The present invention relates to a method for heat-treating water-absorbing polymeric particles at a temperature equal to or above 150 C. in a fluidized bed dryer at a fast heat-up rate, the use of a fluidized bed dryer for heat-treating water-absorbing polymeric particles in continuous or batch mode as well as to the heat-treated polymeric particles obtained by the method of the present invention.

A dryer, sanitizer, and disinfecting device for make-up brushes includes an outer housing having an upper surface defining a plurality of openings therein with the plurality of openings arranged in a linear array; an inner housing including a retainer having a plurality of recesses corresponding to the plurality of openings defined in the outer housing; and a sterilizing component supported within at least one of the outer housing or the inner housing, wherein the sterilizing component effects the cleaning chamber, and wherein the sterilizing component includes a UV light bulb.

Compressed air supplied into a housing is expanded for reducing air humidity in the housing in response to the expansion of the compressed air. As a result, it is possible in a simple manner for a component to be operated in a dry environment. The component can be dried and condensation on the component can be prevented.

The invention relates to a plant for recycling used batteries, comprising a comminuting device to comminute used batteries in a comminuting space. The plant includes a drying device, arranged downstream of the comminuting device, to dry the comminuted batteries. The plant includes an intermediate storage device arranged between the comminuting device and the drying device. The plant includes a stirring means to keep the comminuted batteries received in the intermediate storage space in motion. The plant includes a respective supply line for inert gas for each of the comminuting space of the comminuting device, the intermediate storage space of the intermediate storage device, and a drying space of the drying device.

The invention relates to a plant for recycling used batteries, comprising a comminuting device to comminute used batteries in a comminuting space. The plant includes a drying device, arranged downstream of the comminuting device, to dry the comminuted batteries. The plant includes an intermediate storage device arranged between the comminuting device and the drying device. The plant includes a stirring means to keep the comminuted batteries received in the intermediate storage space in motion. The plant includes a respective supply line for inert gas for each of the comminuting space of the comminuting device, the intermediate storage space of the intermediate storage device, and a drying space of the drying device.

A drying method for drying a roll electrode for a positive electrode, comprising drying a roll electrode in a state in which entire temperature of the roll electrode is within a range of the first temperature or higher to the second temperature or lower. The first temperature is evaporation temperature of moisture contained in active material included to the electrode, and the second temperature is decomposition temperature of binding material included to the electrode.

A grain dryer having a mixed-flow heating section, a tempering transition section, and a vacuum-cooled crossflow cooling section. A fan positioned on the end of the dryer creates a negative pressure in the cooling plenum that pulls air through the grain, warming the air while cooling the grain. This warmed air is pulled through the fan and then passed through a heater to bring it to appropriate drying temperature. This air is then pushed into a heating plenum, where it passes through a mixed-flow grain column, drying the grain, and then exhausted to ambient air.

A method for drying high moisture, low calorific value lignite for a generating set and recovering water contained therein and an apparatus thereof mainly consist of a rotary steam tube dryer, a washing cooling tower, a coal mill, a first bag filter, a condenser, a weighing surge bunker, a water ring vacuum pump and so on. A drying system is integrated with a milling system, every dryer and the corresponding coal mill are disposed and are directly connected via a surge bunker, thereby not only saving the heat lost during the transportation of pulverized coal, but also omitting a long-distance transportation from a conventional drying system to a conventional milling system, effectively avoiding such phenomena as dust pollution, waste and spontaneous combustion during transportation and transshipment, simplifying the coal preparation system employed in the front-end process of drying.

A method for drying high moisture, low calorific value lignite for a generating set and recovering water contained therein and an apparatus thereof mainly consist of a rotary steam tube dryer, a washing cooling tower, a coal mill, a first bag filter, a condenser, a weighing surge bunker, a water ring vacuum pump and so on. A drying system is integrated with a milling system, every dryer and the corresponding coal mill are disposed and are directly connected via a surge bunker, thereby not only saving the heat lost during the transportation of pulverized coal, but also omitting a long-distance transportation from a conventional drying system to a conventional milling system, effectively avoiding such phenomena as dust pollution, waste and spontaneous combustion during transportation and transshipment, simplifying the coal preparation system employed in the front-end process of drying.

Disclosed are a transformer system and a control method of an air-drying device thereof. The air-drying device has a desiccant material stored therein and is connected to a transformer for removing water from an airflow entering the transformer. The control method includes the following steps. The first step is detecting a weight of the desiccant material. The next step is determining whether the weight of the desiccant material reaches a first predetermined weight. The next step is determining whether the transformer is in an air inflow state or an air outflow state, and is conducted when the weight of the desiccant material reaches a first predetermined weight. The last step is heating the desiccant material, and is conducted when the transformer is the air outflow state. Therefore, the lifetime of the transformer can be remarkably extended.