CATACEL CORP. Patent applications |
Patent application number | Title | Published |
20150314257 | WIRE STANDOFFS FOR STACKABLE STRUCTURAL REACTORS - A wire standoff suitable for use in a tubular reactor, such as a reformer, is described. The wire standoff includes a portion or segment positioned between an outer reactor tube and one or more reactor components located within the tube. The reactor components and the outer tube are prevented from coming into directed contact with one another by the positioning of the wire standoff. The wire standoff can be secured to a reactor component at one of its ends or to a washer located between stacked reactor components. Prevention of the reactor components from contact with the outer tube promotes fluid flow through the reactor and can enhance heat transfer and reactor efficiency for carrying out catalytic reactions. | 11-05-2015 |
20140356109 | INSTALLATION TOOLS FOR STRUCTURED CATALYSTS - A reactor installation tool and method for installing reactor components in a reactor housing. A reactor installation tool can include a push unit having a central aperture traversing its entire length and a push rod, a housing gripper having a center open section traversing its entire length and an expandable bladder positioned adjacent the center open section for securing the housing gripper inside a reactor housing. Reactor components can be installed by first lowering reactor components into a reactor housing, then lowering the reactor installation tool into the reactor housing above the reactor components, and then inflating the expandable bladder such that the expandable bladder contacts an inside surface of the reactor housing to secure the housing gripper inside the reactor housing. | 12-04-2014 |
20140325843 | TOOLS AND PROCESS FOR INSTALLING REACTOR COMPONENTS - Reactor installation tools and methods for installing reactor components in a reactor tube are described herein. A reactor installation tool can include a releasable attachment assembly for securing the tool to a reactor or support for holding reactor components. The tool can include a movable cylinder that can be actuated to engage and push on a reactor component in an interior region of the reactor for positioning the contents of the reactor in a desired location. The tool can further include means for supply blasts of compressed gas to an interior region of the reactor to aid in the expansion and positioning of the reactor contents. A skirt seal can be used to ensure that the blasts of compressed gas are contained in the interior region of the reactor. | 11-06-2014 |
20140205506 | STACKABLE STRUCTURAL REACTORS - A reactor for carrying out catalytic reactions. The reactor includes a reactor component optionally arranged on a central rod in a reactor tube. The reactor component can have fluid ducts for directing fluid flow through the reactor. The fluid ducts are effective for increasing heat transfer in the reactor. The reactor component can further have a washer attached to a top or bottom surface for directing fluid flow. | 07-24-2014 |
20130259767 | WIRE STANDOFFS FOR STACKABLE STRUCTURAL REACTORS - A wire standoff suitable for use in a tubular reactor, such as a reformer, is described. The wire standoff includes a portion or segment positioned between an outer reactor tube and one or more reactor components located within the tube. The reactor components and the outer tube are prevented from coming into directed contact with one another by the positioning of the wire standoff. The wire standoff can be secured to a reactor component at one of its ends or to a washer located between stacked reactor components. Prevention of the reactor components from contact with the outer tube promotes fluid flow through the reactor and can enhance heat transfer and reactor efficiency for carrying out catalytic reactions. | 10-03-2013 |
20130259757 | EXPANDING CENTERS FOR STACKABLE STRUCTURAL REACTORS - Described herein are expandable center arrangements for use in a tubular reactor, such as a reformer, for enhancing heat transfer and reactor efficiency. The expandable center arrangement can include a cone being expandable in the radial direction and an expansion weight for promoting expansion of the cone. The cone and expansion weight can be slidably arranged on a center support. Expansion of the cones in the radial direction forces reactor components radially outward to an outer tube that houses the reactor components and expandable center arrangement. Expansion of reactor components towards the outer tube promotes heat for carrying out catalytic reactions. | 10-03-2013 |
20130171404 | MONOLITH WITH CATALYTIC OR SORBENT BEADS - A monolith for catalytic or sorbent purposes. The monolith includes a substrate sheet having attached thereto a plurality of catalytic or sorbent beads. Each bead has a diameter of at least fifty microns. The substrate sheet at least partially defines one or more channels through the monolith. Fluid flowing through the channels will contact the beads for catalytic or sorbent purposes. | 07-04-2013 |
20110131786 | STACKABLE STRUCTURAL REACTOR - A reactor including a monolith having a plurality of fins in an annular arrangement for receiving fluid flow through the reactor. The monolith is disposed within a generally cylindrical outer tube, and around a corrugated inner tube. The reactor includes a device for urging the monolith radially outward, so as to maintain contact between the monolith and the outer tube. | 06-09-2011 |