A rotary kiln-type core sand regeneration system, having a rotating cylinder, a burner for directing a flame into the rotating cylinder, a motor for rotating the rotating cylinder, front and rear boundary frames and rollers for supporting the rotating cylinder, and a platform on which the rotating cylinder, the burner, the motor, the front and rear boundary frames and the rollers are mounted. The rotating cylinder has a used core sand inlet, an exhaust cylinder and a preliminary heating cylinder arranged from the rear and a regenerated core sand outlet formed at a front part thereof, the rotating cylinder being directly coupled to the burner at a front end, and including at least one combustion cylinder having passing holes through which the core sand and the flame from the burner are passed in a front part thereof.

A cooling composition including a mixture of solid particles of CO.sub.2 and liquid nitrogen, wherein the content of solid particles of CO.sub.2 is between 70 and 85% by weight and the solid particles of CO.sub.2 have a diameter of less than or equal to 50 m is provided.

A cooling composition including a mixture of solid particles of CO.sub.2 and liquid nitrogen, wherein the content of solid particles of CO.sub.2 is between 70 and 85% by weight and the solid particles of CO.sub.2 have a diameter of less than or equal to 50 m is provided.

A rotary kiln-type core sand regeneration system, having a rotating cylinder, a burner for directing a flame into the rotating cylinder, a motor for rotating the rotating cylinder, front and rear boundary frames and rollers for supporting the rotating cylinder, and a platform on which the rotating cylinder, the burner, the motor, the front and rear boundary frames and the rollers are mounted. The rotating cylinder has a used core sand inlet, an exhaust cylinder and a preliminary heating cylinder arranged from the rear and a regenerated core sand outlet formed at a front part thereof, the rotating cylinder being directly coupled to the burner at a front end, and including at least one combustion cylinder having passing holes through which the core sand and the flame from the burner are passed in a front part thereof.

A rotary kiln-type core sand regeneration system, having a rotating cylinder, a burner for directing a flame into the rotating cylinder, a motor for rotating the rotating cylinder, front and rear boundary frames and rollers for supporting the rotating cylinder, and a platform on which the rotating cylinder, the burner, the motor, the front and rear boundary frames and the rollers are mounted. The rotating cylinder has a used core sand inlet, an exhaust cylinder and a preliminary heating cylinder arranged from the rear and a regenerated core sand outlet formed at a front part thereof, the rotating cylinder being directly coupled to the burner at a front end, and including at least one combustion cylinder having passing holes through which the core sand and the flame from the burner are passed in a front part thereof.

Granular matter placed in a vertical cylinder rotated back and forth between limiting angles creates a sidewards flying bed. A spoke is connected at one between a vertical drive shaft rotating the cylinder and a first hinge. A drive rod is connected between the first hinge and a second hinge on a rotating flywheel. Rotation of the flywheel causes the drive shaft to rotate through an angle varying back and forth between limiting angles. The cylinder's speed of rotation varies. During most of the time centrifugal forces greater than gravity act upon the granular material, causing the material to form a layer on the inner wall of the cylinder. In at least a portion of the recurring time intervals the acceleration and deceleration produce tangential forces greater than the centrifugal forces acting upon the layer, causing the granular material to fly sidewards in a direction tangential to the cylinder's circumference.