The invention relates to a process for hot application of an adhesive composition (80) on a support (96), by means of a system comprising: a nozzle (50) for applying the adhesive composition (80), a line (88) for supplying the nozzle (50) with the adhesive composition (80) to be applied in fluid form, a mixer (30) positioned in the line (88) for the homogeneous mixture of the main components of the adhesive composition before its application; the applied adhesive composition (80) including as main components: a silylated prepolymer, a compatible tackifying resin; the adhesive composition comprising a cross-linking catalyst; the process comprising: supplying the line (88) with the silylated prepolymer separated from the cross-linking catalyst, the mixing of the cross-linking catalyst with the main components by means of the mixer (30), the hot application of the mixed adhesive composition (80) onto a support (96).

The invention relates to a process for hot application of an adhesive composition (80) on a support (96), by means of a system comprising: a nozzle (50) for applying the adhesive composition (80), a line (88) for supplying the nozzle (50) with the adhesive composition (80) to be applied in fluid form, a mixer (30) positioned in the line (88) for the homogeneous mixture of the main components of the adhesive composition before its application; the applied adhesive composition (80) including as main components: a silylated prepolymer, a compatible tackifying resin; the adhesive composition comprising a cross-linking catalyst; the process comprising: supplying the line (88) with the silylated prepolymer separated from the cross-linking catalyst, the mixing of the cross-linking catalyst with the main components by means of the mixer (30), the hot application of the mixed adhesive composition (80) onto a support (96).

An apparatus for disposing of organic or sewage sludge waste includes: a storage tank configured to collect and accommodate organic or sewage sludge waste; an agitator which is connected to the storage tank to decompose and dry the organic or sewage sludge waste supplied from the storage tank; a first deodorizer which is connected to one side of the agitator to biologically decompose and remove bad-odour substances from a waste gas generated during an agitating process of the organic or sewage sludge waste; a second deodorizer which heats and removes bad-odour substances contained in the waste gas from which the bad-odour substances have been partially removed by the first deodorizer; and a heat exchanger which heats the waste gas, which flows in the second deodorizer, through heat of the waste gas discharged from the second deodorizer.

An apparatus for disposing of organic or sewage sludge waste includes: a storage tank configured to collect and accommodate organic or sewage sludge waste; an agitator which is connected to the storage tank to decompose and dry the organic or sewage sludge waste supplied from the storage tank; a first deodorizer which is connected to one side of the agitator to biologically decompose and remove bad-odour substances from a waste gas generated during an agitating process of the organic or sewage sludge waste; a second deodorizer which heats and removes bad-odour substances contained in the waste gas from which the bad-odour substances have been partially removed by the first deodorizer; and a heat exchanger which heats the waste gas, which flows in the second deodorizer, through heat of the waste gas discharged from the second deodorizer.

A blender apparatus includes a cup cover, a bottom cover, a cup body and a blade assembly. The cup body includes an inner cavity. The cup body includes a first port above the inner cavity. The cup body includes a second port below the inner cavity. The first port is detachably connected to the cup cover. The blade assembly includes a blade and a motor and a blade housing. The blade assembly includes an operation state and a storage state. In the operation state, the blade of the blade assembly is inserted into the inner cavity through the second port of the cup body for cutting and mixing objects placed in the inner cavity.

A blender apparatus includes a cup cover, a bottom cover, a cup body and a blade assembly. The cup body includes an inner cavity. The cup body includes a first port above the inner cavity. The cup body includes a second port below the inner cavity. The first port is detachably connected to the cup cover. The blade assembly includes a blade and a motor and a blade housing. The blade assembly includes an operation state and a storage state. In the operation state, the blade of the blade assembly is inserted into the inner cavity through the second port of the cup body for cutting and mixing objects placed in the inner cavity.

A handheld mixer comprises a housing, an internal motor unit disposed within the housing, a support plate of an electronic control board disposed within the housing, and at least one heat sink attached to the support plate. The housing comprises an upper air inlet and a lower air outlet. The internal motor unit comprises a lower fan, a brushless motor, a separator bridge, at least one spacer, and a separator cover. The brushless motor is at least partially surrounded by the separator bridge. The separator bridge is linked to the separator cover by the at least one spacer, thereby enabling air to circulate inside the housing through an air chamber.

A handheld mixer comprises a housing, an internal motor unit disposed within the housing, a support plate of an electronic control board disposed within the housing, and at least one heat sink attached to the support plate. The housing comprises an upper air inlet and a lower air outlet. The internal motor unit comprises a lower fan, a brushless motor, a separator bridge, at least one spacer, and a separator cover. The brushless motor is at least partially surrounded by the separator bridge. The separator bridge is linked to the separator cover by the at least one spacer, thereby enabling air to circulate inside the housing through an air chamber.

Provided herein is a jacketed mixing vessel housing, comprising: (a) three jacketed side walls, each of the three jacketed side walls connected to at least one of the other jacketed side walls, each of the jacketed side walls defining an interior cavity, wherein each of the interior cavities is in fluid connection with the others; (b) a base supporting the three jacketed side walls at a bottom side of the three jacketed side walls; (c) an inlet port on the bottom side of one of the jacketed side walls in fluid connection with the interior cavity; and (d) an outlet port on one of the jacketed side walls in fluid connection with the interior cavity at a top side of the interior cavity; wherein the bottom side of the jacketed wall side wall containing the inlet slopes downwardly in a direction towards the inlet port, and wherein the three interior cavities of the three jacketed side walls are configured such that the three interior cavities are substantially filled by a fluid entering the jacketed mixing vessel housing before the fluid reaches the outlet port.

Provided herein is a jacketed mixing vessel housing, comprising: (a) three jacketed side walls, each of the three jacketed side walls connected to at least one of the other jacketed side walls, each of the jacketed side walls defining an interior cavity, wherein each of the interior cavities is in fluid connection with the others; (b) a base supporting the three jacketed side walls at a bottom side of the three jacketed side walls; (c) an inlet port on the bottom side of one of the jacketed side walls in fluid connection with the interior cavity; and (d) an outlet port on one of the jacketed side walls in fluid connection with the interior cavity at a top side of the interior cavity; wherein the bottom side of the jacketed wall side wall containing the inlet slopes downwardly in a direction towards the inlet port, and wherein the three interior cavities of the three jacketed side walls are configured such that the three interior cavities are substantially filled by a fluid entering the jacketed mixing vessel housing before the fluid reaches the outlet port.