden boards to a deep drying kiln, pre-heated by microwave and hot air circulation, that has a drying temperature of 120-120° C., an oxygen content range of 1-10%, and a water vapor flow rate of 1-10 m3/hour; transferring said wooden boards to a carbonization kiln, pre-heated by microwave and hot air circulation, that has a temperature range of 120-180° C., an oxygen content range of 1%-5%; transferring said wooden boards to a slow cooling kiln, that has a temperature range of 120-130° C., and an oxygen content range of 1%-10%; transferring said wooden boards to a fast cooling kiln, that has a temperature range of 90-100° C.; transferring said wooden boards to a rewetting kiln, that has a humidity range of 50%-100%; providing water vapor to said rewetting kiln; while being in said rewetting kiln, and when a temperature range of said wooden boards is 40-60° C., and a moisture content of said wooden boards is 6%-10%, transferring said wooden boards out of said rewetting kiln; wherein each of said heating kiln, said shallow drying kiln, said deep drying kiln, said carbonization kiln, said slow cooling kiln, said fast cooling kiln, and said rewetting kiln comprises a fan, a partition board, a shunt hood, and an exhaust port; wherein said partition board divides an interior of each of said heating kiln, said shallow drying kiln, said deep drying kiln, said carbonization kiln, said slow cooling kiln, said fast cooling kiln, and said rewetting kiln into an upper chamber and a lower chamber; wherein said shunt hood is disposed in said upper chamber; wherein said fan, said shunt hood, and said lower chamber are connected and form a air channel; wherein said lower chamber comprises a shunt plate, disposed along left and right walls of a kiln; wherein said shunting plate comprises a plurality of sieve holes that are disposed gradually dense from top to bottom; wherein one end of said shunt plate is connected with said partition board and the other end is connected with the bottom of a kiln.