The invention relates to a metal element (12) for anchoring an anti-erosion coating that is intended to be fastened alone in an isolated manner to a metal wall or assembled with other identical anchoring elements. The anchoring element (12) has an edge (12a) for fastening to said metal wall and an anchoring body firmly attached to the fastening edge (12a) and having an upper edge (12b) that is away from the fastening edge and intended to be covered by a composite material of concrete type. A section of this upper edge (12b), which is not intended to be juxtaposed and assembled with an upper edge of an identical anchoring element, is provided with a delimiting tab (16) in order to delimit a height of composite material that must cover the upper edge (12b) of said anchoring element, said delimiting tab (16) having a delimiting edge (18) that is a predetermined distance away from a plane defined by the upper edge (12b) of the anchoring element.

A process for producing an anti-erosion coating on an inner or outer metal wall of a chamber of a fluid catalytic cracking unit, comprising: (i) the shaping of a honeycomb metal anchoring structure, said anchoring structure being formed from a plurality of strips connected in pairs by joining assembly portions of these strips so as to form a plurality of cells between two adjacent strips, (ii) the fastening of said anchoring structure by welding to said metal wall, so that each cell of the anchoring structure is welded to the wall of the chamber at least at the junctions between the contiguous assembly portions of two adjacent strips, and (iii) the insertion of a composite material into the cells from the metal wall and at least up to the upper longitudinal edge of each strip.

A structure hanger for suspending bricks and brick structures in a high temperature furnace. The structure hanger has a plurality of column arms, at least one upper flange and at least one lower flange. Each column arm can extend between one upper flange and one lower flange of the structure hanger. Each column arm can have a curved shape. At least one lower flange can be removably attached or removably secured to a refractory brick flange of the brick.

A refractory anchor for lining an object, such as a thermal vessel, including a mounting element positioned in the center of the refractory anchor that is adapted for mounting the refractory anchor to the object. An anchoring system comprising a plurality of refractory anchors. A method of installing such an anchoring system.

An embodiment of the invention includes a riser reactor for reacting a feedstock and catalyst. The riser reactor wall defines an interior. A continuous refractory lining is attached to the reactor wall and defines a plurality of flow disruptors that extend inward from the wall into the reactor interior and disrupt flow patterns of the feedstock and catalyst.

Refractory anchoring devices include a main body and a mounting feature for mounting to a thermal vessel. The main body has the shape of two end-to-end Y's forming a central segment, branch segments extending from ends of the central segment, and extension segments extending from the branch segments, to collectively form four unenclosed cell openings that are semi-hexagonally shaped. Some embodiments include reinforcement segments extending into respective cell openings, voids extending through respective adjacent branch and extension segments, an underbody gap under the central segment, a single stud-welding stud for the mounting feature, and/or a collar-and-stud connection between the anchor main body and a stud-welding stud of the mounting feature. Refractory anchoring systems and methods include an array of the refractory anchoring devices arranged and mounted so that the unenclosed semi-hexagonal cell openings of adjacent anchoring devices cooperatively form substantially hexagonal cells.

A refractory anchor comprising an elongated mounting pin having a first end and a second end opposite to the first end seen in the longitudinal direction of the elongated mounting pin, wherein the first end of the elongated mounting pin is weldable to an object, the refractory anchor further comprises two anchor fins of which each has a first anchor fin section having a first side and an opposing second side located at a distance of the elongated mounting pin with respect to the first side, wherein the first side is connected to the elongated mounting pin.

A method for providing an assembly of an object and refractory anchors includes providing the refractory anchors, each including a mounting pin made from a first alloy and two anchor fins connected to each other by a connector, wherein the connector is connected to the elongated mounting pin, wherein the anchor fins and the connector are made of a second alloy different from the first alloy; and welding the mounting pins of the refractory anchors to the object.

A refractory anchor including an elongated mounting pin having a first end and a second end opposite to the first end seen in the longitudinal direction of the elongated mounting pin, wherein the first end of the elongated mounting pin is configured to be weldable to an object, and an assembly including an object and the refractory anchor, and to a method for providing the assembly.

An eye mount for a refractory anchor includes a mounting base and an attachment head extending from the mounting base. The attachment head includes a through-hole and a saddle channel. The saddle channel includes two side portions formed integrally with the attachment head, and a curved portion between the two side portions. The curved portion is formed integrally with the attachment head.