A system and approach for catalyst model parameter identification with modeling accomplished by an identification procedure that may incorporate a catalyst parameter identification procedure which may include determination of parameters for a catalyst device, specification of values for parameters and component level identification. Component level identification may be of a thermal model, adsorption and desorption, and chemistry. There may then be system level identification to get a final estimate of catalyst parameters.

An aftertreatment system comprises an SCR system and at least one reductant insertion assembly fluidly coupled thereto. The reductant insertion assembly includes an injector and reductant storage tank. The injector includes a first fluid connector and a second fluid connector. A first fluid connector marking is defined on the first fluid connector and a second fluid connector marking is defined on the second fluid connector. The reductant storage tank includes a first fluid conduit fluidly coupled to the first fluid connector and a second fluid conduit fluidly coupled to the second fluid connector. A first fluid conduit marking is defined on the first fluid conduit, and a second fluid conduit marking is defined on the second fluid conduit. The first fluid conduit marking corresponds to the first fluid connector marking, and the second fluid conduit marking corresponds to the second fluid connector marking, thereby identifying a coupling relationship therebetween.

An exhaust line element includes an exhaust volume comprising a metal enclosure with a thickness smaller than 1 mm and at least one metal plate with a thickness comprised between 0.5 and 5 mm. The metal plate comprises a central part that does not contact the metal enclosure and between 2 and 4 fastening tabs are secured to the central part. Each fastening tab is spot and transparently welded to the metal enclosure.

A circumferential coating material contains colloidal silica, silicon carbide, and titanium oxide different in particle diameters from silicon carbide, coats a circumferential surface of a honeycomb structure monolithically formed by extrusion, including as a main component, cordierite having a porosity of 50 to 75%, and forms a circumferential coating layer. A circumferentially coated honeycomb structure has a honeycomb structure comprising latticed porous partition walls defining and forming a plurality of polygonal cells forming through channels and extending from one end face to the other end face, and a circumferential coating layer formed by coating at least a part of a circumferential surface of the honeycomb structure with the circumferential coating material.

A fuel cap barrier kit is basically provided with a movable barrier and an attachment member. The movable barrier is dimensioned and structured to be attached to a vehicle body at a location in which the movable barrier is disposed in front of a fuel cap and is underneath a filler compartment door. The movable barrier is movable between an inlet accessible position in which the movable barrier permits user access to the fuel cap and an inlet blocking position in which the movable barrier is disposed in front of the fuel cap. The attachment member is configured to fixedly attach the movable barrier to the vehicle body.

Aspects herein include filtration systems with multitiered data exchange capabilities. In an embodiment, a filtration system with multitiered data exchange capabilities is included. The system can include a first data communication tier including a filter element, the filter element storing data, and a first sensor. The system can include a second data communication tier including a reader device in communication with the first sensor. The system can include a third data communication tier including an engine control unit (ECU) in communication with the reader device, wherein the ECU stores data. The second data communication tier receives data from the first data communication tier and the third data communication tier. The second data communication tier executes operations on the received data to create a processed data set. Further, the second data communication tier sends the processed data set to the third data communication tier. Other embodiments are also included herein.

There are disclosed an information-display-equipped electric-heating-type heater, and a method of using the above information. An information-display-equipped electric-heating-type heater includes a tubular honeycomb structure made of a conductive material and having porous partition walls to define and form a plurality of cells which become through channels for a fluid and extend from one end face to the other end face, and a circumferential wall positioned in an outermost circumference; and a pair of electrodes disposed on the circumferential wall of the honeycomb structure, and information concerning a heater performance of the electric-heating-type heater is displayed in the honeycomb structure.

An aftertreatment system comprises an SCR system and at least one reductant insertion assembly fluidly coupled thereto. The reductant insertion assembly includes an injector and reductant storage tank. The injector includes a first fluid connector and a second fluid connector. A first fluid connector marking is defined on the first fluid connector and a second fluid connector marking is defined on the second fluid connector. The reductant storage tank includes a first fluid conduit fluidly coupled to the first fluid connector and a second fluid conduit fluidly coupled to the second fluid connector. A first fluid conduit marking is defined on the first fluid conduit, and a second fluid conduit marking is defined on the second fluid conduit. The first fluid conduit marking corresponds to the first fluid connector marking, and the second fluid conduit marking corresponds to the second fluid connector marking, thereby identifying a coupling relationship therebetween.

A circumferential coating material contains colloidal silica, silicon carbide, and titanium oxide different in particle diameters from silicon carbide, coats a circumferential surface of a honeycomb structure monolithically formed by extrusion, including as a main component, cordierite having a porosity of 50 to 75%, and forms a circumferential coating layer. A circumferentially coated honeycomb structure has a honeycomb structure comprising latticed porous partition walls defining and forming a plurality of polygonal cells forming through channels and extending from one end face to the other end face, and a circumferential coating layer formed by coating at least a part of a circumferential surface of the honeycomb structure with the circumferential coating material.