| 摘要 |
A high-temperature NOx occlusion reduction type catalyst in which an NOx occlusion material containing an alkali metal is supported, and a low-temperature NOx occlusion reduction type catalyst in which an NOx occlusion material containing an alkaline earth metal is supported, are disposed in series on an upstream side and a downstream side, respectively, of an exhaust gas purification system. An oxidation catalyst is disposed on an upstream side of the high-temperature NOx occlusion reduction type catalyst. The desulfurization of the NOx occlusion reduction type catalysts is facilitated, and the NOx reduction efficiency is improved by the partial oxidation of hydrocarbons in the exhaust gas, while a wide NOx active temperature window is achieved. |
| 主权项 |
1. An exhaust gas purification system, comprising:
NOx occlusion reduction type catalysts, each having a catalytic metal and a NOx occlusion material which occludes NOx when an air-fuel ratio of exhaust gas is in a lean state and releases the occluded NOx when the air-fuel ratio is in a rich state, wherein the NOx occlusion reduction type catalysts include a high-temperature NOx occlusion reduction type catalyst in which a NOx occlusion material containing an alkali metal is supported, and a low-temperature NOx occlusion reduction type catalyst in which a NOx occlusion material containing an alkaline earth metal is supported, disposed in series on an upstream side and a downstream side, respectively; a hydrocarbon injector on an upstream side of the high-temperature NOx occlusion reduction type catalyst; a first NOx sensor between the high-temperature NOx occlusion reduction type catalyst and the low-temperature NOx occlusion reduction type catalyst; a second NOx sensor downstream of the low-temperature NOx occlusion reduction type catalyst; and a hydrocarbon supply controller configured to provide—
when a temperature of the exhaust gas flowing into the high-temperature NOx occlusion reduction type catalyst is lower than a first determination temperature, feed-back control of hydrocarbon supplied from the hydrocarbon addition device based on a value detected by the second NOx sensor, andwhen the temperature of the exhaust gas flowing into the high-temperature NOx occlusion reduction type catalyst is not lower than a second determination temperature that is higher than the first determination temperature, feed-back control of the hydrocarbon supplied from the hydrocarbon addition device based on a value detected by the first NOx sensor; wherein the hydrogen addition device is a high-temperature hydrocarbon injector on the upstream side of the high-temperature NOx occlusion reduction type catalyst; and a low-temperature hydrocarbon injector between the high-temperature NOx occlusion reduction type catalyst and the low-temperature NOx occlusion reduction type catalyst, wherein the hydrocarbon supply controller controls the high-temperature hydrocarbon addition device and the low-temperature hydrocarbon addition device to supply—
when the temperature of the exhaust gas flowing into the high-temperature NOx occlusion reduction type catalyst is lower than the first determination temperature, the hydrocarbon only from the low-temperature hydrocarbon injector and feedback control of an amount of the hydrocarbon supplied is conducted by using a value detected by the second NOx sensor, andwhen the temperature of the exhaust gas flowing into the high temperature NOx occlusion reduction type catalyst is not lower than the second determination temperature, the hydrocarbon only from the high-temperature hydrocarbon injector, and feedback control of the amount of the hydrocarbon supplied is conducted by using a value detected by the first NOx sensor. |
