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 arrangement includes a primary drying module having: a body, a bar movable relative to the body, the bar having an air outlet for exhausting an airflow in a first airflow direction; and a secondary drying module having a housing, the housing having an air outlet for exhausting an airflow in a second airflow direction; wherein the first airflow direction and the second airflow direction differ from one another.

The invention relates to a freeze dryer and a method for inducing controlled nucleation in liquid products. The freeze dryer for inducing nucleation in water based products (44) to be freeze-dried comprises a product chamber (12) adapted for housing a vapor gas and the products (44), a condensation chamber (16) connected to the product chamber (12) over an isolation valve (36) in a gas conductive manner, said condensation chamber (16) being provided with a gas pump (18), a gas transfer line (20) connecting the product chamber (12) with at least one cooling device (22) being adapted to generate ice-crystals when said vapor gas is withdrawn from the product chamber through the cooling device (22) in a first gas flow direction (streaked arrow), the freeze dryer being adapted to—after the generation of the ice crystals in the cooling device (22)—convey a flushing gas through the gas transfer line (20) in a second gas flow direction (white arrow) going reverse to said first gas flow direction in order to thereby entrain the ice-crystals from the cooling device (22) into the product chamber (12) to induce nucleation of the products (44) therein. The freeze dryer is particular in that the gas transfer line (20), which comprises the cooling device (22), is separated from the gas pump (18) at least by the condensation chamber (16), the condensation chamber (16) providing a gas passage for the withdrawn vapor gas during the withdrawal in the first gas flow direction, and a gas passage and/or gas storage for the flushing gas during the conveying in the second gas flow direction.

A battery powered blow dryer having a novel battery cooling feature to simultaneously cool the batteries and improve hair dryer performance.

There is provided a grain dryer in which the whole of a dryer main body can be made effective use of whether the grain dryer is used in either a circulation drying mode or in a continuous flow drying mode, the grain dryer including a dryer main body into which grains are loaded, a hot air chamber provided at one side of the dryer main body to supply hot air into an interior of the dryer main body, and an exhaust air chamber provided at the other side of the dryer main body to discharge hot air from the interior of the dryer main body, wherein the hot air chamber and the exhaust air chamber each have a plurality of upper and lower independent spaces, the corresponding spaces of the hot air chamber and the exhaust air chamber being disposed to be positioned substantially at a same height, and wherein the individual spaces of the hot air chamber communicate with corresponding hot air generators to execute separate supplies of hot air generated by the hot air generators into the individual spaces, and a height range in the interior of the dryer main body into which hot air is supplied from the spaces of the hot air chamber is defined as a drying section to dry grains loaded into the interior of the dryer main body.

Disclosed is a vacuum drying and solvent recovery device, including a vacuum drying system for drying an ink jet printing (IJP) ink by volatilizing a solvent in the IJP ink and a solvent recovery system for recovering the solvent volatilized from the IJP ink. By integrating the solvent recovery system outside the vacuum drying system and providing a plurality of solvent recovery chambers in the solvent recovery system to condense and recover solvents for various systems, the recycling of the solvents in the IJP inks and the reduction of production costs can be achieved.

Leaking of high-temperature gas inside a furnace to the outside of the furnace via a furnace body opening portion and entry of normal-temperature air outside the furnace into the furnace via the furnace body opening portion are effectively prevented. A central vent that forms an airflow curtain in a target object passage region of a furnace body opening portion and left and right side vents that form airflow curtains respectively in gap regions between the target object passage region and left and right side walls of the furnace body opening portion are provided as vents for forming airflow curtains, an airflow fa for forming an airflow curtain blows from the central vent toward the inner side of the furnace diagonally downward at an inclination angle that is smaller than 40° relative to a horizontal direction, and airflows for forming airflow curtains blow from the left and right side vents vertically downward or toward the inner side of the furnace diagonally downward at an inclination angle that is larger than 60° relative to the horizontal direction.

Leaking of high-temperature gas inside a furnace to the outside of the furnace via a furnace body opening portion and entry of normal-temperature air outside the furnace into the furnace via the furnace body opening portion are effectively prevented. A central vent that forms an airflow curtain in a target object passage region of a furnace body opening portion and left and right side vents that form airflow curtains respectively in gap regions between the target object passage region and left and right side walls of the furnace body opening portion are provided as vents for forming airflow curtains, an airflow fa for forming an airflow curtain blows from the central vent toward the inner side of the furnace diagonally downward at an inclination angle that is smaller than 40° relative to a horizontal direction, and airflows for forming airflow curtains blow from the left and right side vents vertically downward or toward the inner side of the furnace diagonally downward at an inclination angle that is larger than 60° relative to the horizontal direction.

A blower includes a blowout port configured to blow air outside the blower, a channel member connected to the blowout port, the channel member configured to guide the air to the blowout port, a first heat insulation member configured to cover an inner wall of the channel member, and a second heat insulation member configured to cover an outer wall of the channel member.

A reusable drywall air injector is fashioned from durable, rigid material. A pointed tip for piercing drywall extends from a hollow cylinder around which is disposed a helical blade. A hollow hex section is connected between the hollow cylinder and a hollow nipple, the interiors of the cylinder, the hex section and the nipple interconnecting to form a path for compressed air. Embodiments of the injector further fashion the interior of the hollow cylinder with notches adapted to receive a driver head. The injector is inserted into drywall by driving the injector by means of a motorized drill or screwdriver engaging the injector either by deep well socket around the hex section or, in embodiments, by appropriate driver head engaging the cooperating notches in the hollow cylinder. After use, the injector may be removed from drywall for reuse by the same means operated in reverse.