Abstract: A catalyst substrate comprises a substrate material having an inlet, an outlet, an opening therebetween to allow for the passage of exhaust gas therethrough, and further comprises a catalyst and a layer of zirconium phosphate. Catalyst substrates coated with zirconium phosphate exhibit improved thermal durability, improved thermal shock resistance, and improved alkali and acidic corrosion resistance.

Abstract: A catalyst substrate comprises a substrate material having an inlet, an outlet, an opening therebetween to allow for the passage of exhaust gas therethrough, and further comprises a catalyst and a layer of zirconium phosphate. Catalyst substrates coated with zirconium phosphate exhibit improved thermal durability, improved thermal shock resistance, and improved alkali and acidic corrosion resistance.

Abstract: A manifold converter apparatus comprising a manifold housing including a plurality of inlets wherein each inlet of the plurality of inlets is mounted immediately adjacent an internal combustion engine exhaust port and a plurality of lead pipes wherein each lead pipe of the plurality of lead pipes provides an exhaust gas flow passage between one of the inlets and a manifold plenum and at least one catalyst coated substrate located within at least one of the inlets between at least one of the exhaust ports and one of the lead pipes. An advantage achieved includes quick light-off of the manifold converter apparatus after cold start of the vehicle engine.

Abstract: An exhaust manifold catalytic warm-up converter for an automotive vehicle engine includes tubular runners having inlet and outlet ends and connectable at their inlet ends with exhaust ports of an engine. The runners are joined at their outlet ends with a common exhaust outlet. A generally helical twisted tape extends longitudinally in each of the runners between their inlet and outlet ends and laterally divides the runners into at least two parallel generally helical flow passages. The tape is porous and formed of a material having a predetermined thickness and porosity to encourage a flow of exhaust gases through pores of the tape between adjacent helical passages due to pressure gradients across the tape resulting from gas flow in the helical passages. The porous tape has a low thermal inertia for fast warm-up and is coated with a catalytic material for stimulating reaction of emissions in the engine exhaust gases passing through the exhaust manifold. Additional features and alternatives are disclosed.

Abstract: An exhaust gas management apparatus including: a first substrate coated with an oxidizing catalyst, wherein the first substrate includes an axial opening and a body portion radially exterior of the axial opening, wherein the axial opening comprises at least part of a bypass passage; an air source located downstream in an exhaust flow path of the axial opening; an air pump unit responsive to a control signal forcing air through the air source wherein, during an activation of the pump unit, the bypass passage is valved shut; and a second substrate coated with an oxidizing catalyst located in the path of exhaust downstream of the first substrate.