APPARATUS AND METHOD FOR DISLODGING AND EXTRACTING SOLID MATERIALS FROM TUBES

The present invention provides an apparatus and method for efficiently dislodging and extracting at least a portion of solid materials from one or more reactor tubes of shell-and-tube reactors without damage to at least a portion of the solid materials which would otherwise render the solid materials unsuitable for reuse. The apparatus has at least one rod, a rotator assembly for rotating the rod, and a transmission assembly for applying an axially-directed force to insert the rod into a corresponding reactor tube and dislodging solid materials therein. The rod is also in fluid communication with an aspirator for extraction of dislodged solid materials. When the apparatus has more than one rod, they are arranged in a configuration matching the pattern of the reactor tubes and each rod is in axial alignment with a corresponding reactor tube. The method involves the steps of inserting one or more rods into corresponding reactor tubes, dislodging at least a portion of the solid materials, while minimizing damage to the solid materials or the tubes by rotating and applying an axially directed force to the rods as they contact the solid materials. The dislodged solid materials are then extracted from the reactor tubes. The method may further involve tracking and communicating the completed steps for each reactor tube by placing and replacing indicators on the reactor tubes, thereby enabling an operator to determine which step to perform next.