Assemblies and methods for drying apparel, for example, footwear or gloves, are provided. The assemblies include a panel; projections or pegs pivotally mounted to the panel, the projections each having an inlet, an outlet, an internal passage communicating the inlet to the outlet, and the projections can be oriented in a position adapted to receive the apparel; and a source of air having an outlet in fluid communication with the inlets of the projections. The air, for example, from a fan, passes into the inlets of the projections, through the internal passages, and out of the outlets to contact and dry the apparel mounted on the projections. The methods may include heating the air to enhance the drying. Projection modules that can be pivotally mounted to extend and retract into the panel are also disclosed. The retracted projection may be flush with the panel when not in use.

Assemblies and methods for drying apparel, for example, footwear or gloves, are provided. The assemblies include a panel; projections or pegs pivotally mounted to the panel, the projections each having an inlet, an outlet, an internal passage communicating the inlet to the outlet, and the projections can be oriented in a position adapted to receive the apparel; and a source of air having an outlet in fluid communication with the inlets of the projections. The air, for example, from a fan, passes into the inlets of the projections, through the internal passages, and out of the outlets to contact and dry the apparel mounted on the projections. The methods may include heating the air to enhance the drying. Projection modules that can be pivotally mounted to extend and retract into the panel are also disclosed. The retracted projection may be flush with the panel when not in use.

The invention disclosed is an ammunition cartridge case dryer for use in the cleaning, drying and reloading of ammunition cartridge cases. It comprises an upper housing, a base, means for forcing air into a hollow space defined by the upper housing and base, an array of cups or nozzles that are located on the upper surface of the dryer and are adapted to receive a wet cartridge case. The nozzles have apertures in communication with the hollow space such that air can be expelled through said nozzles into said cases for quick drying.

The invention disclosed is an ammunition cartridge case dryer for use in the cleaning, drying and reloading of ammunition cartridge cases. It comprises an upper housing, a base, means for forcing air into a hollow space defined by the upper housing and base, an array of cups or nozzles that are located on the upper surface of the dryer and are adapted to receive a wet cartridge case. The nozzles have apertures in communication with the hollow space such that air can be expelled through said nozzles into said cases for quick drying.

A round dryer for drying workpieces has a helically revolving workpiece passage in a work container and is provided with a heating device. The work container is closed at its upper side.

A round dryer for drying workpieces has a helically revolving workpiece passage in a work container and is provided with a heating device. The work container is closed at its upper side.

The present invention relates to a method for early detection of carbonization during the drying of an organic material. The method of the present invention measures temperature variation per unit time of exhaust gas containing water (H.sub.2O), carbon monoxide (CO), or carbon dioxide (CO.sub.2), which are to be generated by the pyrolysis of an organic material, and the concentration of carbon monoxide/carbon dioxide of the exhaust gas, so as to determine the occurrence of carbonization therethrough, thereby enabling early detection of carbonization within a dryer.

The present invention relates to a method for early detection of carbonization during the drying of an organic material. The method of the present invention measures temperature variation per unit time of exhaust gas containing water (H.sub.2O), carbon monoxide (CO), or carbon dioxide (CO.sub.2), which are to be generated by the pyrolysis of an organic material, and the concentration of carbon monoxide/carbon dioxide of the exhaust gas, so as to determine the occurrence of carbonization therethrough, thereby enabling early detection of carbonization within a dryer.

An apparatus (1) and method for drying polymer powders is described. The apparatus has an inlet (2) and an outlet (3) for the polymer powder, heat registers (5) installed in the interior space (4) and lines (7) for a heated gas (6a) for drying the polymer powder. The lines open into the interior space (4) and are connected to heat exchangers (9) for heating gas (6). The heat exchangers (9) are connected to a plant for the preparation of 1,2-dichloroethane (15) and/or for the preparation of vinyl chloride from 1,2-dichloroethane so that thermal energy from the plant can be utilized for heating the gas (6). The method comprises treatment of a polymer powder with a heated gas (6a) in the drying apparatus (1).

An apparatus (1) and method for drying polymer powders is described. The apparatus has an inlet (2) and an outlet (3) for the polymer powder, heat registers (5) installed in the interior space (4) and lines (7) for a heated gas (6a) for drying the polymer powder. The lines open into the interior space (4) and are connected to heat exchangers (9) for heating gas (6). The heat exchangers (9) are connected to a plant for the preparation of 1,2-dichloroethane (15) and/or for the preparation of vinyl chloride from 1,2-dichloroethane so that thermal energy from the plant can be utilized for heating the gas (6). The method comprises treatment of a polymer powder with a heated gas (6a) in the drying apparatus (1).