초록 ▼

A thermally-activated exhaust treatment device, such as a catalytic converter (20) adapted to control exhaust emissions in a vehicle, includes a core having an inner housing (21) and a catalytic material (27) chosen to reduce undesirable emissions from the exhaust of a combustion engine. A jacket in

A thermally-activated exhaust treatment device, such as a catalytic converter (20) adapted to control exhaust emissions in a vehicle, includes a core having an inner housing (21) and a catalytic material (27) chosen to reduce undesirable emissions from the exhaust of a combustion engine. A jacket includes an outer housing (22) enclosing the inner housing (21) but characteristically not contacting the inner housing (21). The inner and outer housings (21, 22) include walls (30, 31) forming a vacuum-drawn sealed insulation cavity (26) around the inner housing (21). A chamber (60) positioned adjacent the inner housing (21) includes low melting point metal phase change material (61). A thermal management system is operably connected to the insulation cavity (26) that is constructed to control heat flow from the inner housing (21) to maximize the time the catalytic material (27) is within a predetermined optimum temperature operating range or limit catalyst maximum temperature.

대표청구항 ▼

1. A thermally-activated exhaust treatment device adapted to control exhaust emissions in a vehicle, comprising:an inner housing having a first inlet and a first outlet defining a longitudinal direction and having an exhaust treatment device therein chosen to reduce emissions from exhaust of a combu

1. A thermally-activated exhaust treatment device adapted to control exhaust emissions in a vehicle, comprising:an inner housing having a first inlet and a first outlet defining a longitudinal direction and having an exhaust treatment device therein chosen to reduce emissions from exhaust of a combustion engine as the exhaust passes from the first inlet to the first outlet; an outer housing enclosing the inner housing but characteristically not contacting the inner housing, the outer housing including a second inlet and a second outlet that align with the first inlet and the first outlet of the inner housing, the inner and outer housings including walls forming a sealed insulation cavity around the inner housing, the insulation cavity having a vacuum drawn therein; and an intermediate housing positioned adjacent to the inner housing that includes metal phase change material comprising an alloy including Zinc (Zn), Magnesium (Mg), and Aluminum (Al), wherein the metal phase change material includes by weight about 35% to 55% Zn by weight, about 35-55% Mg by weight, about 2%-20% Al by weight, and about 0-15% Si by weight. 2. The device defined in claim 1, wherein the metal phase change material has a eutectic temperature in a range of about 339° to 350°.3. The device defined in claim 2, wherein the metal phase change material has a eutectic temperature of about 340°.4. The device defined in claim 1, wherein the metal phase change material has a thermal expansion upon undergoing a phase change in the range of 5-8%.5. The device defined in claim 1, wherein the exhaust treatment device includes a catalytic material.6. The device defined in claim 1, including a salt phase change material, the metal and salt phase change materials being in contact with each other, but being immiscible and thus separate even after use of the device.7. A thermally-activated exhaust treatment device adapted to control exhaust emissions from an internal combustion compression engine, such as a diesel engine, comprising:an inner housing having a first inlet and a first outlet defining a longitudinal direction and having an exhaust treatment device therein chosen to reduce emissions in exhaust of a diesel engine as the exhaust passes from the first inlet to the first outlet; an outer housing enclosing the inner housing but characteristically not contacting the inner housing, the outer housing including a second inlet and a second outlet that align with the first inlet and the first outlet of the inner housing, the inner and outer housings including walls forming a sealed insulation cavity around the inner housing, the insulation cavity having a vacuum drawn therein; and a thermal management system operably connected to the insulation cavity that is constructed to control heat flow from the inner housing to maximize the time the exhaust treatment device is within a predetermined optimum temperature operating range that includes a first phase change material that operates at an upper limit and a second phase change material that operates at a lower limit and that is in contact with but immiscible with the first phase change material so that the first and second phase change materials maintain distinct phase change characteristics from each other over a life of the treatment device. 8. The device defined in claim 7, wherein the first phase change material comprises metal phase change material and the second phase change material comprises salt phase change material.9. The device defined in claim 8, wherein the metal phase change material has a eutectic temperature in a range of about 339° to 350° C.10. The device defined in claim 9, wherein the metal phase change material has a eutectic temperature of about 340° C.11. The device defined in claim 7, wherein the inner housing of the exhaust treatment device is shaped and configured to form a particulate trap device.12. The device defined in claim 7, wherein the predetermined optimum temperature operating range is between about 200° C. for the lower limit and 400° C. for the upper limit.13. The device defined in claim 7, wherein the predetermined operating range is between about 250° C. to 310° C. at the lower and upper limits, respectively.14. The device defined in claim 7, wherein the thermal management system comprises an active thermal control system.15. The device defined in claim 14, wherein the active thermal control system includes an electrical circuit and an electrically heated metal hydride.16. The device defined in claim 14, wherein the active thermal control system includes a coolant actively removing heat.17. The device defined in claim 7, wherein the thermal management system comprises a passive thermal control system.18. The device defined in claim 17, wherein the passive thermal control system includes passive air cooling fins attached to the outer housing.19. The device defined in claim 17, wherein the passive thermal control system includes passively heated metal hydride.20. The device defined in claim 7, wherein the exhaust treatment device includes a catalytic material.21. The device defined in claim 7, wherein the exhaust treatment device includes a particulate trap device.22. A thermally-activated exhaust treatment device adapted to control exhaust emissions in a vehicle, comprising:an inner housing having a first inlet and a first outlet defining a longitudinal direction and having an exhaust treatment device therein chosen to reduce emissions from exhaust of a combustion engine as the exhaust passes from the first inlet to the first outlet; an outer housing enclosing the inner housing but characteristically not contacting the inner housing, the outer housing including a second inlet and a second outlet that align with the first inlet and the first outlet of the inner housing, the inner and outer housings including walls forming an insulation cavity around the inner housing; and an intermediate housing positioned adjacent to the inner housing that includes metal phase change material comprising an alloy including Zinc (Zn), Magnesium (Mg), and Aluminum (Al), wherein the metal phase change material includes by weight about 35% to 55% Zn by weight, about 35-55% Mg by weight, about 2%-20% Al by weight, and about 0-15% Si by weight. 23. The device defined in claim 22, including a salt phase change material, the metal and salt phase change materials being in contact with each other, but being immiscible and thus separate even after use of the device.24. A thermally-activated exhaust treatment device adapted to control exhaust emissions from an internal combustion compression engine, such as a diesel engine, comprising:an inner housing having a first inlet and a first outlet defining a longitudinal direction and having an exhaust treatment device therein chosen to reduce emissions in exhaust of a diesel engine as the exhaust passes from the first inlet to the first outlet; an outer housing enclosing the inner housing but characteristically not contacting the inner housing, the outer housing including a second inlet and a second outlet that align with the first inlet and the first outlet of the inner housing, the inner and outer housings including walls forming an insulation cavity around the inner housing; and a thermal management system operably connected to the insulation cavity that is constructed to control heat flow from the inner housing to maximize the time the exhaust treatment device is within a predetermined optimum temperature operating range that includes a first phase change material that operates at an upper limit and a second phase change material that operates at a lower limit and that is in contact with but immiscible with the first phase change material so that the first and second phase change materials maintain distinct phase change characteristics from each other over a life of the treatment device.