The food-coating device comprises a drum, a rolling stand, and a motor. The drum may apply a breading mixture to a plurality of food items. The plurality of food items and the breading mixture may be placed within the drum. The drum may be spun by the motor to tumble the plurality of food items and the breading mixture such that the plurality of food items are coated with the breading mixture. The drum and the motor may be supported by the rolling stand. A door may pivot open to provide access to the interior of the drum. A door gasket may seal the door when the door is closed.

The food-coating device comprises a drum, a rolling stand, and a motor. The drum may apply a breading mixture to a plurality of food items. The plurality of food items and the breading mixture may be placed within the drum. The drum may be spun by the motor to tumble the plurality of food items and the breading mixture such that the plurality of food items are coated with the breading mixture. The drum and the motor may be supported by the rolling stand. A door may pivot open to provide access to the interior of the drum. A door gasket may seal the door when the door is closed.

Disclosed are a particulate processed product of tea and a method for preparing the same. The particulate processed product of tea has a sphericity S.sub.10 value of a particle corresponding to 10% cumulative subdistribution in cumulative distribution measured for the sphericity of tea particles of 0.68 or greater. The processed product of tea is convenient to drink because it is readily wetted and dispersed in water. In addition, it can be easily packaged and used due to a low angle of repose and thus excellent flowability.

Disclosed are a particulate processed product of tea and a method for preparing the same. The particulate processed product of tea has a sphericity S.sub.10 value of a particle corresponding to 10% cumulative subdistribution in cumulative distribution measured for the sphericity of tea particles of 0.68 or greater. The processed product of tea is convenient to drink because it is readily wetted and dispersed in water. In addition, it can be easily packaged and used due to a low angle of repose and thus excellent flowability.

There is described a drum coater including a substantially cylindrical drum having a peripheral drum wall and a predefined diameter, said drum having a substantially horizontal axis of rotation, a top section and a bottom section being defined above and below, respectively, the axis of rotation, said drum being adapted to contain tablets, a coating zone, one or more spray nozzles directed towards the coating zone, and driving means.

There is described a drum coater including a substantially cylindrical drum having a peripheral drum wall and a predefined diameter, said drum having a substantially horizontal axis of rotation, a top section and a bottom section being defined above and below, respectively, the axis of rotation, said drum being adapted to contain tablets, a coating zone, one or more spray nozzles directed towards the coating zone, and driving means.

Water-dispersible pellets are provided that includes spent lime particles present from 80 to 99.5 total weight percent. A binder component is also present from 20 to 0.5 total weight percent. The pellets have a mean pellet domain size. The spent lime particles, and the binder component present in a form such that contact with water causes pellet dispersion into more than 100 pieces. A process of forming spent lime pellets is also provided that include spent lime being dewatered to a free-flowing powder. A binder is then added under conditions to induce agglomeration of the free-flowing powder to the form the pellets. A process of treating a target crop is also provided based on such pellets.

Water-dispersible pellets are provided that includes spent lime particles present from 80 to 99.5 total weight percent. A binder component is also present from 20 to 0.5 total weight percent. The pellets have a mean pellet domain size. The spent lime particles, and the binder component present in a form such that contact with water causes pellet dispersion into more than 100 pieces. A process of forming spent lime pellets is also provided that include spent lime being dewatered to a free-flowing powder. A binder is then added under conditions to induce agglomeration of the free-flowing powder to the form the pellets. A process of treating a target crop is also provided based on such pellets.

The invention relates to a method for producing seed-like solid particles from at least one, but typically two starting substances, wherein the produced particles are optically detected by means of an optical detection system, wherein data of the produced particles detected optically by the optical detection system is provided, and at least one, but typically two parameters of the produced particles are determined from the optically detected data of the produced particles, wherein at least one, but typically two optically determined parameters automatically synergetically influence the production process of further particles on the basis of the optically detected data of the produced particles. The invention further relates to a device for carrying out the method and a computer program for carrying out the method.

The invention relates to a method for producing seed-like solid particles from at least one, but typically two starting substances, wherein the produced particles are optically detected by means of an optical detection system, wherein data of the produced particles detected optically by the optical detection system is provided, and at least one, but typically two parameters of the produced particles are determined from the optically detected data of the produced particles, wherein at least one, but typically two optically determined parameters automatically synergetically influence the production process of further particles on the basis of the optically detected data of the produced particles. The invention further relates to a device for carrying out the method and a computer program for carrying out the method.